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Long known as a party drug, ketamine now used for depression, but concerns remain

A decades-old anesthetic made notorious as a party drug in the 1980s is resurfacing as a potential “game-changing” treatment for severe depression, patients and psychiatrists say, but they remain wary about potential long-term problems.

The Food and Drug Administration earlier this month OKd use of Spravato for patients with depression who have not benefited from other currently available medications. Spravato, the brand name given to the drug esketamine, is a molecule derived from ketamine — known as Special K on the club scene.

Ketamine has been shown in some studies to be useful for treating a wide variety of neurological disorders including depression. Regular, longtime use of it isn’t well understood, psychiatrists say, but the need for a new drug to treat depression is so great that the FDA put Spravato on a fast-track course for approval.

The drug likely will be commercially available in a few weeks, and patients already are requesting it. Restrictions around its use, though — the drug must be administered in a doctor’s office by providers who are certified with the company making it — mean it may be months before it’s widely available, and longer than that before insurers start paying for it.

“I don’t think we know at this point how effective it’s going to be,” said Dr. Craig Nelson, a psychiatrist at the UCSF Depression Center. “There have been a number of studies of ketamine, sometimes showing effects in people who were resistant to other drugs. If we can treat a different group of people, it would be a great advantage.”

Ketamine was developed in the 1960s as a surgical anesthetic for people and animals. The drug can cause hallucinations and a feeling of “dissociation” or unreality, and in the 1980s it took off as a party drug among people seeking those effects. It remained a common anesthetic, though, and in the early 2000s doctors began to notice a connection between ketamine and relief from symptoms of depression and other mood disorders.

Spravato is delivered by nasal spray, which patients give themselves in a doctor’s office. Patients must be monitored while they get the drug and for two hours after to make sure they don’t suffer immediate complications. At the start, patients will get the nasal spray twice a week for four weeks, then taper to regular boosters every few weeks for an indefinite period of time.

Studies of ketamine — and specifically of Spravato — have produced encouraging but inconsistent results. Psychiatrists say that, like most other antidepressants, the drug probably won’t help everyone with difficult-to-treat depression. But there likely will be a subset of patients who get substantial benefits, and that alone may make it an incredible new tool.

About 16 million Americans experience depression every year, and roughly a quarter of them get no benefit from antidepressants on the market. Thought scientists haven’t determined exactly how ketamine works on the brains of people with depression or other mood disorders, it appears to take a different path of attack than any drug already available. That means that people who don’t respond to other antidepressants may find this one works for them.

But a concern among some psychiatrists is that studies have suggested that ketamine may affect the same receptors in the brain that respond to opioids. Ketamine and its derivations may then put patients at risk of addiction — but research so far hasn’t explored that kind of long-term effect.

“There might be some potential problems if you used it too aggressively,” said Dr. Alan Schatzberg, director of the Stanford Mood Disorders Center, who led the research that identified a connection with opioid receptors. “The issue is not so much the short-term use, it’s the repetitive use, and the use over time, as to whether there are going to be untoward consequences.

“It would be hard for me to recommend the use of this drug for chronically depressed people without knowing what the endgame is here,” he added.

Dr. Carolyn Rodriguez, a Stanford psychiatrist who was part of the studies of ketamine and opioid receptors, said she shares Schatzberg’s concerns. But she’s been studying the use of ketamine to treat obsessive-compulsive disorder, and for some patients the results have been so remarkable that the benefits may exceed the risks.

“When I gave ketamine to my first patient, I nearly fell off my chair. Somebody said it was like a vacation from their OCD, and I was just, ‘Wow, this is really possible,’” Rodriguez said. “I want to make sure patients have their eyes wide open. I hope (the FDA approval) spurs more research, so we can really inform consumers.”

Though the new nasal spray is the first formal FDA approval of a ketamine-derived drug, psychiatrists have been using the generic anesthetic for years to study its effect on depression and other mood disorders.

In recent years, clinics have opened around the country offering intravenous infusions of ketamine to people with hard-to-treat depression and other problems. These treatments aren’t specifically FDA-approved but are allowed as off-label use of ketamine. The clinics have faced skepticism from some traditional psychiatrists, but there’s a growing ream of anecdotal evidence that the ketamine IVs work — for some people.

Aptos resident Mary, who suffers from depression and other mood disorders and asked that her last name not be used to protect her privacy, said the already available antidepressants weren’t keeping her symptoms at bay, and she frequently felt “one step away from the abyss.” When she first heard about ketamine, from a support group for people with depression and other mood disorders, she was hesitant.

“I kind of hemmed and hawed, because I’d heard that K was a street drug,” Mary said. “But then I said, ‘What do I have to lose?’ So I went and did it.”

The results were quick: Within four days, “the cloud had lifted,” she said. More than a year later, she is still feeling good with regular infusions every three or four weeks. During the ketamine infusion, Mary said she’ll feel the dissociation, which she described as feeling like she’s viewing the world around her as though it were a movie and not her own life.

She said she’s pleased the FDA approved Spravato, though she hasn’t decided whether she’ll switch from the IV ketamine to the nasal spray. She hopes that the FDA approval will give some validation to ketamine and encourage others to try it.

Mary gets her infusions at Palo Alto Mind Body, where Dr. M Rameen Ghorieshi started offering ketamine two years ago. He’s certified with the maker of Spravato — Janssen Pharmaceuticals, a branch of Johnson and Johnson — to provide the drug, though he doesn’t know when he’ll actually start giving the nasal spray to patients.

Ghorieshi said that although he’s been offering IV ketamine for more than two years, he shares his colleagues’ wariness of the long-term effects of regular use of the drug. He hopes FDA approval will encourage further research.

“At this point we’ve done 1,000 infusions. The outcomes have exceeded my own expectations,” Ghorieshi said. “But anecdotes are not clinical trials. I approach this very cautiously. What I don’t want is 20 or 30 years from now to look back and say, ‘What did we do?’”



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Now that the days are getting shorter, the air is getting cooler, Virginians have had the first glimpse of cold for the season, some of us begin to feel the winter blues. These feelings of low energy and sleepiness may actually be Seasonal Affective Disorder, or SAD.

SAD is a form of depression related to the changing seasons. It usually starts in the late fall, especially in our northern climes. The decreasing hours of sunlight, along with the cold and snow, cause our bodies to retreat into the warmth and coziness of our homes. We tend to crave carbohydrates, eat comfort foods, and socially KWC_SADwithdraw as we sleep more, and move less; much like we are hibernating!

Those most at risk for SAD are people already suffering from major depression or bipolar disorder. Risk factors include being female, family history, young age, and the further you live from the equator, the higher your risk.   However, there are ways to decrease your risk, and increase your mood.

What can you do to improve your mood? Soak up the sun! When the weather allows, go for a walk on those bright, crisp sunny days. If the temperature or the ice and snow don’t allow you to venture outside, open the curtains and let the sun shine in. Exercise and eating healthy are both options to make you feel better. Vitamins, especially vitamin D, the sunshine vitamin can help with mood. Be social, visit with friends. A phone call, visit, or even a vacation to visit your “snowbird” friends will keep you socially involved.

So, if these options aren’t working or you just need something more to improve your mood, your healthcare provider may recommend seeking help from a psychotherapist. They may offer medications, light box therapy, or talk therapy.

 

Ketamine therapy is an option to help make it through dark times when nothing else seems to work. Contact 703-844-0184 for a consultation.

 

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Seasonal Affective Disorder

Overview

Seasonal Affective Disorder (SAD) is a type of depression that comes and goes with the seasons, typically starting in the late fall and early winter and going away during the spring and summer. Depressive episodes linked to the summer can occur, but are much less common than winter episodes of SAD.

Signs and Symptoms

Seasonal Affective Disorder (SAD) is not considered as a separate disorder. It is a type of depression displaying a recurring seasonal pattern. To be diagnosed with SAD, people must meet full criteria for major depression coinciding with specific seasons (appearing in the winter or summer months) for at least 2 years. Seasonal depressions must be much more frequent than any non-seasonal depressions.

Symptoms of Major Depression

  • Feeling depressed most of the day, nearly every day
  • Feeling hopeless or worthless
  • Having low energy
  • Losing interest in activities you once enjoyed
  • Having problems with sleep
  • Experiencing changes in your appetite or weight
  • Feeling sluggish or agitated
  • Having difficulty concentrating
  • Having frequent thoughts of death or suicide.

Symptoms of the Winter Pattern of SAD include:

  • Having low energy
  • Hypersomnia
  • Overeating
  • Weight gain
  • Craving for carbohydrates
  • Social withdrawal (feel like “hibernating”)

Symptoms of the less frequently occurring summer seasonal affective disorder include:

  • Poor appetite with associated weight loss
  • Insomnia
  • Agitation
  • Restlessness
  • Anxiety
  • Episodes of violent behavior

Risk Factors

Attributes that may increase your risk of SAD include:

  • Being female. SAD is diagnosed four times more often in women than men.
  • Living far from the equator. SAD is more frequent in people who live far north or south of the equator. For example, 1 percent of those who live in Florida and 9 percent of those who live in New England or Alaska suffer from SAD.
  • Family history. People with a family history of other types of depression are more likely to develop SAD than people who do not have a family history of depression.
  • Having depression or bipolar disorder. The symptoms of depression may worsen with the seasons if you have one of these conditions (but SAD is diagnosed only if seasonal depressions are the most common).
  • Younger Age. Younger adults have a higher risk of SAD than older adults. SAD has been reported even in children and teens.

The causes of SAD are unknown, but research has found some biological clues:

  • People with SAD may have trouble regulating one of the key neurotransmitters involved in mood, serotonin. One study found that people with SAD have 5 percent more serotonin transporter protein in winter months than summer months. Higher serotonin transporter protein leaves less serotonin available at the synapse because the function of the transporter is to recycle neurotransmitter back into the pre-synaptic neuron.
  • People with SAD may overproduce the hormone melatonin.Darkness increases production of melatonin, which regulates sleep. As winter days become shorter, melatonin production increases, leaving people with SAD to feel sleepier and more lethargic, often with delayed circadian rhythms.
  • People with SAD also may produce less Vitamin D. Vitamin D is believed to play a role in serotonin activity. Vitamin D insufficiency may be associated with clinically significant depression symptoms.

Treatments and Therapies

There are four major types of treatment for SAD:

  • Medication
  • Light therapy
  • Psychotherapy
  • Vitamin D

These may be used alone or in combination.

Medication

Selective Serotonin Reuptake Inhibitors (SSRIs) are used to treat SAD. The FDA has also approved the use of bupropion, another type of antidepressant, for treating SAD.

As with other medications, there are side effects to SSRIs. Talk to your doctor about the possible risks of using this medication for your condition. You may need to try several different antidepressant medications before finding the one that improves your symptoms without causing problematic side effects. For basic information about SSRIs and other mental health medications, visit NIMH’s Medications webpage. Check the FDA’s website for the latest information on warnings, patient medication guides, or newly approved medications.

Light Therapy

Light therapy has been a mainstay of treatment for SAD since the 1980s. The idea behind light therapy is to replace the diminished sunshine of the fall and winter months using daily exposure to bright, artificial light. Symptoms of SAD may be relieved by sitting in front of a light box first thing in the morning, on a daily basis from the early fall until spring. Most typically, light boxes filter out the ultraviolet rays and require 20-60 minutes of exposure to 10,000 lux of cool-white fluorescent light, an amount that is about 20 times greater than ordinary indoor lighting.

Psychotherapy

Cognitive behavioral therapy (CBT) is type of psychotherapy that is effective for SAD. Traditional cognitive behavioral therapy has been adapted for use with SAD (CBT-SAD). CBT-SAD relies on basic techniques of CBT such as identifying negative thoughts and replacing them with more positive thoughts along with a technique called behavioral activation. Behavioral activation seeks to help the person identify activities that are engaging and pleasurable, whether indoors or outdoors, to improve coping with winter.

Vitamin D

At present, vitamin D supplementation by itself is not regarded as an effective SAD treatment. The reason behind its use is that low blood levels of vitamin D were found in people with SAD. The low levels are usually due to insufficient dietary intake or insufficient exposure to sunshine. However, the evidence for its use has been mixed. While some studies suggest vitamin D supplementation may be as effective as light therapy, others found vitamin D had no effect.

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Ketamine for Depression

Everyone occasionally feels blue or sad. But these feelings are usually short-lived and pass within a couple of days. When you have depression, it interferes with daily life and causes pain for both you and those who care about you. Depression is a common but serious illness.

Many people with a depressive illness never seek treatment. But the majority, even those with the most severe depression, can get better with treatment. Medications, psychotherapies, and other methods can effectively treat people with depression.

There are several forms of depressive disorders.

Major depression,—severe symptoms that interfere with your ability to work, sleep, study, eat, and enjoy life. An episode can occur only once in a person’s lifetime, but more often, a person has several episodes.

Persistent depressive disorder—depressed mood that lasts for at least 2 years. A person diagnosed with persistent depressive disorder may have episodes of major depression along with periods of less severe symptoms, but symptoms must last for 2 years.

Some forms of depression are slightly different, or they may develop under unique circumstances. They include:

  • Psychotic depression, which occurs when a person has severe depression plus some form of psychosis, such as having disturbing false beliefs or a break with reality (delusions), or hearing or seeing upsetting things that others cannot hear or see (hallucinations).
  • Postpartum depression, which is much more serious than the “baby blues” that many women experience after giving birth, when hormonal and physical changes and the new responsibility of caring for a newborn can be overwhelming. It is estimated that 10 to 15 percent of women experience postpartum depression after giving birth.
  • Seasonal affective disorder (SAD), which is characterized by the onset of depression during the winter months, when there is less natural sunlight. The depression generally lifts during spring and summer. SAD may be effectively treated with light therapy, but nearly half of those with SAD do not get better with light therapy alone. Antidepressant medication and psychotherapy can reduce SAD symptoms, either alone or in combination with light therapy.

Bipolar depression, also called manic-depressive illness, is not as common as major depression or persistent depressive disorder. Bipolar disorder is characterized by cycling mood changes—from extreme highs (e.g., mania) to extreme lows (e.g., depression).

Causes

Most likely, depression is caused by a combination of genetic, biological, environmental, and psychological factors.

Depressive illnesses are disorders of the brain. Brain-imaging technologies, such as magnetic resonance imaging (MRI), have shown that the brains of people who have depression look different than those of people without depression. The parts of the brain involved in mood, thinking, sleep, appetite, and behavior appear different. But these images do not reveal why the depression has occurred. They also cannot be used to diagnose depression.

Some types of depression tend to run in families. However, depression can occur in people without family histories of depression too. Scientists are studying certain genes that may make some people more prone to depression. Some genetics research indicates that risk for depression results from the influence of several genes acting together with environmental or other factors. In addition, trauma, loss of a loved one, a difficult relationship, or any stressful situation may trigger a depressive episode. Other depressive episodes may occur with or without an obvious trigger.

Signs & Symptoms

“It was really hard to get out of bed in the morning. I just wanted to hide under the covers and not talk to anyone. I didn’t feel much like eating and I lost a lot of weight. Nothing seemed fun anymore. I was tired all the time, and I wasn’t sleeping well at night. But I knew I had to keep going because I’ve got kids and a job. It just felt so impossible, like nothing was going to change or get better.”

People with depressive illnesses do not all experience the same symptoms. The severity, frequency, and duration of symptoms vary depending on the individual and his or her particular illness.

Signs and symptoms include:

  • Persistent sad, anxious, or “empty” feelings
  • Feelings of hopelessness or pessimism
  • Feelings of guilt, worthlessness, or helplessness
  • Irritability, restlessness
  • Loss of interest in activities or hobbies once pleasurable, including sex
  • Fatigue and decreased energy
  • Difficulty concentrating, remembering details, and making decisions
  • Insomnia, early-morning wakefulness, or excessive sleeping
  • Overeating, or appetite loss
  • Thoughts of suicide, suicide attempts
  • Aches or pains, headaches, cramps, or digestive problems that do not ease even with treatment.

Who Is At Risk?

Major depressive disorder is one of the most common mental disorders in the United States. Each year about 6.7% of U.S adults experience major depressive disorder. Women are 70 % more likely than men to experience depression during their lifetime.  Non-Hispanic blacks are 40% less likely than non-Hispanic whites to experience depression during their lifetime.  The average age of onset is 32 years old. Additionally, 3.3% of 13 to 18 year olds have experienced a seriously debilitating depressive disorder.

Diagnosis

“I started missing days from work, and a friend noticed that something wasn’t right. She talked to me about the time she had been really depressed and had gotten help from her doctor.”

Depression, even the most severe cases, can be effectively treated. The earlier that treatment can begin, the more effective it is.

The first step to getting appropriate treatment is to visit a doctor or mental health specialist. Certain medications, and some medical conditions such as viruses or a thyroid disorder, can cause the same symptoms as depression. A doctor can rule out these possibilities by doing a physical exam, interview, and lab tests. If the doctor can find no medical condition that may be causing the depression, the next step is a psychological evaluation.

The doctor may refer you to a mental health professional, who should discuss with you any family history of depression or other mental disorder, and get a complete history of your symptoms. You should discuss when your symptoms started, how long they have lasted, how severe they are, and whether they have occurred before and if so, how they were treated. The mental health professional may also ask if you are using alcohol or drugs, and if you are thinking about death or suicide.

Other illnesses may come on before depression, cause it, or be a consequence of it. But depression and other illnesses interact differently in different people. In any case, co-occurring illnesses need to be diagnosed and treated.

Anxiety disorders, such as post-traumatic stress disorder (PTSD), obsessive-compulsive disorder, panic disorder, social phobia, and generalized anxiety disorder, often accompany depression. PTSD can occur after a person experiences a terrifying event or ordeal, such as a violent assault, a natural disaster, an accident, terrorism or military combat. People experiencing PTSD are especially prone to having co-existing depression.

Alcohol and other substance abuse or dependence may also co-exist with depression. Research shows that mood disorders and substance abuse commonly occur together.

Depression also may occur with other serious medical illnesses such as heart disease, stroke, cancer, HIV/AIDS, diabetes, and Parkinson’s disease. People who have depression along with another medical illness tend to have more severe symptoms of both depression and the medical illness, more difficulty adapting to their medical condition, and more medical costs than those who do not have co-existing depression. Treating the depression can also help improve the outcome of treating the co-occurring illness.

Treatments

Once diagnosed, a person with depression can be treated in several ways. The most common treatments are medication and psychotherapy.

Medication

Antidepressants primarily work on brain chemicals called neurotransmitters, especially serotonin and norepinephrine. Other antidepressants work on the neurotransmitter dopamine. Scientists have found that these particular chemicals are involved in regulating mood, but they are unsure of the exact ways that they work. The latest information on medications for treating depression is available on the U.S. Food and Drug Administration (FDA) website .

Popular newer antidepressants

Some of the newest and most popular antidepressants are called selective serotonin reuptake inhibitors (SSRIs). Fluoxetine (Prozac), sertraline (Zoloft), escitalopram (Lexapro), paroxetine (Paxil), and citalopram (Celexa) are some of the most commonly prescribed SSRIs for depression. Most are available in generic versions. Serotonin and norepinephrine reuptake inhibitors (SNRIs) are similar to SSRIs and include venlafaxine (Effexor) and duloxetine (Cymbalta).

SSRIs and SNRIs tend to have fewer side effects than older antidepressants, but they sometimes produce headaches, nausea, jitters, or insomnia when people first start to take them. These symptoms tend to fade with time. Some people also experience sexual problems with SSRIs or SNRIs, which may be helped by adjusting the dosage or switching to another medication.

One popular antidepressant that works on dopamine is bupropion (Wellbutrin). Bupropion tends to have similar side effects as SSRIs and SNRIs, but it is less likely to cause sexual side effects. However, it can increase a person’s risk for seizures.

Tricyclics

Tricyclics are older antidepressants. Tricyclics are powerful, but they are not used as much today because their potential side effects are more serious. They may affect the heart in people with heart conditions. They sometimes cause dizziness, especially in older adults. They also may cause drowsiness, dry mouth, and weight gain. These side effects can usually be corrected by changing the dosage or switching to another medication. However, tricyclics may be especially dangerous if taken in overdose. Tricyclics include imipramine and nortriptyline.

MAOIs

Monoamine oxidase inhibitors (MAOIs) are the oldest class of antidepressant medications. They can be especially effective in cases of “atypical” depression, such as when a person experiences increased appetite and the need for more sleep rather than decreased appetite and sleep. They also may help with anxious feelings or panic and other specific symptoms.

However, people who take MAOIs must avoid certain foods and beverages (including cheese and red wine) that contain a substance called tyramine. Certain medications, including some types of birth control pills, prescription pain relievers, cold and allergy medications, and herbal supplements, also should be avoided while taking an MAOI. These substances can interact with MAOIs to cause dangerous increases in blood pressure. The development of a new MAOI skin patch may help reduce these risks. If you are taking an MAOI, your doctor should give you a complete list of foods, medicines, and substances to avoid.

MAOIs can also react with SSRIs to produce a serious condition called “serotonin syndrome,” which can cause confusion, hallucinations, increased sweating, muscle stiffness, seizures, changes in blood pressure or heart rhythm, and other potentially life-threatening conditions. MAOIs should not be taken with SSRIs.

How should I take medication?

All antidepressants must be taken for at least 4 to 6 weeks before they have a full effect. You should continue to take the medication, even if you are feeling better, to prevent the depression from returning.

Medication should be stopped only under a doctor’s supervision. Some medications need to be gradually stopped to give the body time to adjust. Although antidepressants are not habit-forming or addictive, suddenly ending an antidepressant can cause withdrawal symptoms or lead to a relapse of the depression. Some individuals, such as those with chronic or recurrent depression, may need to stay on the medication indefinitely.

In addition, if one medication does not work, you should consider trying another. NIMH-funded research has shown that people who did not get well after taking a first medication increased their chances of beating the depression after they switched to a different medication or added another medication to their existing one.

Sometimes stimulants, anti-anxiety medications, or other medications are used together with an antidepressant, especially if a person has a co-existing illness. However, neither anti-anxiety medications nor stimulants are effective against depression when taken alone, and both should be taken only under a doctor’s close supervision.

Report any unusual side effects to a doctor immediately.

 

 

 

 

IV Ketamine Therapy

One of the most exciting new treatment options for depression is with a long known drug, ketamine. Ketamine has been used historically as an anesthetic. Recently, it has emerged as an effective treatment option for severe depression (citations below). The mechanism of action for ketamine’s antidepressant effects is not fully understood and hotly debated. However, studies of the neurobiology of depressed patients have revealed possible abnormalities that may have a causal link to depression such as increased inflammatory cytokines, decreased BDNF, and reduced hippocampal volume. Interestingly, there is much overlap in the neurobiology of depression and known consequences of ketamine treatment. Ketamine has been found to reduce neuroinflammation, increase BDNF production and hippocampal volume. Thus, it is highly likely that ketamine possesses a robust pharmacological profile that works collectively to correct abnormalities common to severe depression. Although only FDA-approved as an anesthetic, ketamine is used off-label by many physicians in cases of severe, treatment-resistant depression.

Resources for Ketamine and Depression:

Schwartzman, R. J., G. M. Alexander, J. R. Grothusen, T. Paylor, E. Reichenberger and M. Perreault (2009). “Outpatient intravenous ketamine for the treatment of complex regional pain syndrome: a double-blind placebo controlled study.” Pain 147(1-3): 107-115.

Best, S. R. and B. Griffin (2015). “Combination therapy utilizing ketamine and transcranial magnetic stimulation for treatment-resistant depression: a case report.” Int J Neurosci125(3): 232-234.

Clark, P. (2014). “Treatment-refractory depression: a case of successful treatment with intranasal ketamine 10%.” Ann Clin Psychiatry 26(2): 145.

Galvez, V., E. O’Keefe, L. Cotiga, J. Leyden, S. Harper, P. Glue, P. B. Mitchell, A. A. Somogyi, A. DeLory and C. K. Loo (2014). “Long-lasting effects of a single subcutaneous dose of ketamine for treating melancholic depression: a case report.” Biol Psychiatry 76(3): e1-2.

Hu, Y. D., Y. T. Xiang, J. X. Fang, S. Zu, S. Sha, H. Shi, G. S. Ungvari, C. U. Correll, H. F. Chiu, Y. Xue, T. F. Tian, A. S. Wu, X. Ma and G. Wang (2016). “Single i.v. ketamine augmentation of newly initiated escitalopram for major depression: results from a randomized, placebo-controlled 4-week study.” Psychol Med 46(3): 623-635.

Li, C. T., M. H. Chen, W. C. Lin, C. J. Hong, B. H. Yang, R. S. Liu, P. C. Tu and T. P. Su (2016). “The effects of low-dose ketamine on the prefrontal cortex and amygdala in treatment-resistant depression: A randomized controlled study.” Hum Brain Mapp 37(3): 1080-1090.

Murrough, J. W., K. E. Burdick, C. F. Levitch, A. M. Perez, J. W. Brallier, L. C. Chang, A. Foulkes, D. S. Charney, S. J. Mathew and D. V. Iosifescu (2015). “Neurocognitive effects of ketamine and association with antidepressant response in individuals with treatment-resistant depression: a randomized controlled trial.” Neuropsychopharmacology 40(5): 1084-1090.

Murrough, J. W., D. V. Iosifescu, L. C. Chang, R. K. Al Jurdi, C. E. Green, A. M. Perez, S. Iqbal, S. Pillemer, A. Foulkes, A. Shah, D. S. Charney and S. J. Mathew (2013). “Antidepressant efficacy of ketamine in treatment-resistant major depression: a two-site randomized controlled trial.” Am J Psychiatry 170(10): 1134-1142.

Murrough, J. W., A. M. Perez, S. J. Mathew and D. S. Charney (2011). “A case of sustained remission following an acute course of ketamine in treatment-resistant depression.” J Clin Psychiatry 72(3): 414-415.

Price, R. B., D. V. Iosifescu, J. W. Murrough, L. C. Chang, R. K. Al Jurdi, S. Z. Iqbal, L. Soleimani, D. S. Charney, A. L. Foulkes and S. J. Mathew (2014). “Effects of ketamine on explicit and implicit suicidal cognition: a randomized controlled trial in treatment-resistant depression.” Depress Anxiety 31(4): 335-343.

Singh, J. B., M. Fedgchin, E. J. Daly, P. De Boer, K. Cooper, P. Lim, C. Pinter, J. W. Murrough, G. Sanacora, R. C. Shelton, B. Kurian, A. Winokur, M. Fava, H. Manji, W. C. Drevets and L. Van Nueten (2016). “A Double-Blind, Randomized, Placebo-Controlled, Dose-Frequency Study of Intravenous Ketamine in Patients With Treatment-Resistant Depression.” Am J Psychiatry: appiajp201616010037.

Living With Depression

How do women experience depression?

Depression is more common among women than among men. Biological, life cycle, hormonal, and psychosocial factors that women experience may be linked to women’s higher depression rate. Researchers have shown that hormones directly affect the brain chemistry that controls emotions and mood. For example, women are especially vulnerable to developing postpartum depression after giving birth, when hormonal and physical changes and the new responsibility of caring for a newborn can be overwhelming.

Some women may also have a severe form of premenstrual syndrome (PMS) called premenstrual dysphoric disorder (PMDD). PMDD is associated with the hormonal changes that typically occur around ovulation and before menstruation begins.

During the transition into menopause, some women experience an increased risk for depression. In addition, osteoporosis—bone thinning or loss—may be associated with depression. Scientists are exploring all of these potential connections and how the cyclical rise and fall of estrogen and other hormones may affect a woman’s brain chemistry.

Finally, many women face the additional stresses of work and home responsibilities, caring for children and aging parents, abuse, poverty, and relationship strains. It is still unclear, though, why some women faced with enormous challenges develop depression, while others with similar challenges do not.

How do men experience depression?

Men often experience depression differently than women. While women with depression are more likely to have feelings of sadness, worthlessness, and excessive guilt, men are more likely to be very tired, irritable, lose interest in once-pleasurable activities, and have difficulty sleeping.

Men may be more likely than women to turn to alcohol or drugs when they are depressed. They also may become frustrated, discouraged, irritable, angry, and sometimes abusive. Some men throw themselves into their work to avoid talking about their depression with family or friends, or behave recklessly. And although more women attempt suicide, many more men die by suicide in the United States.

How do older adults experience depression?

Depression is not a normal part of aging. Studies show that most seniors feel satisfied with their lives, despite having more illnesses or physical problems. However, when older adults do have depression, it may be overlooked because seniors may show different, less obvious symptoms. They may be less likely to experience or admit to feelings of sadness or grief.

Sometimes it can be difficult to distinguish grief from major depression. Grief after loss of a loved one is a normal reaction to the loss and generally does not require professional mental health treatment. However, grief that is complicated and lasts for a very long time following a loss may require treatment. Researchers continue to study the relationship between complicated grief and major depression.

Older adults also may have more medical conditions such as heart disease, stroke, or cancer, which may cause depressive symptoms. Or they may be taking medications with side effects that contribute to depression. Some older adults may experience what doctors call vascular depression, also called arteriosclerotic depression or subcortical ischemic depression. Vascular depression may result when blood vessels become less flexible and harden over time, becoming constricted. Such hardening of vessels prevents normal blood flow to the body’s organs, including the brain. Those with vascular depression may have, or be at risk for, co-existing heart disease or stroke.

Although many people assume that the highest rates of suicide are among young people, older white males age 85 and older actually have the highest suicide rate in the United States. Many have a depressive illness that their doctors are not aware of, even though many of these suicide victims visit their doctors within 1 month of their deaths.

Most older adults with depression improve when they receive treatment with an antidepressant, psychotherapy, or a combination of both. Research has shown that medication alone and combination treatment are both effective in reducing depression in older adults. Psychotherapy alone also can be effective in helping older adults stay free of depression, especially among those with minor depression. Psychotherapy is particularly useful for those who are unable or unwilling to take antidepressant medication.

How do children and teens experience depression?

Children who develop depression often continue to have episodes as they enter adulthood. Children who have depression also are more likely to have other more severe illnesses in adulthood.

A child with depression may pretend to be sick, refuse to go to school, cling to a parent, or worry that a parent may die. Older children may sulk, get into trouble at school, be negative and irritable, and feel misunderstood. Because these signs may be viewed as normal mood swings typical of children as they move through developmental stages, it may be difficult to accurately diagnose a young person with depression.

Before puberty, boys and girls are equally likely to develop depression. By age 15, however, girls are twice as likely as boys to have had a major depressive episode.

Depression during the teen years comes at a time of great personal change—when boys and girls are forming an identity apart from their parents, grappling with gender issues and emerging sexuality, and making independent decisions for the first time in their lives. Depression in adolescence frequently co-occurs with other disorders such as anxiety, eating disorders, or substance abuse. It can also lead to increased risk for suicide.

An NIMH-funded clinical trial of 439 adolescents with major depression found that a combination of medication and psychotherapy was the most effective treatment option. Other NIMH-funded researchers are developing and testing ways to prevent suicide in children and adolescents.

Childhood depression often persists, recurs, and continues into adulthood, especially if left untreated.

How can I help a loved one who is depressed?

If you know someone who is depressed, it affects you too. The most important thing you can do is help your friend or relative get a diagnosis and treatment. You may need to make an appointment and go with him or her to see the doctor. Encourage your loved one to stay in treatment, or to seek different treatment if no improvement occurs after 6 to 8 weeks.

To help your friend or relative

  • Offer emotional support, understanding, patience, and encouragement.
  • Talk to him or her, and listen carefully.
  • Never dismiss feelings, but point out realities and offer hope.
  • Never ignore comments about suicide, and report them to your loved one’s therapist or doctor.
  • Invite your loved one out for walks, outings and other activities. Keep trying if he or she declines, but don’t push him or her to take on too much too soon.
  • Provide assistance in getting to the doctor’s appointments.
  • Remind your loved one that with time and treatment, the depression will lift.

How can I help myself if I am depressed?

If you have depression, you may feel exhausted, helpless, and hopeless. It may be extremely difficult to take any action to help yourself. But as you begin to recognize your depression and begin treatment, you will start to feel better.

To Help Yourself

  • Do not wait too long to get evaluated or treated. There is research showing the longer one waits, the greater the impairment can be down the road. Try to see a professional as soon as possible.
  • Try to be active and exercise. Go to a movie, a ballgame, or another event or activity that you once enjoyed.
  • Set realistic goals for yourself.
  • Break up large tasks into small ones, set some priorities and do what you can as you can.
  • Try to spend time with other people and confide in a trusted friend or relative. Try not to isolate yourself, and let others help you.
  • Expect your mood to improve gradually, not immediately. Do not expect to suddenly “snap out of” your depression. Often during treatment for depression, sleep and appetite will begin to improve before your depressed mood lifts.
  • Postpone important decisions, such as getting married or divorced or changing jobs, until you feel better. Discuss decisions with others who know you well and have a more objective view of your situation.
  • Remember that positive thinking will replace negative thoughts as your depression responds to treatment.
  • Continue to educate yourself about depression.

Information adapted from the National Institute of Mental Health (NIMH).

Article Links:

The National Institute of Mental Health Highlights Ketamine for Depression

IV Ketamine Shows Promise in Clinical Trial with Depressed Teens

Researchers from the University of Minnesota and The Mayo Clinic found that ketamine caused an average decrease of 42% on the Children’s Depression Rating Scale(CDRS)—the most widely used rating scale in research trials for assessing the severity of depression and change in depressive symptoms among adolescents. The study recruited adolescents, 12-18 years of age, with treatment-resistant depression (TRD; failure to respond to two previous antidepressant trials). The teens were administered intravenous ketamine (0.5 mg/kg) by infusion six times over two weeks.

The study reported that the average decrease in CDRS-R was 42.5% (p = 0.0004). Five (38%) adolescents met criteria for clinical response (defined as >50% reduction in CDRS-R). Three responders showed sustained remission at 6-week follow-up; relapse occurred within 2 weeks for the other two responders. The ketamine infusions were generally well tolerated; dissociative symptoms and hemodynamic symptoms were transient. Interestingly, higher dose was a significant predictor of treatment response.

“Adolescence is a key time period for emergence of depression and represents an opportune and critical developmental window for intervention to prevent negative outcomes,” the authors wrote in the study.

“Unfortunately, about 40% of adolescents do not respond to their first intervention and only half of non-responders respond to the second treatment,” they said. “Because standard interventions require prolonged periods (e.g., weeks to months) to assess efficacy, serial treatment failures allow illness progression, which in turn worsens the outcome. Hence, novel treatment strategies to address treatment-resistant depression in adolescents are urgently needed.”

The authors concluded that their results demonstrate the potential role for ketamine in treating adolescents with TRD. Additionally, evidence suggested a dose–response relationship; future studies are needed to optimize dose

 

Yale study found no safety issues with long-term ketamine treatment

 August 08, 2018
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Researchers at Yale published a new study titled “Acute and Longer-Term Outcomes Using Ketamine as a Clinical Treatment at the Yale Psychiatric Hospital” in Clinical Psychiatry.  In late 2014, Yale began providing ketamine as an off-label therapy on a case-by-case basis for patients who could not participate in research protocols.  The authors observed 54 patients that received IV ketamine infusion for the treatment of severe and treatment-resistant mood disorders such as depression.

“Ketamine is being used as an off-label treatment for depression by an increasing number of providers, yet there is very little long-term data on patients who have received ketamine for more than just a few weeks,” Samuel T. Wilkinson, MD,from the department of psychiatry, Yale School of Medicine and Yale Psychiatric Hospital, told Healio Psychiatry.

The Yale researchers studied the acute and longer-term outcomes in this patient population. Importantly, a subset of patients (n=14) received ketamine on a long-term basis, ranging from 12 to 45 total treatments, over a course of 14 to 126 weeks.  The researchers found no evidence of cognitive decline, increased proclivity to delusions, or emergence of symptoms consistent with cystitis in this subset of long-term ketamine patients.  They also reported that the infusions were generally well-tolerated.

Although this study population was relatively small, limiting the conclusions that can be drawn, this is still an important first step in establishing the long-term safety of ketamine for the treatment of a myriad of diseases that it’s being used to treat

CNN Reports ‘Ketamine offers lifeline for suicidal thoughts’

CNN featured a segment on the use of ketamine for treating suicidal ideation–a novel, off-label use for ketamine that is currently being explored in human clinical trials.  The segment featured Dr. Sanjay Gupta sharing the story of Alan Ferguson.  Mr. Ferguson discussed his experience with suicidal ideation, stating that he had planned his own suicide prior to a psychiatrist suggesting the off-label use of ketamine.  Fortunately, ketamine worked for him as it has for many others, completely eliminating all thoughts of suicide and depression.

While ketamine is a long-known, FDA-approved anesthetic, new uses for this old drug have recently been discovered.  The new indication that is probably the farthest along is for the treatment of depression.  It’s even undergoing phase III clinical trials for the treatment of depression, which are expected to be completed next year.  In depression, ketamine’s mechanism of action is still being explored. Scientists know that ketamine antagonizes the NMDA receptor, which causes a number of downstream cascades that may be relevant to it’s antidepressant effects. Ketamine also increases important neuronal growth factors that can create new synaptic connections.

While there are numerous anti-depressants that are already FDA-approved, they don’t always work and–even when they do–it takes weeks to see the effect.  This is what’s special about ketamine.  The anti-depressant effects of ketamine are instantaneous.  In the case of Alan Ferguson, his depression went from severe to mild after the first infusion, and was gone after the second. In cases of depression that involve suicidality, this rapid improvement can be the difference between life and death.  Even though ketamine is not yet approved for the treatment of depression or suicidal ideation, there is an abundance of data showing that it works and it’s already being used off-label in the clinic.

First study shows ketamine is safe and effective for depression in elderly patients

 

Australian researchers completed the world’s first randomized control trial (RCT), assessing the efficacy and safety of ketamine as a treatment for depression in elderly patients.

In this double-blind, controlled, multiple-crossover study with a 6-month follow-up, 16 participants (≥60 years) with treatment-resistant depression who relapsed after remission or did not remit in the RCT were administered an open-label phase. Up to five subcutaneous doses of ketamine (0.1, 0.2, 0.3, 0.4, and 0.5 mg/kg) were administered in separate sessions (≥1 week apart), with one active control (midazolam) randomly inserted. Twelve ketamine treatments were given in the open-label phase. Mood, hemodynamic, and psychotomimetic outcomes were assessed by blinded raters. Remitters in each phase were followed for 6 months.

The results, published in the latest American Journal of Geriatric Psychiatry, provide preliminary evidence that ketamine is effective as an antidepressant – when delivered in repeated intravenous doses.

Pilot Randomized Controlled Trial of Titrated Subcutaneous Ketamine in Older Patients with Treatment-Resistant Depression

“What we noticed was that ketamine worked incredibly quickly and incredibly effectively,” Professor Colleen Loo, who led the pilot program told ABC News. “By incredibly effective, we mean going rapidly from severely depressed to being completely well in one day.”

“Some people think, ‘oh maybe it was just a drug induced temporary high’ — and it wasn’t,” she said. “You had the woozy effects in the first hour or so, but the antidepressant effects kicked in later.”

None of the participants experienced problematic side effects, according to the research team who administered the drug through a small injection under the skin.

“Our results indicate a dose-titration method may be particularly useful for older patients, as the best dose was selected for each individual person to maximize ketamine’s benefits while minimizing its adverse side effects,” she said.

The authors noted that further study is needed, however, to understand the risks of ketamine use and possible side effects, such as its impact on liver function in the elderly.

IV Ketamine “most important breakthrough in antidepressant treatment in decades”

PTSD Treatment – Ketamine is a novel treatment for several psychiatric disorders including: Major Depressive Disorder, Bipolar Depression, Postpartum Depression, Obsessive-Compulsive Disorder (OCD), and Posttraumatic Stress Disorder or PTSD.  It was originally FDA approved for anesthesia but is now frequently used off-label due to its positive effects on the various disorders listed above.  PTSD is an devastating disorder that has become more and more common but medical treatments overall are still lacking.

What is PTSD?

PTSD Treatment

PTSD is a disorder that develops after a traumatic experience.  Such trauma sometimes involves combat, car accidents, natural disasters or sexual assaults.  Up to 80% of individuals in their life will experience at least one traumatic event but, fortunately, most people do not go on to develop PTSD.  The lifetime prevalence of developing PTSD is about 10% and women are twice as likely as men to develop PTSD.  Those who do go on to develop PTSD typically will have one or more of the following symptoms:

• traumatic nightmares
• flashbacks taking them back to the event
• distress after exposure to traumatic reminders or stimuli
• hypervigilance/hyperarousal
• avoidance of certain thoughts and situations
• negative thoughts and mood including shame, despair and depression.

A constellation of these symptoms must persist for at least a month for a diagnosis of PTSD to be made.
Most PTSD Treatment are ineffective for some patients and their all generally slow acting—meaning that the patient must wait weeks to have a meaningful impact on the patient’s wellness. Ketamine has now been shown to be effective at managing PTSD in several clinical studies. Moreover, physicians are beginning to present case reports where ketamine has helped their patients. One of the largest benefits of using Ketamine off label for the treatment of depression is that it is generally very fast-acting. Patients typically report feeling better after the first infusion or two. Sometimes, they report feeling 100% better after 5 days of IV ketamine therapy.

 

 

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Trippy depression treatment? Hopes and hype for ketamine

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Lauren Pestikas sits as she receives an infusion of the drug ketamine during a 45-minute session at an outpatient clinic in Chicago on July 25, 2018. Pestikas struggled with depression and anxiety and made several suicide attempts before starting ketamine treatments earlier in the year. (AP Photo/Teresa Crawford)

CHICAGO (AP) — It was launched decades ago as an anesthetic for animals and people, became a potent battlefield pain reliever in Vietnam and morphed into the trippy club drug Special K.

Now the chameleon drug ketamine is finding new life as an unapproved treatment for depression and suicidal behavior. Clinics have opened around the United States promising instant relief with their “unique” doses of ketamine in IVs, sprays or pills. And desperate patients are shelling out thousands of dollars for treatment often not covered by health insurance, with scant evidence on long-term benefits and risks.

Chicago preschool teacher Lauren Pestikas long struggled with depression and anxiety and made several suicide attempts before trying ketamine earlier this year.

The price tag so far is about $3,000, but “it’s worth every dime and penny,” said the 36-year-old.

Pestikas said she feels much better for a few weeks after each treatment, but the effects wear off and she scrambles to find a way to pay for another one.

For now, ketamine has not received approval from the U.S. Food and Drug Administration for treating depression, though doctors can use it for that purpose.

Some studies show ketamine can provide relief within hours for tough-to-treat depression and suicidal behavior and clinics promising unproven benefits have popped up nationwide. But more research is needed to know long-term benefits and risks. (Oct. 31)

Ketamine has been around since the 1960s and is widely used as an anesthesia drug during surgery because it doesn’t suppress breathing. Compared to opioids such as morphine, ketamine isn’t as addictive and doesn’t cause breathing problems. And some studies have shown that ketamine can ease symptoms within hours for the toughest cases.

Its potential effects on depression were discovered in animal experiments in the late 1980s and early 1990s showing that glutamate, a brain chemical messenger, might play a role in depression, and that drugs including ketamine that target the glutamate pathway might work as antidepressants.

Conventional antidepressants like Prozac target serotonin, a different chemical messenger, and typically take weeks to months to kick in — a lag that can cause severely depressed patients to sink deeper into despair.

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A vial of ketamine, which is normally stored in a locked cabinet, on display in Chicago on July 25, 2018. AP Photo/Teresa Crawford)

Ketamine’s potential for almost immediate if temporary relief is what makes it so exciting, said Dr. Jennifer Vande Voort, a Mayo Clinic psychiatrist who has used ketamine to treat depression patients since February.

“We don’t have a lot of things that provide that kind of effect. What I worry about is that it gets so hyped up,” she said.

The strongest studies suggest it’s most useful and generally safe in providing short-term help for patients who have not benefited from antidepressants. That amounts to about one-third of the roughly 300 million people with depression worldwide.

“It truly has revolutionized the field,” changing scientists’ views on how depression affects the brain and showing that rapid relief is possible, said Yale University psychiatrist Dr. Gerard Sanacora, who has done research for or consulted with companies seeking to develop ketamine-based drugs.

But to become standard depression treatment, he said, much more needs to be known.

Last year, Sanacora co-authored an American Psychiatric Association task force review of ketamine treatment for mood disorders that noted the benefits but said “major gaps” remain in knowledge about long-term effectiveness and safety. Most studies have been small, done in research settings and not in the real world.

When delivered through an IV, ketamine can cause a rapid increase in heart rate and blood pressure that could be dangerous for some patients. Ketamine also can cause hallucinations that some patients find scary.

“There are some very real concerns,” Sanacora said. “We do know this drug can be abused, so we have to be very careful about how this is developed.”

Dr. Rahul Khare, an emergency medicine specialist in Chicago, first learned about ketamine’s other potential benefits a decade ago from a depressed and anxious patient he was preparing to sedate to fix a repeat dislocated shoulder.

“He said, ‘Doc, give me what I got last time. For about three weeks after I got it I felt so much better,’” Khare recalled.

Khare became intrigued and earlier this year began offering ketamine for severe depression at an outpatient clinic he opened a few years ago. He also joined the American Society for Ketamine Physicians, formed a year ago representing about 140 U.S. doctors, nurses, psychologists and others using ketamine for depression or other nonapproved uses.

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Dr. Rahul Khare poses for a portrait at his outpatient Chicago clinic on July 25, 2018. (AP Photo/Teresa Crawford)

There are about 150 U.S. ketamine clinics, compared with about 20 three years ago, said society co-founder Dr. Megan Oxley.

Khare said the burgeoning field “is like a new frontier” where doctors gather at meetings and compare notes. He has treated about 50 patients with depression including Pestikas. They’re typically desperate for relief after failing to respond to other antidepressants. Some have lost jobs and relationships because of severe depression, and most find that ketamine allows them to function, Khare said.

Typical treatment at his clinic involves six 45-minute sessions over about two weeks, costing $550 each. Some insurers will pay about half of that, covering Khare’s office visit cost. Patients can receive “booster” treatments. They must sign a four-page consent form that says benefits may not be long-lasting, lists potential side effects, and in bold letters states that the treatment is not government-approved.

At a recent session, Pestikas’s seventh, she leaned back on a reclining white examining-room chair as a nurse hooked her up to a heart and blood pressure monitor. She grimaced as a needle was slipped into the top of her left palm. Khare reached up with a syringe to inject a small dose of ketamine into an IV bag hanging above the chair, then dimmed the lights, pulled the window curtains and asked if she had questions and was feeling OK.

“No questions, just grateful,” Pestikas replied, smiling.

Pestikas listened to music on her iPhone and watched psychedelic videos. She said it was like “a controlled acid trip” with pleasant hallucinations. The trip ends soon after the IV is removed, but Pestikas said she feels calm and relaxed the rest of the day, and that the mood boost can last weeks.

Studies suggest that a single IV dose of ketamine far smaller than used for sedation or partying can help many patients gain relief within about four hours and lasting nearly a week or so.

Exactly how ketamine works is unclear, but one idea is that by elevating glutamate levels, ketamine helps nerve cells re-establish connections that were disabled by depression, said ketamine expert Dr. Carlos Zarate, chief of experimental therapies at the National Institute of Mental Health.

A small Stanford University study published in August suggested that ketamine may help relieve depression by activating the brain’s opioid receptors.

Janssen Pharmaceuticals and Allergan are among drug companies developing ketamine-like drugs for depression. Janssen leads the effort with its nasal spray esketamine. The company filed a new drug application in September.

Meanwhile, dozens of studies are underway seeking to answer some of the unknowns about ketamine including whether repeat IV treatments work better for depression and if there’s a way to zero in on which patients are most likely to benefit.

Until there are answers, Zarate of the mental health institute said ketamine should be a last-resort treatment for depression after other methods have failed.

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https://youtu.be/ENEeoLw-030

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Ketamine’s role in treatment of depression: Study

The anaesthetic drug Ketamine has been shown to be beneficial in some cases of depression and suicidal ideation which have typically failed to respond to other standard antidepressant medications. A new study has explored the actual workings of ketamine in depression and found that the drug can act on the same receptors as opioid pain relievers.

The latest study was published in the American Journal of Psychiatry.

For this the researchers from the Stanford’s Neurosciences Institute included 12 volunteers at first. These cases were all of treatment-resistant depression.

The participants were all given infusion of Ketamine. In addition some were administered naltrexone and others normal saline infusion. Naltrexone is a drug that can block the effects of opioids.

Results showed that those on ketamine and saline combination found relief from their depressive symptoms quickly compared to those on ketamine and naltrexone combination. In fact those on ketamine and saline placebo reported at least a 90 percent reduction in their symptoms within the first three days of the infusion.

No such improvement was seen among those on ketamine and naltrexone. This proved that when the opioid actions are blocked, the ketamine cannot function as an antidepressant. Both groups faced certain side effects of ketamine such as an “out-of-the-body” experience, dysphoric feelings, tripping etc. This also showed that the antidepressant action of Ketamine was separate from its usual actions, which were seen in all participants in either group.

The initial trial plan was to include 30 patients. Due to the dramatic improvement seen in one group and no changes in the other, the team decided to stop the trial prematurely. This was to spare patients useless treatment.

Ketamine has been in news recently due to its unexplored potential as an antidepressant. If proven, researchers believe, this could impact depression research significantly. Ketamine has gathered interest mainly because it does not change the brain chemistry unlike other antidepressants. Co-author Boris Heifets, a clinical assistant professor of anesthesiology, perioperative and pain medicine at Stanford explained that ketamine blocks the brain’s receptors for glutamate. Glutamate is an important neurotransmitter in the brain. Many researchers have thought that glutamate could be the key zone where ketamine acts as an antidepressant. Heifets added that ketamine is not a simple drug and has varied targets which could be responsible for its antidepressant activities. A lot of money has been spent on developing agents that could work on the glutamate receptors and try to mimic ketamine’s antidepressant actions.

This study shows that the approach is incorrect and glutamates are not the target lead author Nolan Williams explained. Co-senior study author Dr. Alan Schatzberg, a professor of psychiatry and behavioral sciences at Stanford explained that the ketamine was not working as “everyone thought it was working.”

Heifets noted that ketamine is a drug of abuse (called “Special K” in party circuits) that has been in use for a long time and there is an abuse potential of this drug acting on the opioid receptors to provide such effects. He warned that this abuse potential should be kept in mind before ketamine comes into the market as an antidepressant.

However the whole team agrees that this new study shows how ketamine can help patients who have intractable depression. New drugs could be developed in the same lines they explain. These drugs could possibly activate the opioid receptors without having abuse potential they add. Williams added that ketamine has been seen to provide relief of symptoms in other mental ailments such as obsessive compulsive disorders and now is the time to explore if opioids play a role in these diseases as well.

Mark George, a professor of psychiatry, radiology and neuroscience at the Medical University of South Carolina in an editorial accompanying the article wrote that this study is a small one and so should be confirmed in larger trials before conclusions could be drawn.

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The VA Recognizes Ketamine As An Emergency Treatment For PTSD And Depression Patients At High Suicide Risk

CLEARWATER, Fla., Sept. 27, 2018 /PRNewswire/ — Long used as an safe and effective sedative for surgery, Ketamine has found new life as a treatment for severe depression, PTSD and suicidal ideation. Praised by some mental health experts, the drug so far has achieved very good results in clinical trials. The military now recognizes its’ potential, and last fall Brooke Army Medical Center in San Antonio became part of study on its effects. BAMC will treat active-duty troops with Ketamine, while a VA hospital near Yale will treat veterans. Another study is currently underway at a Veterans Affairs medical center in Cleveland, Ohio. The VA is trying to stem the tide of rising suicide rates among veterans, which average 22 per day – that’s one suicide every 65 minutes.

A staff psychiatrist at the Louis Stokes Cleveland VA Medical Center in Ohio, Dr. Punit Vaidya stated “30% of individuals with major depression don’t respond to traditional medications, so people can become desperate for things that work, because they can have a huge impact on their quality of life, and their overall functioning. The effects of the ketamine infusion can often be seen within a day, if not hours,” Vaidya explained. “If you look at their depression ratings and suicidal ratings given right before treatment and even four hours later you can see a significant reduction and I think that’s really quite remarkable,” Vaidya said.

Dr. Ashraf Hanna, a board certified physician and director of pain management at the Florida Spine Institute in Clearwater, Florida discusses PTSD and Treatment-Resistant Depression: “There are many forms of depression that can be treated by a psychiatrist with various modalities, anti-depressants and psychotherapy. IV Ketamine therapy is only reserved for those patients that have Treatment-Resistant Depression that have failed conventional therapy. IV Ketamine infusion therapyhas offered a new hope to patients that had no hope.”

When asked what prompted his use of IV Ketamine for PTSD and Depression and if any universities were involved in its development, Dr. Hanna went on to say: “There have been multiple universities involved in the research such as Harvard, Yale and Stanford that have proven the success rate of IV Ketamine for treatment-resistant depression. Since I was already successfully using IV Ketamine for CRPS/RSD,FibromyalgiaNeuropathy, and Post-Treatment Lyme Disease Syndrome, with over 10,000 infusions to date, I wanted to expand the treatment for PTSD, Depression, bipolar and Obsessive Compulsive Disorders. Since I am not a psychiatrist, I do not treat depression, but I work with qualified psychiatrists, and if he or she feels the patient has failed other treatment modalities, I then administer IV Ketamine for treatment-resistant depression.”

Dr. Bal Nandra and Ketamine patient Jason LaHood on how Ketamine is redefining the way patients are treated for depression

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Links for Ketamine Articles

  1. NYMag.com – What It’s Like to Have Your Severe Depression Treated With a Hallucinogenic Drug
    http://nymag.com/scienceofus/2016/03/what-its-like-to-treat-severe-depression-with-a-hallucinogenic-drug.html
  2. Huffington Post – How Ketamine May Help Treat Severe Depression
    http://www.huffingtonpost.com.au/2017/04/05/how-ketamine-may-help-treat-severe-depression_a_22027886/
  3. Murrough, Iosifescu, Chang et al. Antidepressant Efficacy in Treatment-Resistant Major Depression: A Two-Site Randomized Controlled Trial  Am J Psychiatry. 2013 Oct 1, 170(10): 1134-1142
    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3992936/
  4. Murrough, Perez, Pillemer, et al.. Rapid and Longer0Term Antidepressant Effects of Repeated Ketamine Infusions in Treatment-Resistant Major Depression Biol Psychiatry 2013 Aug 15; 74(4): 250-256
    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3725185/
  5. Murrough, Burdick, Levitch et al. Neurocognitive Effects of Ketamine and Association with Antidepressant Response in Individuals with Treatment-Resistant Depression: A Randomized Controlled Trial Neuropsychopharmacology 2015 Apr; 40(5): 1084-1090
    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4367458/
  6. Feder, Parides, et al. Efficacy of Intravenous Ketamine for Treatment of Chronic Posttraumatic Stress Disorder A Randomized Clinical Trial Jama Psychiatry 2014 June;71(6): 681-8
    http://jamanetwork.com/journals/jamapsychiatry/fullarticle/1860851
  7. Schwartz, Murrough, Iosifescu Ketamine for treatment-resistant depression: recent developments and clinical applications Evid Based Ment Health 2016 May; 19(2):35-8
    http://ebmh.bmj.com/content/ebmental/19/2/35.full.pdf
  8. Rodriguez, Kegeles, et al Randomized Controlled Crossover Trial of Ketamine in Obsessive-Compulsive Disorder: Proof-of-Concept Neuropsychopharmacology 2013 Nov; 38(12): 2475-2483
    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3799067/pdf/npp2013150a.pdf
  9. Singh, Fedgchin, Daly et al. A Double-Blind, Randomized, Pacebo-Controlled, Dose-Frequency Study of Intravenous Ketamine in Patients With Treatment-Resistant Depression American Journal of Psychiatry 2016 August; 173(8): 816-826
    http://ajp.psychiatryonline.org/doi/pdf/10.1176/appi.ajp.2016.16010037
  10. Taylor,  Landeros-Weisenberger, Coughlin et al. Ketamine for Social Anxiety Disorder: A Randomized, Placebo-Controlled Crossover Trial  Neuropsychopharmacology 2017 August;
    https://www.ncbi.nlm.nih.gov/pubmed/28849779

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WHAT CAN I EXPECT AT AN INFUSION VISIT?

We will ask you to fast for 8 hours before your infusion. Once you have checked in, you will complete a questionnaire to assess your current status. The IV will be started in your hand or your arm using a small catheter. This may feel like a sting from a small bug bite. The Ketamine will be administered through your IV over a period of 40 minutes. We will take your vital signs before, during, and after the infusion. After resting for an additional 15-20 minutes after the infusion, you will be discharged home with your driver.

  1. What is Ketamine? 
    Ketamine is an anesthetic drug that has been available since the 1960’s. In high doses, it can cause a ‘dissociative anesthesia” which induces hypnosis like states as well as unconsciousness. Around 2000, scientists started looking at Ketamine IV infusions carefully when its clinical usefulness was expanded to include a role in the management of mood disorders as well as chronic pain.
  2. Why can I not drive the day of the infusion?
    Ketamine is a potent anesthetic. As with any anesthetic, we advise our patients to NOT operate any heavy machinery for the remainder of the day due to potential residual effects.
  3. What are the side effects?
    Less than 2% of people will experience side effects. Some of the common side effects are: drowsiness, nausea, dizziness, poor coordination, blurred vision, and feeling strange or unreal. Most of these symptoms dissipate after the first hour of receiving the infusion.
  4. Are there certain conditions that are contra-indications for Ketamine treatment?
    Yes. If you have a history of cardiovascular disease, uncontrolled hypertension, history of psychosis, history of failed Ketamine infusion treatment, history of substance abuse or dependence within the year (patients will undergo a screening process) you will not qualify for Ketamine infusion treatments.
  5. How will I know if I need a booster infusion and how frequently will I require them?
    The duration of antidepressant efficacy after the initial treatment is different for everyone. The studies show that the variance can be 15 days to indefinitely. This is quite a range and unfortunately, there are no predictors for the duration.
  6. Is there a guarantee that this will work for me?
    Unfortunately, we cannot give guarantees.  Studies have shown that 70% of people will obtain efficacy.  After the first 2 infusions, we will be able to ascertain whether the infusions will work for you. We will not advise you to continue your treatment after the first 2 infusions if we do not see a certain amount of improvement.
  7. Isn’t Ketamine addictive? 
    Ketamine has the potential to be addictive. Studies have shown that at these doses and frequency, Ketamine is not addictive.
  8. Do I have to continue my current treatments for depression? 
    Yes. We advise that you alert your current health care provider that you are undergoing these treatments and that you maintain your current regimen.  It can be dangerous to stop taking your medications without the care of a physician. Our patients have a brighter outlook and a positive drive after their treatment that has allowed them to have higher success rates with psychotherapy. We will be happy to work with your current health care provider to provide the optimal outcome.

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VA Using Ketamine for PTSD and Depression

Ketamine for Depresion | Obsessive-compulsive disorder| Fairfax, Va | 703-844-0184 | Ketamine doctors | IV ketamine | Ketamine treatment center | 22306 | Psychedelics for depression | Woodbridge, Va | Front Royal Va

NOVA Health Recovery  <<< Ketamine Treatment Center Fairfax, Virginia

CAll 703-844-0184 for an immediate appointment to evaluate you for a Ketamine infusion:

Ketaminealexandria.com    703-844-0184 Call for an infusion to treat your depression. PTSD, Anxiety, CRPS, or other pain disorder today.

email@novahealthrecovery.com  << Email for questions to the doctor

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Ketamine

The drug Ketamine is considered a breakthrough treatment for depression and some other neuropsychiatric conditions. Below are excerpts from recent articles discussing this revolutionary treatment and the links to the full articles.

Ketamine For Depression: the Highs and Lows.

The Lancet Psychiatry. VOLUME 2, ISSUE 9, P783–784, SEPTEMBER 2015

Long used as an anaesthetic and analgesic, most people familiar with ketamine know of it for this purpose. Others know it as a party drug that can give users an out-of-body experience, leaving them completely disconnected from reality. Less well known is its growing off-label use in the USA for depression, in many cases when other options have been exhausted.

David Feifel, a professor of psychiatry at the University of California, San Diego, was one of the first clinicians to use ketamine off-label to treat depression at UCDS’s Center for Advanced Treatment of Mood and Anxiety Disorders, which he recently founded. “Currently approved medications for depression all have about the same, very limited efficacy. A large percentage of patients with depression do not get an adequate level of relief from these antidepressants even when they have tried several different ones and even when other drugs known to augment their effects are added to them”, Feifel tells The Lancet Psychiatry. “The stagnation in current antidepressant medication on the one hand, and the tremendous number of treatment-resistant patients, has propelled me to explore truly novel treatments like ketamine.”

Compelling published study results and case reports exist of patients’ depression—in some cases deeply entrenched depression that has lasted months or even years—alleviating within hours of use of ketamine. However, critics have warned that the drug has not been studied sufficiently (at least outside clinical trials), and also emphasized the cost. Patients can pay more than $1000 per session for treatment that must usually be repeated several times. That cost is rarely covered by the patient’s medical insurance.

Advocates of ketamine use in depression are excited because it has a different mechanism of action to standard antidepressants, which affect signalling by monoamine neurotransmitters such as serotonin, noradrenaline, or dopamine. Ketamine is thought to act by blocking N-methyl-d-aspartate (NMDA) receptors in the brain, which interact with the amino acid neurotransmitter glutamate.

Feifel states that he has patients who have been receiving ketamine treatments every 2–4 weeks for long periods, some for around 3 years, and has not yet seen any safety issues arise.

Pharmaceutical companies are entering this exciting arena by attempting to develop new drugs based on ketamine without similar side-effects. Feifel dismisses the notion that the dissociative so-called trip induced by ketamine is actually an important negative side-effect. “Although I have had a couple patients have unpleasant ‘trips’, it’s exceedingly rare, usually dose related, and very transitory due to ketamine’s rapid metabolism.” Feifel says that, more often than not, patients find the trip to be positive, or even spiritual, and believe it is an important component of the antidepressant effect they experience afterwards. “There is no doubt the dissociative effect represents a logistical issue, requiring monitoring—and this should be addressed in any approval given for ketamine”, he adds.

Feifel says that it is not for him, but for his patients to decide where the balance of risks and benefits lies in trying ketamine to treat their depression”One could make a compelling argument that it’s unethical to withhold ketamine treatments from someone who has chronic, severe treatment resistant depression. But I know this from the patients who tell me they would not be in this world right now if it were not for the ketamine.”

Feifel concludes that it is straightforward to talk to TRD patients about ketamine. “I tell them all the relevant information. The efficacy rates, time to onset of benefits, duration limitations, alternatives, lack of insurance coverage, and other information. My job is to make sure they understand the parameters of the treatment, not to decide whether they should do it.”

Full article: The Lancet

Ketamine for depression the highs and lows b

Onetime Party Drug Hailed as Miracle for Treating Severe Depression

Washington Post, Feb 2, 2016

Ketamine, popularly known as the psychedelic club drug Special K, has been around since the early 1960s. It is a staple anesthetic in emergency rooms, regularly used for children when they come in with broken bones and dislocated shoulders. It’s an important tool in burn centers and veterinary medicine, as well as a notorious date-rape drug, known for its power to quickly numb and render someone immobile. Since 2006, dozens of studies have reported that it can also reverse the kind of severe depression that traditional antidepressants often don’t touch.

Experts are calling it the most significant advance in mental health in more than half a century. They point to studies showing ketamine not only produces a rapid and robust antidepressant effect; it also puts a quick end to suicidal thinking.  “This is the next big thing in psychiatry,” says L. Alison McInnes, a San Francisco psychiatrist who over the past year has enrolled 58 severely depressed patients in Kaiser’s San Francisco clinic. The excitement stems from the fact that it’s working for patients who have spent years cycling through antidepressants, mood stabilizers and various therapies. “Psychiatry has run out of gas” in trying to help depressed patients for whom nothing has worked, she says. “There is a significant number of people who don’t respond to antidepressants, and we’ve had nothing to offer them other than cognitive behavior therapy, electroshock therapy and transcranial stimulation.”

Ketamine does, however, have one major limitation: Its relief is temporary. Clinical trials at NIMH have found that relapse usually occurs about a week after a single infusion.

A study published in the journal Science in 2010 suggested that ketamine restores brain function through a process called synaptogenesis. Scientists at Yale University found that ketamine not only improved depression-like behavior in rats but also promoted the growth of new synaptic connections between neurons in the brain.

Patients often describe a kind of lucid dreaming or dissociative state in which they lose track of time and feel separated from their bodies. Many enjoy it; some don’t. But studies at NIMH and elsewhere suggest that the psychedelic experience may play a small but significant role in the drug’s efficacy.

As a drug once known almost exclusively to anesthesiologists, ketamine now falls into a gray zone. As the use of ketamine looks likely to grow, many psychiatrists say that use of ketamine for depression should be left to them. “The bottom line is you’re treating depression,” says psychiatrist David Feifel, director of the Center for Advanced Treatment of Mood and Anxiety Disorders at the University of California at San Diego. “And this isn’t garden-variety depression. The people coming in for ketamine are people who have the toughest, potentially most dangerous depressions. I think it’s a disaster if anesthesiologists feel competent to monitor these patients.”

Full article: The Washington Post

Onetime party drug hailed as miracle for treating severe depression


A Ketamine intravenous drip being prepared. (Amarett Jans/Courtesy of Enrique Abreu)

February 1, 2016

It was November 2012 when Dennis Hartman, a Seattle business executive, managed to pull himself out of bed, force himself to shower for the first time in days and board a plane that would carry him across the country to a clinical trial at the National Institute of Mental Health (NIMH) in Bethesda.

After a lifetime of profound depression, 25 years of therapy and cycling through 18 antidepressants and mood stabilizers, Hartman, then 46, had settled on a date and a plan to end it all. The clinical trial would be his last attempt at salvation.

For 40 minutes, he sat in a hospital room as an IV drip delivered ketamine through his system. Several more hours passed before it occurred to him that all his thoughts of suicide had evaporated.

“My life will always be divided into the time before that first infusion and the time after,” Hartman says today. “That sense of suffering and pain draining away. I was bewildered by the absence of pain.”

Ketamine could be speedy depression treatment

Ketamine is being used by researchers at The National Institutes of Health as a treatment for major depression. 

Ketamine, popularly known as the psychedelic club drug Special K, has been around since the early 1960s. It is a staple anesthetic in emergency rooms, regularly used for children when they come in with broken bones and dislocated shoulders. It’s an important tool in burn centers and veterinary medicine, as well as a notorious date-rape drug, known for its power to quickly numb and render someone immobile.

Since 2006, dozens of studies have reported that it can also reverse the kind of severe depression that traditional antidepressants often don’t touch. The momentum behind the drug has now reached the American Psychiatric Association, which, according to members of a ketamine task force, seems headed toward a tacit endorsement of the drug for treatment-resistant depression.

Experts are calling it the most significant advance in mental health in more than half a century. They point to studies showing ketamine not only produces a rapid and robust antidepressant effect; it also puts a quick end to suicidal thinking.

Traditional antidepressants and mood stabilizers, by comparison, can take weeks or months to work. In 2010, a major study published in JAMA, the journal of the American Medical Association, reported that drugs in a leading class of antidepressants were no better than placebos for most depression.

A growing number of academic medical centers, including Yale University, the University of California at San Diego, the Mayo Clinic and the Cleveland Clinic, have begun offering ketamine treatments off-label for severe depression, as has Kaiser Permanente in Northern California.

The ‘next big thing’

“This is the next big thing in psychiatry,” says L. Alison McInnes, a San Francisco psychiatrist who over the past year has enrolled 58 severely depressed patients in Kaiser’s San Francisco clinic. She says her long-term success rate of 60 percent for people with treatment-resistant depression who try the drug has persuaded Kaiser to expand treatment to two other clinics in the Bay Area. The excitement stems from the fact that it’s working for patients who have spent years cycling through antidepressants, mood stabilizers and various therapies.

“Psychiatry has run out of gas” in trying to help depressed patients for whom nothing has worked, she says. “There is a significant number of people who don’t respond to antidepressants, and we’ve had nothing to offer them other than cognitive behavior therapy, electroshock therapy and transcranial stimulation.”

McInnes is a member of the APA’s ketamine task force, assigned to codify the protocol for how and when the drug will be given. She says she expects the APA to support the use of ketamine treatment early this year.

The guidelines, which follow the protocol used in the NIMH clinical trial involving Hartman, call for six IV drips over a two-week period. The dosage is very low, about a tenth of the amount used in anesthesia. And when it works, it does so within minutes or hours.

“It’s not subtle,” says Enrique Abreu, a Portland, Ore., anesthesiologist who began treating depressed patients with it in 2012. “It’s really obvious if it’s going to be effective.

“And the response rate is unbelievable. This drug is 75 percent effective, which means that three-quarters of my patients do well. Nothing in medicine has those kind of numbers.”

So far, there is no evidence of addiction at the low dose in which infusions are delivered. Ketamine does, however, have one major limitation: Its relief is temporary. Clinical trials at NIMH have found that relapse usually occurs about a week after a single infusion.

Ketamine works differently from traditional antidepressants, which target the brain’s serotonin and noradrenalin systems. It blocks N-methyl-D-aspartate (NMDA), a receptor in the brain that is activated by glutamate, a neurotransmitter.

In excessive quantities, glutamate becomes an excitotoxin, meaning that it overstimulates brain cells.

“Ketamine almost certainly modifies the function of synapses and circuits, turning certain circuits on and off,” explains Carlos Zarate Jr., NIMH’s chief of neurobiology and treatment of mood disorders, who has led the research on ketamine. “The result is a rapid antidepressant effect.”

Rapid effect

study published in the journal Science in 2010 suggested that ketamine restores brain function through a process called synaptogenesis. Scientists at Yale University found that ketamine not only improved depression-like behavior in rats but also promoted the growth of new synaptic connections between neurons in the brain.

mTOR-dependent synapse formation underlies the rapid antidepressant effects of NMDA antagonists.

Psychedelic-Assisted Psychotherapy A Paradigm Shift in Psychiatric Research and Development

Psychedelics Promote Structural and Functional Neural Plasticity.

Even a low-dose infusion can cause intense hallucinations. Patients often describe a kind of lucid dreaming or dissociative state in which they lose track of time and feel separated from their bodies. Many enjoy it; some don’t. But studies at NIMH and elsewhere suggest that the psychedelic experience may play a small but significant role in the drug’s efficacy.

“It’s one of the things that’s really striking,” says Steven Levine, a Princeton, N.J., psychiatrist who estimates that he has treated 500 patients with ketamine since 2011. “With depression, people often feel very isolated and disconnected. Ketamine seems to leave something indelible behind. People use remarkably similar language to describe their experience: ‘a sense of connection to other people,’ ‘a greater sense of connection to the universe.’ ”

Although bladder problems and cognitive deficits have been reported among long-term ketamine abusers, none of these effects have been observed in low-dose clinical trials. In addition to depression, the drug is being studied for its effectiveness in treating obsessive-compulsive disorder, post-traumatic stress disorder, extreme anxiety and Rett syndrome, a rare developmental disorder on the autism spectrum.

Booster treatments

The drug’s fleeting remission effect has led many patients to seek booster infusions. Hartman, for one, began his search before he even left his hospital room in Bethesda.

Four years ago, he couldn’t find a doctor in the Pacific Northwest willing to administer ketamine. “At the time, psychiatrists hovered between willful ignorance and outright opposition to it,” says Hartman, whose depression began creeping back a few weeks after his return to Seattle.

It took nine months before he found an anesthesiologist in New York who was treating patients with ketamine. Soon, he was flying back and forth across the country for bimonthly infusions.

Upon his request, he received the same dosage and routine he’d received in Bethesda: six infusions over two weeks. And with each return to New York, his relief seemed to last a little longer. These days, he says that his periods of remission between infusions often stretch to six months. He says he no longer takes any medication for depression besides ketamine.

“I don’t consider myself permanently cured, but now it’s something I can manage,” Hartman says, “like diabetes or arthritis. Before, it was completely unmanageable. It dominated my life and prevented me from functioning.”

In 2012 he helped found the Ketamine Advocacy Network, a group that vets ketamine clinics, advocates for insurance coverage and spreads the word about the drug.

And word has indeed spread. Ketamine clinics, typically operated by psychiatrists or anesthesiologists, are popping up in major cities around the country.

Levine, for one, is about to expand from New Jersey to Denver and Baltimore. Portland’s Abreu recently opened a second clinic in Seattle.

Depression is big business. An estimated 15.7 million adults in the United States experienced at least one major depressive episode in 2014, according to the NIMH.

“There’s a great unmet need in depression,” says Gerard Sanacora, director of the Yale Depression Research Program. “We think this is an extremely important treatment. The concern comes if people start using ketamine before CBT [cognitive behavioral therapy] or Prozac. Maybe someday it will be a first-line treatment. But we’re not there yet.”

Many unknowns

Sanacora says a lot more research is required. “It’s a medication that can have big changes in heart rate and blood pressure. There are so many unknowns, I’m not sure it should be used more widely till we understand its long-term benefits and risks.”

While a single dose of ketamine is cheaper than a $2 bottle of water, the cost to the consumer varies wildly, running anywhere between $500 and $1,500 per treatment. The drug itself is easily available in any pharmacy, and doctors are free to prescribe it — as with any medication approved by the Food and Drug Administration — for off-label use. Practitioners attribute the expense to medical monitoring of patients and IV equipment required during an infusion.

There is no registry for tracking the number of patients being treated with ketamine for depression, the frequency of those treatments, dosage levels, follow-up care and adverse effects.

“We clearly need more standardization in its use,” Zarate says. “We still don’t know what the proper dose should be. We need to do more studies. It still, in my opinion, should be used predominantly in a research setting or highly specialized clinic.”

As a drug once known almost exclusively to anesthesiologists, ketamine now falls into a gray zone.

“Most anesthesiologists don’t do mental health, and there’s no way a psychiatrist feels comfortable putting an IV in someone’s arm,” Abreu says.

It’s a drug, in other words, that practically demands collaboration. Instead, it has set off a turf war. As the use of ketamine looks likely to grow, many psychiatrists say that use of ketamine for depression should be left to them.

“The bottom line is you’re treating depression,” says psychiatrist David Feifel, director of the Center for Advanced Treatment of Mood and Anxiety Disorders at the University of California at San Diego. “And this isn’t garden-variety depression. The people coming in for ketamine are people who have the toughest, potentially most dangerous depressions. I think it’s a disaster if anesthesiologists feel competent to monitor these patients. Many of them have bipolar disorder and are in danger of becoming manic. My question [to anesthesiologists] is: ‘Do you feel comfortable that you can pick up mania?’ ”

But ketamine has flourished from the ground up and with little or no advertising. The demand has come primarily from patients and their families; Zarate, for instance, says he receives “at least 100 emails a day” from patients.

Nearly every one of them wants to know where they can get it.

 

The fog was lifted – A ketamine Success | IV Ketamine | 703-844-0184 | Fairfax, Va 22304 | Ketamine for Depression | Ketamine for anxiety | Ketamine clinic

NOVA Health Recovery  <<< Ketamine Treatment Center Fairfax, Virginia

CAll 703-844-0184 for an immediate appointment to evaluate you for a Ketamine infusion:

Ketaminealexandria.com    703-844-0184 Call for an infusion to treat your depression. PTSD, Anxiety, CRPS, or other pain disorder today.

email@novahealthrecovery.com  << Email for questions to the doctor

Ketamine center in Fairfax, Virginia    << Ketamine infusions

Ketamine – NOVA Ketamine facebook page – ketamine treatment for depression

facebook Ketamine page

NOVA Health Recovery  << Ketamine clinic Fairfax, Va  – Call 703-844-0184 for an appointment – Fairfax, Virginia

Ketamine Consultants Blog

Ketamine Virginia = Ketamine IV Drip Doctors

The IV Medical Center - IV Vitamin Drips for wellness and recovery



William Jamieson is only 23, but he’s already spent almost one-third of his life battling severe depression.

Once a top student and athlete with a large group of friends, the young Ottawa man fell into a depression at age 16 that he couldn’t shake.

“It got pretty bleak,” he says. “In terms of energy, I just couldn’t get out of bed. I couldn’t eat. I didn’t have the energy to eat. I was wasting away.”

“I kind of kept myself in the dark. That goes to how you see the world,” he adds.

He tried at least 10 medications and received electric shock therapy — but nothing worked.

Watching his son sink further into his depression left William’s father Charles desperate to help.

“There was nothing more they (the doctors) could do, and as a parent, that is not what you want to hear, because the depths of William’s depression were as dark and black as you can imagine,” Charles says.

Fearing for his son’s life, the elder Jamieson went online.

“I typed in Google: ‘breakthrough depression treatments,’ and ‘ketamine’ came up,” he says.

Though probably best known as the party drug “Special K,” ketamine has been used as an anesthetic and painkiller for decades. But in recent years, it’s been explored as a treatment for depression.

Researchers say the drug can lift depression and suicidal thoughts in patients with even one treatment.

Doctors at the Royal Ottawa Mental Health Centre have been using intravenous ketamine on patients with treatment-resistant depression and say they are seeing promising results.

Ketamine isn’t approved by U.S. regulators to treat depression, but hundreds of private health clinics have been offering it off-label. Jamieson now travels from his home in Ottawa to New York City every six weeks to get infusion from anesthesiologist Dr. Glen Brooks.

The darkness began to lift two days after the first treatment, William says.

“It feels like there is a loosening of the fist that is inside of your head.”

His father Charles grows emotional thinking about that weekend.

“I say, ‘Will, how are you feeling?’ He says, ‘Dad, it is gone. The depression is gone. The colours are brighter.’ I will never forget those words. ‘The colour is brighter. The fog is gone,’” he says.

Dr. Brooks has used ketamine for 35 years to treat neuropathic pain. After reading research on using of ketamine for depression, he began to offer the drug to patients with long histories of post-traumatic stress disorder and other mood disorders, charging up to US$400 per infusion.

Many of his patients have tried multiple medications and electroshock therapy and have not responded.

“So this is generally more of a last stop than a first stop,” he explains.

He says the improvements are often rapid and dramatic.

“What patients report is a sense of calmness and wellbeing that comes over them,” he explains.

Dr. Brooks believes that for suicidal patients, “ketamine saves lives every day.”

“I don’t think anything is as effective as ketamine has been,” he says.

In Canada, many psychiatrists are excited to better understand how ketamine works in the brain, but others are urging patience until more is known about the drug’s possible side-effects, including elevated blood pressure, blurred vision, and bladder inflammation.

“We don’t know who is more prone to the side effects or indeed, the long-term consequences of the side effects,” says Dr. Sidney Kennedy, the Arthur Sommer Rotenberg Chair in Suicide and Depression Studies at St. Michael’s Hospital in Toronto.

But Dr. Brooks says patients should be able to access a drug that could save their lives.

“In my experience of treating over 1,500 patients, I see no reason for any patient to wait, especially if they are critically ill with their mood disorder,” he says.

Charles Jamieson thinks ketamine should be more widely available in medically supervised settings.  Until it is, he will pay for his son to get the drug in the U.S.

“I have got my son back and I know he will have the life that he wants to make. He has an opportunity that he would not have had without ketamine,” he says. “Without ketamine, it would have been a terrible, different story.”

 

The Fog Has Lifted <<<<<<<<<<<<<<<<<<<<<<<<LINK TO STORY

KETAMINE For Obsessive-Compulsive Disorder | Depression | 703-844-0184 | FAIRFAX, VA | LOUDON, VA| LORTON, VA | |Ketamine For Obsessive Compulsive Disorder| 22308 |22304

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CAll 703-844-0184 for an immediate appointment to evaluate you for a Ketamine infusion:

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Randomized Controlled Crossover Trial of Ketamine in
Obsessive-Compulsive Disorder: Proof-of-Concept

Ketamine for Obsessive-compulsive disorder  <ARTICLE

Ketamine has effectiveness on the short run when it comes to treating Obsessive-compulsive disorders:

Serotonin reuptake inhibitors (SRIs), the first-line pharmacological treatment for obsessive-compulsive disorder (OCD), have two
limitations: incomplete symptom relief and 2–3 months lag time before clinically meaningful improvement. New medications with faster
onset are needed. As converging evidence suggests a role for the glutamate system in the pathophysiology of OCD, we tested whether a
single dose of ketamine, a non-competitive N-methyl-D-aspartate (NMDA) glutamate receptor antagonist, could achieve rapid antiobsessional
effects. In a randomized, double-blind, placebo-controlled, crossover design, drug-free OCD adults (n ¼ 15) with near-constant
obsessions received two 40-min intravenous infusions, one of saline and one of ketamine (0.5 mg/kg), spaced at least 1-week
apart. The OCD visual analog scale (OCD-VAS) and the Yale-Brown Obsessive-Compulsive Scale (Y-BOCS) were used to assess OCD
symptoms. Unexpectedly, ketamine’s effects within the crossover design showed significant (po0.005) carryover effects (ie, lasting
longer than 1 week). As a result, only the first-phase data were used in additional analyses. Specifically, those receiving ketamine (n ¼ 8)
reported significant improvement in obsessions (measured by OCD-VAS) during the infusion compared with subjects receiving placebo
(n ¼ 7). One-week post-infusion, 50% of those receiving ketamine (n ¼ 8) met criteria for treatment response (X35% Y-BOCS
reduction) vs 0% of those receiving placebo (n ¼ 7). Rapid anti-OCD effects from a single intravenous dose of ketamine can persist for at
least 1 week in some OCD patients with constant intrusive thoughts. This is the first randomized, controlled trial to demonstrate that a
drug affecting glutamate neurotransmission can reduce OCD symptoms without the presence of an SRI and is consistent with a
glutamatergic hypothesis of OCD.

 

Ketamine is a noncompetitive antagonist of the NMDA
receptor (a type of glutamate receptor). Studies in patients
with unipolar and bipolar depression have found that a
single intravenous infusion of ketamine can have antidepressant
effects within 40 min of starting the infusion.
These effects persist for 3–18 days, long after the drug has
cleared the patient’s system (Berman et al, 2000;
Diazgranados et al, 2010a, b; Murrough et al, 2012; Valentine
et al, 2011; Zarate et al, 2006, 2012a). We treated an
unmedicated individual with OCD with ketamine (0.5 mg/kg
IV over 40 min) and found rapid anti-obsessional effects that
returned to baseline by 1-week post-infusion (Rodriguez
et al, 2011). Bloch et al (2012) conducted an open ketamine
trial in 10 subjects with OCD and found modest but
statistically significant improvement in OCD symptoms
over days 1–3 following ketamine infusion compared with
baseline; however, most subjects in this study were taking
multiple other medications at the time of infusion.

Ketamine Therapy | Ketamine Doctors | 703-844-0184 | Fairfax, Virginia | Depression causes RAPID AGING due to Oxidative stress | NOVA Health Recovery, Alexandria, Va 22306

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CAll 703-844-0184 for an immediate appointment to evaluate you for a Ketamine infusion:

Ketaminealexandria.com    703-844-0184 Call for an infusion to treat your depression. PTSD, Anxiety, CRPS, or other pain disorder today.

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Ketamine – NOVA Ketamine facebook page – ketamine treatment for depression

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________________________________

Reasons to treat depression rapidly – Depression causes rapid aging> Consider using a rapid – acting antidepressant!

Depression ‘makes us biologically older’  BBC Article

Major depressive disorder and accelerated cellular aging

Patients with major depressive disorder (MDD) have an increased onset risk of aging-related somatic diseases such as heart disease,
diabetes, obesity and cancer. This suggests mechanisms of accelerated biological aging among the depressed, which can be
indicated by a shorter length of telomeres. We examine whether MDD is associated with accelerated biological aging, and whether
depression characteristics such as severity, duration, and psychoactive medication do further impact on biological aging. Data are
from the Netherlands Study of Depression and Anxiety, including 1095 current MDD patients, 802 remitted MDD patients and 510
control subjects. Telomere length (TL) was assessed as the telomere sequence copy number (T) compared to a single-copy gene
copy number (S) using quantitative polymerase chain reaction. This resulted in a T/S ratio and was converted to base pairs (bp).
MDD diagnosis and MDD characteristics were determined by self-report questionnaires and structured psychiatric interviews.
Compared with control subjects (mean bp = 5541), sociodemographic-adjusted TL was shorter among remitted MDD patients
(mean bp = 5459; P = 0.014) and current MDD patients (mean bp = 5461; P = 0.012). Adjustment for health and lifestyle variables did
not reduce the associations. Within the current MDD patients, separate analyses showed that both higher depression severity
(P<0.01) and longer symptom duration in the past 4 years (P = 0.01) were associated with shorter TL. Our results demonstrate that
depressed patients show accelerated cellular aging according to a ‘dose–response’ gradient: those with the most severe and
chronic MDD showed the shortest TL. We also confirmed the imprint of past exposure to depression, as those with remitted MDD
had shorter TL than controls

In this large cohort study we demonstrated that currently
depressed persons had shorter TL than never-depressed controls.
Based on an estimated mean telomere shortening rate of 14–20
bp per year as found in this and other studies,20,23,26 the
differences observed indicate 4–6 years of accelerated aging for
the current MDD sample as compared to controls. We also showed
evidence for the imprint of past exposure to depression since
those with remitted MDD also had shorter TL than control
subjects. These observed associations remained significant after
controlling for lifestyle and somatic health variables, suggesting that the shortened telomeres were not simply due to unhealthylifestyle or poorer somatic health among depressed persons.
Finally, the association between MDD and TL showed a ‘dose–
response’ gradient, since the most severely and chronically
depressed patients had the shortest telomeres.

MDD is thus associated with shortened TL, which resembles
accelerated biological aging. The disorder has previously also been
associated with dysregulations of the hypothalamus–pituitary–
adrenal (HPA) axis,43,45 the immune system,46,47 the autonomic
nervous system (ANS)48,49 and increased oxidative stress.50
Shortened telomeres, in turn, are suggested to be a consequence
or a concomitant of these dysregulated biological stress systems.
In line with this, several in vitro and in vivo studies found increased
cortisol,51 oxidative stress52 and pro-inflammatory cytokines53
to be associated with shorter TL. Dysregulations of these stress systems could contribute to telomere shortening in MDD patients.9,12
However, the exact biological mechanisms that mediate the relation
between depression and telomere shortening, as well as the
direction of the link, remain to be further explored.

Oxidative stress shortens telomeres

Elevated DNA Oxidation and DNA Repair Enzyme Expression in Brain White Matter in Major Depressive Disorder.

The Role of Oxidative Stress in Depressive Disorders

Abstract:

Studies of the World Health Organization suggest that in the year 2020, depressive disorder will be the illness with the highest
burden of disease. Especially unipolar depression is the psychiatric disorder with the highest prevalence and incidence, it is cost-intensive and has a relatively high morbidity. Lately, the biological process involved in the aetiology of depression has been the focus of research.
Since its emergence, the monoamine hypothesis has been adjusted and extended considerably. An increasing body of evidence points to
alterations not only in brain function, but also in neuronal plasticity. The clinical presentations demonstrate these dysfunctions by accompanying cognitive symptoms such as problems with memory and concentration. Modern imaging techniques show volume reduction of the hippocampus and the frontal cortex. These findings are in line with post-mortem studies of patients with depressive disorder and they point to a significant decrease of neuronal and glial cells in cortico-limbic regions which can be seen as a consequence of alterations in
neuronal plasticity in this disorder. This could be triggered by an increase of free radicals which in turn eventually leads to cell death and consequently atrophy of vulnerable neuronal and glial cell population in these regions. Therefore, research on increased oxidative stress in unipolar depressive disorder, mediated by elevated concentrations of free radicals, has been undertaken. This review gives a comprehensive overview over the current literature discussing the involvement of oxidative stress and free radicals in depression.

Membrane damage in blood of patients with depression has
been shown by elevated of omega 3- fatty-acids [45] and by increased
lipid peroxidation products in patients with DD [42, 45,
[46, 47]. Furthermore, DNA-strand brakes have been reported in
the blood of these patients [48]. DD has been linked to increased
serum levels of malondialdehyde (MDA), a breakdown product of
oxidized apolipoprotein B-containing lipoproteins, and thus a
marker of the rate of peroxide breakdown [49, 50].

In patients with DD (Depressive Disorders), elevated levels of MDA adversely affect
the efficiency of visual-spatial and auditory-verbal working memory,
short-term declarative memory and delayed recall declarative
memory [51]. Higher concentration of plasma MDA in patients
with recurrent depression is associated with the severity of depressive
symptoms, both at the beginning of antidepressant pharmacotherapy,
and after 8 weeks of treatment. Statistically significant
differences were found in the intensity of depressive symptoms,
measured on therapy onset versus the examination results after
8 weeks of treatment [51]. Although this is used as a marker of lipid peroxidation, it is considered to be less stable than 8-iso-PGF2a, and more susceptible to confounding factors such as antioxidants from diet [52]. Therefore, the best way to investigate oxidative disruptions to lipids in humans is via assessing levels of F2-
isoprostanes [52-54]. These are stable compounds produced in the
process of lipid peroxidation [52, 54]. 8-iso-PGF2a are specific F2-
isoprostane molecules produced during the peroxidation of arachnidonic acid. However, the mean serum level of 8-iso-PGF2a was shown to be significantly higher in a group of patients with DD,
controlling for lifestyle variables such as body mass index, alcohol
consumption, and physical activity [55, 56]. Cerebral membrane
abnormalities and altered membrane phospholipids have been suggested by an increased choline-containing compound seen in the
putamen of patients with DD [57] which has been interpreted as a
result of increased oxidative stress in patients with DD.

A Meta-Analysis of Oxidative Stress Markers in Depression

Results
115 articles met the inclusion criteria. Lower TAC was noted in acute episodes (AEs) of depressed patients (p<0.05). Antioxidants, including serum paraoxonase, uric acid, albumin,
high-density lipoprotein cholesterol and zinc levels were lower than controls (p<0.05); the serum uric acid, albumin and vitamin C levels were increased after antidepressant therapy
(p<0.05). Oxidative damage products, including red blood cell (RBC) malondialdehyde (MDA), serum MDA and 8-F2-isoprostanes levels were higher than controls (p<0.05). After
antidepressant medication, RBC and serum MDA levels were decreased (p<0.05). Moreover, serum peroxide in free radicals levels were higher than controls (p<0.05). There were
no difference

Conclusion
This meta-analysis supports the facts that the serum TAC, paraoxonase and antioxidant levels are lower, and the serum free radical and oxidative damage product levels are higher
than controls in depressed patients. Meanwhile, the antioxidant levels are increased and the oxidative damage product levels are decreased after antidepressant medication. The
pathophysiological relationships between oxidative stress and depression, and the potential benefits of antioxidant supplementation deserve further research.

Some studies have demonstrated that depressed patients’ oxidative product levels in their peripheral blood [3, 4], red blood cells (RBC) [4], mononuclear cells [5], urine [6], cerebrospinal
fluid [7] and postmortem brains [8] were abnormal. Antioxidant system disturbance in peripheral blood has also been reported [9]. Autoimmune responses against neoepitopes
induced by oxidative damage of fatty acid and protein membranes have been reported [10, 11].
Lower glutathione (GSH) levels [12] and a negative relationship between anhedonia severity
and occipital GSH levels [13] were found through magnetic resonance spectroscopy (MRS).

Oxidative stress is defined as a persistent imbalance between oxidation and anti-oxidation, which leads to the damage of cellular macromolecules [14, 15]. The free radicals consist of reactive
oxygen species (ROS) and reactive nitrogen species (RNS). The main ROS includes superoxide anion, hydroxy radical and hydrogen peroxide, and the RNS consists of nitric oxide
(NO), nitrogen dioxide and peroxynitrite. Nitrite is often used as a marker of NO activity. Interestingly, the brain appears to be more susceptible to the ROS/RNS because of the high
content of unsaturated fatty acids, high oxygen consumption per unit weight, high content of key ingredients of lipid peroxidation (LP) and scarcity of antioxidant defence systems [16].
The oxidative products include products of oxidative damage of LP, protein and DNA in depression. As a product of LP, abnormal malondialdehyde (MDA) levels in depression have
been reported [17]. 8-F2-isoprostane (8-iso-PGF2α) is another product of LP [18] that is considered
to be a marker of LP because of its chemical stability [19]. The protein carbonyl (PC), 8-hydroxy-2-deoxyguanosine (8-OHdG) and 8-oxo-7, 8-dihydroguanosine (8-oxoGuo) are
the markers of protein, DNA and RNA oxidative damage, respectively [3, 20, 21]. The oxidative damage to cellular macromolecules changes the structure of original epitopes, which leads to the generation of new epitopes modified (neoepitopes). The antibodies against oxidative neoepitopes
in depression have been found [10, 11, 22–24]. On the other hand, the antioxidant defence systems can be divided into enzymatic and non-enzymatic antioxidants. The nonenzymatic
antioxidants include vitamins C and E, albumin, uric acid, high-density lipoprotein cholesterol (HDL-C), GSH, coenzyme Q10 (CoQ10), ceruloplasmin, zinc, selenium, and so on.
The enzymatic antioxidants include superoxide dismutase (SOD), glutathione peroxidase (GPX), catalase (CAT), glutathione reductase (GR), paraoxonase 1 (PON1), and so on.

Discussion
The present findings support oxidative stress may be disordered in depressed patients, which is demonstrated by abnormal oxidative stress marker levels. In this meta-analysis, at first we
found in depressed patients: 1) the serum TAC, PON, uric acid, albumin, HDL-C and zinc levels were lower than controls; 2) the serum peroxide, MDA, 8-iso-PGF2α and RBC MDA levels
were higher than controls. To explore the effect of the antidepressant therapy to oxidative stress
markers, we reviewed the studies which had changes. And it came to the conclusions: 1) the serum uric acid, albumin, and vitamin C levels were increased; 2) the serum nitrite, RBC and
serum MDA levels were decreased.

The serum antioxidant levels are significantly lower in depression in our study and previous
reports, including PON, albumin, zinc, uric acid HDL-C, CoQ10 [146] and GSH [4, 38].
Meanwhile, the oxidative damage product levels are significantly higher. The body couldn’t
scavenge the excess free radicals (peroxide), leading to damages of main parts of cellular macromolecules
such as fatty acids, protein, DNA, RNA and mitochondria. The longitudinal antidepressant
therapy can reverse these abnormal oxidative stress parameters. It has proved
these phenomena occur in depression, such as increased levels of MDA, 8-iso-PGF2α, 8-oxoGuo
and 8-OHdG [3, 21]. Oxidative stress plays a crucial role in the pathophysiology of
depression. Some genes may be a potential factor. Lawlor et al (2007) reported the R allele of
PON1Q192R was associated with depression [147]. In addition, poor appetite, psychological
stressors, obesity, metabolic syndrome, sleep disorders, cigarette smoking and unhealthy lifestyle
may also contribute to it [148]. Furthermore, oxidative stress activates the immuneinflammatory
pathways [148]. But some studies supported decrease in albumin, zinc and
HDL-C levels was probably related to increased levels of pro-inflammatory cytokines (such as
interleukin-1 (IL-1) and IL-6) [59, 70–72, 117] during an acute phase response, which illustrated the activated immune-inflammatory pathways also activates the oxidative stress. These two mechanisms influence each other. On the other hand, the oxidative damage to cellular macromolecules changes the structure of original epitopes, which leads to generation of newepitopes modified (neoepitopes). Oxidative neoepitopes reported up to now include the conjugated oleic and azelaic acid, MDA, phosphatidyl inositol (Pi), NO-modified adducts and oxidized low density lipoprotein (oxLDL) [11, 22–24]. Maes et al reported the levels of serum IgG antibody against the oxLDL and IgM antibodies against the conjugated oleic and azelaic acid, MDA, Pi and NO-modified adducts were increased in depression [11, 22–24]. Depleted antioxidant defence in depression suggests that antioxidant supplements may be useful in clinical management. Preliminary evidence has indicated that patients treated with CoQ10 showed improvement in depressive symptoms and decrease in hippocampal oxidative DNA damage [149]. In our analyses, vitamin C and E levels did not differ between depressed patients and controls, but many studies have reported that vitamin C and E supplements could improve depressive moods [150, 151].

Malondialdehyde plasma concentration correlates with declarative and working memory in patients with recurrent depressive disorder

Abstract

Oxidative stress has been implicated in the cognitive decline, especially in memory impairment. The purpose of this study was to determine the concentration of malondialdehyde (MDA) in patients with recurrent depressive disorders (rDD) and to define relationship between plasma levels of MDA and the cognitive performance. The study comprised 46 patients meeting criteria for rDD. Cognitive function assessment was based on: The Trail Making Test , The Stroop Test, Verbal Fluency Test and Auditory-Verbal Learning Test. The severity of depression symptoms was assessed using the Hamilton Depression Rating Scale (HDRS). Statistically significant differences were found in the intensity of depression symptoms, measured by the HDRS on therapy onset versus the examination results after 8 weeks of treatment (P < 0.001). Considering the 8-week pharmacotherapy period, rDD patients presented better outcomes in cognitive function tests. There was no statistically significant correlation between plasma MDA levels, and the age, disease duration, number of previous depressive episodes and the results in HDRS applied on admission and on discharge. Elevated levels of MDA adversely affected the efficiency of visual-spatial and auditory-verbal working memory, short-term declarative memory and the delayed recall declarative memory. 1. Higher concentration of plasma MDA in rDD patients is associated with the severity of depressive symptoms, both at the beginning of antidepressants pharmacotherapy, and after 8 weeks of its duration. 2. Elevated levels of plasma MDA are related to the impairment of visual-spatial and auditory-verbal working memory and short-term and delayed declarative memory.

Antioxidant /Antidepressant-like Effect of Ascorbic acid (Vitamine
C) and Fluoxetine
Another study investigated the influence of ascorbic acid
(which is an antioxidant with antidepressant-like effects in animals)
on both depressive-like behaviour induced by a chronic unpredictable
stress (CUS) paradigm and on serum markers of oxidative
stress and in cerebral cortex and hippocampus of mice [120]. The
CUS-model is an animal model for induced depression-like behaviour
in animals. Depressive-like behaviour induced by CUS was
accompanied by significantly increased lipid peroxidation (cerebral
cortex and hippocampus), decreased catalase (CAT) (cerebral cortex
and hippocampus) and glutathione reductase (GR) (hippocampus)
activities and reduced levels of glutathione (cerebral cortex).
Repeated ascorbic acid as well as fluoxetine administration significantly
reversed CUS-induced depressive-like behaviour as well as
oxidative damage. No alterations were observed in locomotor activity
and glutathione peroxidase (GPx) activity in the same sample.
These findings pointed to a rapid and robust effect of ascorbic acid
in reversing behavioural and biochemical alterations induced in an
animal model [120].  Ascorbic acid treatment, similarly to fluoxetine, reverses depressive-like behavior and brain oxidative damage induced by chronic unpredictable stress.

 

Ketamine Therapy | Ketamine Doctors | 703-844-0184 | Fairfax, Virginia | Ketamine and Psychedelic drugs – for depression and neuroplasticity | NOVA Health Recovery, Alexandria, Va 22306

NOVA Health Recovery  <<< Ketamine Treatment Center Fairfax, Virginia

CAll 703-844-0184 for an immediate appointment to evaluate you for a Ketamine infusion:

Ketaminealexandria.com    703-844-0184 Call for an infusion to treat your depression. PTSD, Anxiety, CRPS, or other pain disorder today.

email@novahealthrecovery.com  << Email for questions to the doctor

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Ketamine – NOVA Ketamine facebook page – ketamine treatment for depression

facebook Ketamine page

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_______________________________________________________________________________________________


Ketamine and Psychedelic Drugs Change Structure of Neurons

ummary: A new study reveals psychedelics increase dendrites, dendritic spines and synapses, while ketamine may promote neuroplasticity. The findings could help develop new treatments for anxiety, depression and other related disorders.

Source: UC Davis.

A team of scientists at the University of California, Davis is exploring how hallucinogenic drugs impact the structure and function of neurons — research that could lead to new treatments for depression, anxiety, and related disorders. In a paper published on June 12 in the journal Cell Reports, they demonstrate that a wide range of psychedelic drugs, including well-known compounds such as LSD and MDMA, increase the number of neuronal branches (dendrites), the density of small protrusions on these branches (dendritic spines), and the number of connections between neurons (synapses). These structural changes suggest that psychedelics are capable of repairing the circuits that are malfunctioning in mood and anxiety disorders.

“People have long assumed that psychedelics are capable of altering neuronal structure, but this is the first study that clearly and unambiguously supports that hypothesis. What is really exciting is that psychedelics seem to mirror the effects produced by ketamine,” said David Olson, assistant professor in the Departments of Chemistry and of Biochemistry and Molecular Medicine, who leads the research team.

Ketamine, an anesthetic, has been receiving a lot of attention lately because it produces rapid antidepressant effects in treatment-resistant populations, leading the U.S. Food and Drug Administration to fast-track clinical trials of two antidepressant drugs based on ketamine. The antidepressant properties of ketamine may stem from its tendency to promote neural plasticity — the ability of neurons to rewire their connections.

“The rapid effects of ketamine on mood and plasticity are truly astounding. The big question we were trying to answer was whether or not other compounds are capable of doing what ketamine does,” Olson said.

Psychedelics show similar effects to ketamine

Olson’s group has demonstrated that psychedelics mimic the effects of ketamine on neurons grown in a dish, and that these results extend to structural and electrical properties of neurons in animals. Rats treated with a single dose of DMT — a psychedelic compound found in the Amazonian herbal tea known as ayahuasca — showed an increase in the number of dendritic spines, similar to that seen with ketamine treatment. DMT itself is very short-lived in the rat: Most of the drug is eliminated within an hour. But the “rewiring” effects on the brain could be seen 24 hours later, demonstrating that these effects last for some time.

Fairfax | NOVA Ketamine IV Ketamine for depression | Fairfax, Va 22306 | 703-844-0184
Fairfax | NOVA Ketamine IV Ketamine for depression | Fairfax, Va 22306 | 703-844-0184

Ketamine and Psychedelic Drugs Change Structure of Neurons

Summary: A new study reveals psychedelics increase dendrites, dendritic spines and synapses, while ketamine may promote neuroplasticity. The findings could help develop new treatments for anxiety, depression and other related disorders.

Source: UC Davis.

A team of scientists at the University of California, Davis is exploring how hallucinogenic drugs impact the structure and function of neurons — research that could lead to new treatments for depression, anxiety, and related disorders. In a paper published on June 12 in the journal Cell Reports, they demonstrate that a wide range of psychedelic drugs, including well-known compounds such as LSD and MDMA, increase the number of neuronal branches (dendrites), the density of small protrusions on these branches (dendritic spines), and the number of connections between neurons (synapses). These structural changes suggest that psychedelics are capable of repairing the circuits that are malfunctioning in mood and anxiety disorders.

“People have long assumed that psychedelics are capable of altering neuronal structure, but this is the first study that clearly and unambiguously supports that hypothesis. What is really exciting is that psychedelics seem to mirror the effects produced by ketamine,” said David Olson, assistant professor in the Departments of Chemistry and of Biochemistry and Molecular Medicine, who leads the research team.

Ketamine, an anesthetic, has been receiving a lot of attention lately because it produces rapid antidepressant effects in treatment-resistant populations, leading the U.S. Food and Drug Administration to fast-track clinical trials of two antidepressant drugs based on ketamine. The antidepressant properties of ketamine may stem from its tendency to promote neural plasticity — the ability of neurons to rewire their connections.

“The rapid effects of ketamine on mood and plasticity are truly astounding. The big question we were trying to answer was whether or not other compounds are capable of doing what ketamine does,” Olson said.

Psychedelics show similar effects to ketamine

Olson’s group has demonstrated that psychedelics mimic the effects of ketamine on neurons grown in a dish, and that these results extend to structural and electrical properties of neurons in animals. Rats treated with a single dose of DMT — a psychedelic compound found in the Amazonian herbal tea known as ayahuasca — showed an increase in the number of dendritic spines, similar to that seen with ketamine treatment. DMT itself is very short-lived in the rat: Most of the drug is eliminated within an hour. But the “rewiring” effects on the brain could be seen 24 hours later, demonstrating that these effects last for some time.

image shows neurons under psychedelics and ketamine

Psychedelic drugs such as LSD and ayahuasca change the structure of nerve cells, causing them to sprout more branches and spines, UC Davis researchers have found. This could help in “rewiring” the brain to treat depression and other disorders. In this false-colored image, the rainbow-colored cell was treated with LSD compared to a control cell in blue. NeuroscienceNews.com image is credited to Calvin and Joanne Ly.

Behavioral studies also hint at the similarities between psychedelics and ketamine. In another recent paper published in ACS Chemical Neuroscience, Olson’s group showed that DMT treatment enabled rats to overcome a “fear response” to the memory of a mild electric shock. This test is considered to be a model of post-traumatic stress disorder (PTSD), and interestingly, ketamine produces the same effect. Recent clinical trials have shown that like ketamine, DMT-containing ayahuasca might have fast-acting effects in people with recurrent depression, Olson said.

These discoveries potentially open doors for the development of novel drugs to treat mood and anxiety disorders, Olson said. His team has proposed the term “psychoplastogen” to describe this new class of “plasticity-promoting” compounds.

“Ketamine is no longer our only option. Our work demonstrates that there are a number of distinct chemical scaffolds capable of promoting plasticity like ketamine, providing additional opportunities for medicinal chemists to develop safer and more effective alternatives,” Olson said.

 

Psychedelic drugs, ketamine change structure of neurons

Psychedelic drugs, ketamine change structure of neurons

Psychedelics as Possible Treatments for Depression and PTSD

A team of scientists at the University of California, Davis, is exploring how hallucinogenic drugs impact the structure and function of neurons — research that could lead to new treatments for depression, anxiety and related disorders.

In a paper published on June 12 in the journal Cell Reports, they demonstrate that a wide range of psychedelic drugs, including well-known compounds such as LSD and MDMA, increase the number of neuronal branches (dendrites), the density of small protrusions on these branches (dendritic spines) and the number of connections between neurons (synapses). These structural changes could suggest that psychedelics are capable of repairing the circuits that are malfunctioning in mood and anxiety disorders.

“People have long assumed that psychedelics are capable of altering neuronal structure, but this is the first study that clearly and unambiguously supports that hypothesis. What is really exciting is that psychedelics seem to mirror the effects produced by ketamine,” said David Olson, assistant professor in the departments of Chemistry and of Biochemistry and Molecular Medicine, who leads the research team.

Ketamine, an anesthetic, has been receiving a lot of attention lately because it produces rapid antidepressant effects in treatment-resistant populations, leading the U.S. Food and Drug Administration to fast-track clinical trials of two antidepressant drugs based on ketamine. The antidepressant properties of ketamine may stem from its tendency to promote neural plasticity — the ability of neurons to rewire their connections.

“The rapid effects of ketamine on mood and plasticity are truly astounding. The big question we were trying to answer was whether or not other compounds are capable of doing what ketamine does,” Olson said.

Psychedelics show similar effects to ketamine

Olson’s group has demonstrated that psychedelics mimic the effects of ketamine on neurons grown in a dish, and that these results extend to structural and electrical properties of neurons in animals. Rats treated with a single dose of DMT — a psychedelic compound found in the Amazonian herbal tea known as ayahuasca — showed an increase in the number of dendritic spines, similar to that seen with ketamine treatment. DMT itself is very short-lived in the rat: Most of the drug is eliminated within an hour. But the “rewiring” effects on the brain could be seen 24 hours later, demonstrating that these effects last for some time.

Behavioral studies also hint at the similarities between psychedelics and ketamine. In another recent paper published in ACS Chemical Neuroscience, Olson’s group showed that DMT treatment enabled rats to overcome a “fear response” to the memory of a mild electric shock. This test is considered to be a model of post-traumatic stress disorder, or PTSD, and interestingly, ketamine produces the same effect. Recent clinical trials have shown that like ketamine, DMT-containing ayahuasca might have fast-acting effects in people with recurrent depression, Olson said.

These discoveries potentially open doors for the development of novel drugs to treat mood and anxiety disorders, Olson said. His team has proposed the term “psychoplastogen” to describe this new class of “plasticity-promoting” compounds.

“Ketamine is no longer our only option. Our work demonstrates that there are a number of distinct chemical scaffolds capable of promoting plasticity like ketamine, providing additional opportunities for medicinal chemists to develop safer and more effective alternatives,” Olson said.

Additional co-authors on the Cell Reports “Psychedelics Promote Structural and Functional Neural Plasticity.” study are Calvin Ly, Alexandra Greb, Sina Soltanzadeh Zarandi, Lindsay Cameron, Jonathon Wong, Eden Barragan, Paige Wilson, Michael Paddy, Kassandra Ori-McKinney, Kyle Burbach, Megan Dennis, Alexander Sood, Whitney Duim, Kimberley McAllister and John Gray.

Olson and Cameron were co-authors on the ACS Chemical Neuroscience paper along with Charlie Benson and Lee Dunlap.

The work was partly supported by grants from the National Institutes of Health.

Psychedelics Promote Structural and Functional
Neural Plasticity

Below is the Intro and Discussion for the article:

Psychedelics Promote Structural and Functional neural Plasticity

Authors:

Calvin Ly, Alexandra C. Greb,
Lindsay P. Cameron, …,
Kassandra M. Ori-McKenney,
John A. Gray, David E. Olson
Correspondence
deolson@ucdavis.edu

In Brief
Ly et al. demonstrate that psychedelic
compounds such as LSD, DMT, and DOI
increase dendritic arbor complexity,
promote dendritic spine growth, and
stimulate synapse formation. These
cellular effects are similar to those
produced by the fast-acting
antidepressant ketamine and highlight
the potential of psychedelics for treating
depression and related disorders.

  • Highlights
     Serotonergic psychedelics increase neuritogenesis,
    spinogenesis, and synaptogenesis
  •  Psychedelics promote plasticity via an evolutionarily
    conserved mechanism
  •  TrkB, mTOR, and 5-HT2A signaling underlie psychedelicinduced
    plasticity
  •  Noribogaine, but not ibogaine, is capable of promoting
    structural neural plasticity

SUMMARY
Atrophy of neurons in the prefrontal cortex (PFC)
plays a key role in the pathophysiology of depression
and related disorders. The ability to promote
both structural and functional plasticity in the PFC
has been hypothesized to underlie the fast-acting
antidepressant properties of the dissociative anesthetic
ketamine. Here, we report that, like ketamine,
serotonergic psychedelics are capable of robustly
increasing neuritogenesis and/or spinogenesis both
in vitro and in vivo. These changes in neuronal structure
are accompanied by increased synapse number
and function, as measured by fluorescence microscopy
and electrophysiology. The structural changes
induced by psychedelics appear to result from stimulation
of the TrkB, mTOR, and 5-HT2A signaling
pathways and could possibly explain the clinical
effectiveness of these compounds. Our results underscore
the therapeutic potential of psychedelics
and, importantly, identify several lead scaffolds for
medicinal chemistry efforts focused on developing
plasticity-promoting compounds as safe, effective,
and fast-acting treatments for depression and
related disorders.

INTRODUCTION
Neuropsychiatric diseases, including mood and anxiety disorders,
are some of the leading causes of disability worldwide
and place an enormous economic burden on society (Gustavsson
et al., 2011; Whiteford et al., 2013). Approximately
one-third of patients will not respond to current antidepressant
drugs, and those who do will usually require at least 2–4 weeks
of treatment before they experience any beneficial effects
(Rush et al., 2006). Depression, post-traumatic stress disorder
(PTSD), and addiction share common neural circuitry (Arnsten,
2009; Russo et al., 2009; Peters et al., 2010; Russo and
Nestler, 2013) and have high comorbidity (Kelly and Daley,
2013). A preponderance of evidence from a combination of
human imaging, postmortem studies, and animal models suggests
that atrophy of neurons in the prefrontal cortex (PFC)
plays a key role in the pathophysiology of depression and
related disorders and is precipitated and/or exacerbated by
stress (Arnsten, 2009; Autry and Monteggia, 2012; Christoffel
et al., 2011; Duman and Aghajanian, 2012; Duman et al.,
2016; Izquierdo et al., 2006; Pittenger and Duman, 2008;
Qiao et al., 2016; Russo and Nestler, 2013). These structural
changes, such as the retraction of neurites, loss of dendritic
spines, and elimination of synapses, can potentially be counteracted
by compounds capable of promoting structural and
functional neural plasticity in the PFC (Castre´ n and Antila,
2017; Cramer et al., 2011; Duman, 2002; Hayley and Litteljohn,
2013; Kolb and Muhammad, 2014; Krystal et al., 2009;
Mathew et al., 2008), providing a general solution to treating
all of these related diseases. However, only a relatively small
number of compounds capable of promoting plasticity in the
PFC have been identified so far, each with significant drawbacks
(Castre´ n and Antila, 2017). Of these, the dissociative
anesthetic ketamine has shown the most promise, revitalizing
the field of molecular psychiatry in recent years.
Ketamine has demonstrated remarkable clinical potential as a
fast-acting antidepressant (Berman et al., 2000; Ionescu et al.,
2016; Zarate et al., 2012), even exhibiting efficacy in treatmentresistant
populations (DiazGranados et al., 2010; Murrough
et al., 2013; Zarate et al., 2006). Additionally, it has shown promise
for treating PTSD (Feder et al., 2014) and heroin addiction
(Krupitsky et al., 2002). Animal models suggest that its therapeutic
effects stem from its ability to promote the growth of dendritic
spines, increase the synthesis of synaptic proteins, and
strengthen synaptic responses (Autry et al., 2011; Browne and
Lucki, 2013; Li et al., 2010).

Like ketamine, serotonergic psychedelics and entactogens
have demonstrated rapid and long-lasting antidepressant and
anxiolytic effects in the clinic after a single dose (Bouso et al.,
2008; Carhart-Harris and Goodwin, 2017; Grob et al., 2011;
Mithoefer et al., 2013, 2016; Nichols et al., 2017; Sanches
et al., 2016; Oso´ rio et al., 2015), including in treatment-resistant
populations (Carhart-Harris et al., 2016, 2017; Mithoefer et al.,
2011; Oehen et al., 2013; Rucker et al., 2016). In fact, there
have been numerous clinical trials in the past 30 years examining
the therapeutic effects of these drugs (Dos Santos et al., 2016),
with 3,4-methylenedioxymethamphetamine (MDMA) recently
receiving the ‘‘breakthrough therapy’’ designation by the Food
and Drug Administration for treating PTSD. Furthermore, classical
psychedelics and entactogens produce antidepressant
and anxiolytic responses in rodent behavioral tests, such as
the forced swim test (Cameron et al., 2018) and fear extinction
learning (Cameron et al., 2018; Catlow et al., 2013; Young
et al., 2015), paradigms for which ketamine has also been shown
to be effective (Autry et al., 2011; Girgenti et al., 2017; Li et al.,
2010). Despite the promising antidepressant, anxiolytic, and
anti-addictive properties of serotonergic psychedelics, their
therapeutic mechanism of action remains poorly understood,
and concerns about safety have severely limited their clinical
usefulness.
Because of the similarities between classical serotonergic
psychedelics and ketamine in both preclinical models and clinical
studies, we reasoned that their therapeutic effects might
result from a shared ability to promote structural and functional
neural plasticity in cortical neurons. Here, we report that serotonergic
psychedelics and entactogens from a variety of chemical
classes (e.g., amphetamine, tryptamine, and ergoline) display
plasticity-promoting properties comparable to or greater than
ketamine. Like ketamine, these compounds stimulate structural
plasticity by activating the mammalian target of rapamycin
(mTOR). To classify the growing number of compounds capable
of rapidly promoting induced plasticity (Castre´ n and Antila,
2017), we introduce the term ‘‘psychoplastogen,’’ from the
Greek roots psych- (mind), -plast (molded), and -gen (producing).
Our work strengthens the growing body of literature indicating
that psychoplastogens capable of promoting plasticity
in the PFC might have value as fast-acting antidepressants
and anxiolytics with efficacy in treatment-resistant populations
and suggests that it may be possible to use classical psychedelics
as lead structures for identifying safer alternatives.

DISCUSSION
Classical serotonergic psychedelics are known to cause
changes in mood (Griffiths et al., 2006, 2008, 2011) and brain
function (Carhart-Harris et al., 2017) that persist long after the
acute effects of the drugs have subsided. Moreover, several
psychedelics elevate glutamate levels in the cortex (Nichols,
2004, 2016) and increase gene expression in vivo of the neurotrophin
BDNF as well as immediate-early genes associated with
plasticity (Martin et al., 2014; Nichols and Sanders-Bush, 2002;
Vaidya et al., 1997). This indirect evidence has led to the
reasonable hypothesis that psychedelics promote structural
and functional neural plasticity, although this assumption had
never been rigorously tested (Bogenschutz and Pommy,
2012; Vollenweider and Kometer, 2010). The data presented
here provide direct evidence for this hypothesis, demonstrating
that psychedelics cause both structural and functional changes
in cortical neurons.

Prior to this study, two reports suggested
that psychedelics might be able
to produce changes in neuronal structure.
Jones et al. (2009) demonstrated that DOI
was capable of transiently increasing the
size of dendritic spines on cortical neurons,
but no change in spine density was
observed. The second study showed
that DOI promoted neurite extension in a
cell line of neuronal lineage (Marinova
et al., 2017). Both of these reports utilized
DOI, a psychedelic of the amphetamine
class. Here we demonstrate that the ability
to change neuronal structure is not a
unique property of amphetamines like
DOI because psychedelics from the ergoline,
tryptamine, and iboga classes of compounds also promote
structural plasticity. Additionally, D-amphetamine does not increase
the complexity of cortical dendritic arbors in culture,
and therefore, these morphological changes cannot be simply
attributed to an increase in monoamine neurotransmission.
The identification of psychoplastogens belonging to distinct
chemical families is an important aspect of this work because
it suggests that ketamine is not unique in its ability to promote
structural and functional plasticity. In addition to ketamine, the
prototypical psychoplastogen, only a relatively small number of
plasticity-promoting small molecules have been identified previously.
Such compounds include the N-methyl-D-aspartate
(NMDA) receptor ligand GLYX-13 (i.e., rapastinel), the mGlu2/3
antagonist LY341495, the TrkB agonist 7,8-DHF, and the muscarinic
receptor antagonist scopolamine (Lepack et al., 2016; Castello
et al., 2014; Zeng et al., 2012; Voleti et al., 2013). We
observe that hallucinogens from four distinct structural classes
(i.e., tryptamine, amphetamine, ergoline, and iboga) are also
potent psychoplastogens, providing additional lead scaffolds
for medicinal chemistry efforts aimed at identifying neurotherapeutics.
Furthermore, our cellular assays revealed that several
of these compounds were more efficacious (e.g., MDMA) or more potent (e.g., LSD) than ketamine. In fact, the plasticity-promoting
properties of psychedelics and entactogens rivaled that
of BDNF (Figures 3A–3C and S3). The extreme potency of LSD
in particular might be due to slow off kinetics, as recently proposed
following the disclosure of the LSD-bound 5-HT2B crystal
structure (Wacker et al., 2017).
Importantly, the psychoplastogenic effects of psychedelics in
cortical cultures were also observed in vivo using both vertebrate
and invertebrate models, demonstrating that they act through an
evolutionarily conserved mechanism. Furthermore, the concentrations
of psychedelics utilized in our in vitro cell culture assays
were consistent with those reached in the brain following systemic
administration of therapeutic doses in rodents (Yang
et al., 2018; Cohen and Vogel, 1972). This suggests that neuritogenesis,
spinogenesis, and/or synaptogenesis assays performed
using cortical cultures might have value for identifying
psychoplastogens and fast-acting antidepressants. It should
be noted that our structural plasticity studies performed in vitro
utilized neurons exposed to psychedelics for extended periods
of time. Because brain exposure to these compounds is often
of short duration due to rapid metabolism, it will be interesting
to assess the kinetics of psychedelic-induced plasticity.
A key question in the field of psychedelic medicine has been
whether or not psychedelics promote changes in the density of
dendritic spines (Kyzar et al., 2017). Using super-resolution
SIM, we clearly demonstrate that psychedelics do, in fact, increase
the density of dendritic spines on cortical neurons, an effect
that is not restricted to a particular structural class of compounds.
Using DMT, we verified that cortical neuron spine
density increases in vivo and that these changes in structural
plasticity are accompanied by functional effects such as
increased amplitude and frequency of spontaneous EPSCs.

We specifically designed these experiments
to mimic previous studies of ketamine
(Li et al., 2010) so that we might
directly compare these two compounds,
and, to a first approximation, they appear
to be remarkably similar. Not only do they
both increase spine density and neuronal
excitability in the cortex, they seem to
have similar behavioral effects. We have
shown previously that, like ketamine,
DMT promotes fear extinction learning
and has antidepressant effects in the
forced swim test (Cameron et al., 2018). These results, coupled
with the fact that ayahuasca, a DMT-containing concoction, has
potent antidepressant effects in humans (Oso´ rio et al., 2015;
Sanches et al., 2016; Santos et al., 2007), suggests that classical
psychedelics and ketamine might share a related therapeutic
mechanism.
Although the molecular targets of ketamine and psychedelics
are different (NMDA and 5-HT2A receptors, respectively), they
appear to cause similar downstream effects on structural plasticity
by activating mTOR. This finding is significant because ketamine is
known to be addictive whereas many classical psychedelics are
not (Nutt et al., 2007, 2010). The exact mechanisms by which these
compounds stimulate mTOR is still not entirely understood, but
our data suggest that, at least for classical psychedelics, TrkB
and 5-HT2A receptors are involved. Although most classical psychedelics
are not considered to be addictive, there are still significant
safety concerns with their use in medicine because they
cause profound perceptual disturbances and still have the potential
to be abused. Therefore, the identification of non-hallucinogenic
analogs capable of promoting plasticity in the PFC could
facilitate a paradigm shift in our approach to treating neuropsychiatric
diseases. Moreover, such compounds could be critical to
resolving the long-standing debate in the field concerning whether
the subjective effects of psychedelics are necessary for their therapeutic
effects (Majic et al., 2015  ). Although our group is actively
investigating the psychoplastogenic properties of non-hallucinogenic
analogs of psychedelics, others have reported the therapeutic
potential of safer structural and functional analogs of ketamine
(Moskal et al., 2017; Yang et al., 2015; Zanos et al., 2016).
Our data demonstrate that classical psychedelics from several
distinct chemical classes are capable of robustly promoting the
growth of both neurites and dendritic spines in vitro, in vivo, and across species. Importantly, our studies highlight the similarities
between the effects of ketamine and those of classical serotonergic
psychedelics, supporting the hypothesis that the clinical
antidepressant and anxiolytic effects of these molecules might
result from their ability to promote structural and functional plasticity
in prefrontal cortical neurons. We have demonstrated that
the plasticity-promoting properties of psychedelics require
TrkB, mTOR, and 5-HT2A signaling, suggesting that these key
signaling hubs may serve as potential targets for the development
of psychoplastogens, fast-acting antidepressants, and anxiolytics.
Taken together, our results suggest that psychedelics
may be used as lead structures to identify next-generation neurotherapeutics
with improved efficacy and safety profiles.

Also below is a great article on DMT and neuroplasticity:

 

Dark Classics in Chemical Neuroscience N,N-Dimethyltryptamine DMT

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