Cannabidiol (CBD) FDA Approved for Epilepsy – May Help Pain, Mood – Costs Review


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Epidiolex from GW Pharmaceuticals, is a cannabidiol (CBD) recently approved by FDA for treatment of epilepsy. Others have found CBD helpful for pain, migraine, and mood disorders. CBD is one of the more than 80 known cannabinoids in the cannabis plant, the marijuana plant. It has no psychoactive effect, that means it does not make anyone “high”. But urine drug tests will be positive for marijuana and anyone may risk losing their job if their employer checks – some drug tests do not specify marijuana.

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Medications can be prescribed off-label by your doctor for conditions other than the FDA approved epilepsy in this case, and hopefully covered by healthcare insurance. Below are costs of the Epidiolex brand reviewed by O’Shaughnessy’s newsletter, the newsletter originally for California cannabis doctors.

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FDA approval means CBD now has accepted medical use and should be no longer classified as Schedule I, though the ruse will likely be continued by congress.

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GW Pharmaceuticals PLC said it plans to charge about $32,500 per patient annually in the U.S. for its new treatment for rare forms of epilepsy, the first prescription drug derived from the marijuana plant.

Chief Executive Justin Gover said in an interview Wednesday that the company set the price to be in line with other brand-name epilepsy drugs, such as H. Lundbeck A/S’s Onfi. He noted that the FDA designated the product an “orphan drug,” meaning it treats rare conditions, and that some other orphan drugs carry higher prices.

Out-of-pocket costs for patients taking Epidiolex could range from $5 to $10 a month for those in state Medicaid programs to as high as $200 a month for some private insurance plans, Julian Gangolli, president of the company’s North America unit, said on a conference call with analysts Tuesday. Uninsured patients may qualify for receiving the drug free.

Dr. Jacqueline French, chief scientific officer of the Epilepsy Foundation, said there are low-cost generic epilepsy drugs on the market, but many patients with the rare forms of the disease have already tried them and the drugs didn’t help much.

Dr. French said Epidiolex improved symptoms for many children in clinical trials, and she is happy the price isn’t significantly higher.

The company expects to make the drug available after the U.S. Drug Enforcement Administration assigns it a controlled-substance classification, a decision expected by late September. GW Pharmaceuticals will distribute the drug through specialty pharmacies that ship directly to patients and caregivers.

FDA approval of a CBD extract means that cannabidiol now has an acknowledged medical use and therefore doesn’t fit a key criterion of Schedule I status. DEA rescheduling is supposed to follow as day follows night. Logically, the DEA resked should apply to cannabidiol, the molecule. But fixisin.com says CBD will remain on Sked I, with an exception created for CBD in an FDA-approved pharmaceutical.”

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The material on this site is for informational purposes only.

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It is not legal for me to provide medical advice without an examination.

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It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

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Comments are welcome.

This site is not for email, not for medical questions, and not for appointments.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Metformin – Nerve Pain & Microvascular Pain (angina)


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Metformin & Pain

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A diabetes drug used for many who have no diabetes. Recent discussion on metformin here and here.

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Metformin “can lead to a long-lasting reversal of pain hypersensitivity even long after treatment cessation, indicative of disease modification.” [ref below]

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References:

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A successful case of pain management using metformin in a patient with adiposis dolorosa.

International Journal of Clinical Pharmacology and Therapeutics

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In this case report, we describe a patient with Dercum’s disease who was successfully managed with metformin. The administration of metformin reduced pain intensity from 9/10 to 3/10 and favorably affected the profile of inflammatory cytokines (i.e., TNF a, IL-1β, IL-6, and IL-10), adipokines (i.e., adiponectin, leptin, and resistin), and β-endorphin. Because each variable was affected moderately by the drug, in the range of 20 – 30%, it follows that these effects are additive, i.e., they act independently of each other. However, taking into account advances in the pharmacology of metformin, it seems that other phenomena, such as modulation of synaptic plasticity, activation of microglia, and autophagy of the afferents supplying painful lipomas should be taken into consideration. Nonetheless, metformin deserves further exploration in the biology of pain.

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The use of metformin is associated with decreased lumbar radiculopathy pain

Journal of pain [2013], from University of Arizona Tucson, Ted Price’s lab, and USC

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Abstract:

Lumbar radiculopathy pain represents a major public health problem, with few effective long-term treatments. Preclinical neuropathic and postsurgical pain studies implicate the kinase adenosine monophosphate activated kinase (AMPK) as a potential pharmacological target for the treatment of chronic pain conditions. Metformin, which acts via AMPK, is a safe and clinically available drug used in the treatment of diabetes. Despite the strong preclinical rationale, the utility of metformin as a potential pain therapeutic has not yet been studied in humans. Our objective was to assess whether metformin is associated with decreased lumbar radiculopathy pain, in a retrospective chart review. We completed a retrospective chart review of patients who sought care from a university pain specialist for lumbar radiculopathy between 2008 and 2011. Patients on metformin at the time of visit to a university pain specialist were compared with patients who were not on metformin. We compared the pain outcomes in 46 patients on metformin and 94 patients not taking metformin therapy. The major finding was that metformin use was associated with a decrease in the mean of “pain now,” by −1.85 (confidence interval: −3.6 to −0.08) on a 0–10 visual analog scale, using a matched propensity scoring analysis and confirmed using a Bayesian analysis, with a significant mean decrease of −1.36 (credible interval: −2.6 to −0.03). Additionally, patients on metformin showed a non-statistically significant trend toward decreased pain on a variety of other pain descriptors. Our proof-of-concept findings suggest that metformin use is associated with a decrease in lumbar radiculopathy pain, providing a rational for larger retrospective trials in different pain populations and for prospective trials, to test the effectiveness of metformin in reducing neuropathic pain.

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The anti-diabetic drug metformin protects against chemotherapy-induced peripheral neuropathy in a mouse model.

PLoS One [2014] from MD Anderson Cancer Center

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Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) characterized by loss of sensory sensitivity and pain in hands and feet is the major dose-limiting toxicity of many chemotherapeutics. At present, there are no FDA-approved treatments for CIPN. The anti-diabetic drug metformin is the most widely used prescription drug in the world and improves glycemic control in diabetes patients. There is some evidence that metformin enhances the efficacy of cancer treatment. The aim of this study was to test the hypothesis that metformin protects against chemotherapy-induced neuropathic pain and sensory deficits. Mice were treated with cisplatin together with metformin or saline. Cisplatin induced increased sensitivity to mechanical stimulation (mechanical allodynia) as measured using the von Frey test. Co-administration of metformin almost completely prevented the cisplatin-induced mechanical allodynia. Co-administration of metformin also prevented paclitaxel-induced mechanical allodynia. The capacity of the mice to detect an adhesive patch on their hind paw was used as a novel indicator of chemotherapy-induced sensory deficits. Co-administration of metformin prevented the cisplatin-induced increase in latency to detect the adhesive patch indicating that metformin prevents sensory deficits as well. Moreover, metformin prevented the reduction in density of intra-epidermal nerve fibers (IENFs) in the paw that develops as a result of cisplatin treatment. We conclude that metformin protects against pain and loss of tactile function in a mouse model of CIPN. The finding that metformin reduces loss of peripheral nerve endings indicates that mechanism underlying the beneficial effects of metformin includes a neuroprotective activity. Because metformin is widely used for treatment of type II diabetes, has a broad safety profile, and is currently being tested as an adjuvant drug in cancer treatment, clinical translation of these findings could be rapidly achieved.

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Proteomic and functional annotation analysis of injured peripheral nerves reveals ApoE as a protein upregulated by injury that is modulated by metformin treatment

from Mol Pain [2013], from University of Arizona

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Abstract

BACKGROUND:

Peripheral nerve injury (PNI) results in a fundamental reorganization of the translational machinery in the injured peripheral nerve such that protein synthesis is increased in a manner linked to enhanced mTOR and ERK activity. We have shown that metformin treatment, which activates adenosine monophosphate-activated protein kinase (AMPK), reverses tactile allodynia and enhanced translation following PNI. To gain a better understanding of how PNI changes the proteome of the sciatic nerve and ascertain how metformin treatment may cause further change, we conducted a range of unbiased proteomic studies followed by biochemical experiments to confirm key results.

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CONCLUSIONS:

These proteomic findings support the hypothesis that PNI leads to a fundamental reorganization of gene expression within the injured nerve. Our data identify a key association of ApoE with PNI that is regulated by metformin treatment. We conclude from the known functions of ApoE in the nervous system that ApoE may be an intrinsic factor linked to nerve regeneration after PNI, an effect that is further enhanced by metformin treatment.

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Volume 107 of the series Experientia Supplementum [2016] from University of Texas Dallas

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Abstract:

Chronic pain is a major clinical problem that is poorly treated with available therapeutics. Adenosine monophosphate-activated protein kinase (AMPK) has recently emerged as a novel target for the treatment of pain with the exciting potential for disease modification. AMPK activators inhibit signaling pathways that are known to promote changes in the function and phenotype of peripheral nociceptive neurons and promote chronic pain. AMPK activators also reduce the excitability of these cells suggesting that AMPK activators may be efficacious for the treatment of chronic pain disorders, like neuropathic pain, where changes in the excitability of nociceptors is thought to be an underlying cause. In agreement with this, AMPK activators have now been shown to alleviate pain in a broad variety of preclinical pain models indicating that this mechanism might be engaged for the treatment of many types of pain in the clinic. A key feature of the effect of AMPK activators in these models is that they can lead to a long-lasting reversal of pain hypersensitivity even long after treatment cessation, indicative of disease modification. Here, we review the evidence supporting AMPK as a novel pain target pointing out opportunities for further discovery that are likely to have an impact on drug discovery efforts centered around potent and specific allosteric activators of AMPK for chronic pain treatment.

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Targeting adenosine monophosphate-activated protein kinase (AMPK) in preclinical models reveals a potential mechanism for the treatment of neuropathic pain.

Mol Pain [2011] from University of Arizona

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Abstract

Neuropathic pain is a debilitating clinical condition with few efficacious treatments, warranting development of novel therapeutics. We hypothesized that dysregulated translation regulation pathways may underlie neuropathic pain. Peripheral nerve injury induced reorganization of translation machinery in the peripheral nervous system of rats and mice, including enhanced mTOR and ERK activity, increased phosphorylation of mTOR and ERK downstream targets, augmented eIF4F complex formation and enhanced nascent protein synthesis. The AMP activated protein kinase (AMPK) activators, metformin and A769662, inhibited translation regulation signaling pathways, eIF4F complex formation, nascent protein synthesis in injured nerves and sodium channel-dependent excitability of sensory neurons resulting in a resolution of neuropathic allodynia. Therefore, injury-induced dysregulation of translation control underlies pathology leading to neuropathic pain and reveals AMPK as a novel therapeutic target for the potential treatment of neuropathic pain.

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Contrasting effects of chronic, systemic treatment with mTOR inhibitors rapamycin and metformin on adult neural progenitors in mice.

Age [20124, from University of Arizona

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Abstract:

The chronic and systemic administration of rapamycin extends life span in mammals. Rapamycin is a pharmacological inhibitor of mTOR. Metformin also inhibits mTOR signaling but by activating the upstream kinase AMPK. Here we report the effects of chronic and systemic administration of the two mTOR inhibitors, rapamycin and metformin, on adult neural stem cells of the subventricular region and the dendate gyrus of the mouse hippocampus. While rapamycin decreased the number of neural progenitors, metformin-mediated inhibition of mTOR had no such effect. Adult-born neurons are considered important for cognitive and behavioral health, and may contribute to improved health span. Our results demonstrate that distinct approaches of inhibiting mTOR signaling can have significantly different effects on organ function. These results underscore the importance of screening individual mTOR inhibitors on different organs and physiological processes for potential adverse effects that may compromise health span.

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Two Weeks of Metformin Treatment Enhances Mitochondrial Respiration in Skeletal Muscle of AMPK Kinase Dead but Not Wild Type Mice

.PLoS One from University of Copenhagen [2013].

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Abstract:

Metformin is used as an anti-diabetic drug. Metformin ameliorates insulin resistance by improving insulin sensitivity in liver and skeletal muscle. Reduced mitochondrial content has been reported in type 2 diabetic muscles and it may contribute to decreased insulin sensitivity characteristic for diabetic muscles. The molecular mechanism behind the effect of metformin is not fully clarified but inhibition of complex I in the mitochondria and also activation of the 5′AMP activated protein kinase (AMPK) has been reported in muscle. Furthermore, both AMPK activation and metformin treatment have been associated with stimulation of mitochondrial function and biogenesis. However, a causal relationship in skeletal muscle has not been investigated. We hypothesized that potential effects of in vivo metformin treatment on mitochondrial function and protein expressions in skeletal muscle are dependent upon AMPK signaling. We investigated this by two weeks of oral metformin treatment of muscle specific kinase dead α2 (KD) AMPK mice and wild type (WT) littermates. We measured mitochondrial respiration and protein activity and expressions of key enzymes involved in mitochondrial carbohydrate and fat metabolism and oxidative phosphorylation. Mitochondrial respiration, HAD and CS activity, PDH and complex I-V and cytochrome c protein expression were all reduced in AMPK KD compared to WT tibialis anterior muscles. Surprisingly, metformin treatment only enhanced respiration in AMPK KD mice and thereby rescued the respiration defect compared to the WT mice. Metformin did not influence protein activities or expressions in either WT or AMPK KD mice.

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We conclude that two weeks of in vivo metformin treatment enhances mitochondrial respiration in the mitochondrial deficient AMPK KD but not WT mice. The improvement seems to be unrelated to AMPK, and does not involve changes in key mitochondrial proteins.

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Effects of metformin on microvascular function and exercise tolerance in women with angina and normal coronary arteries

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Journal of the American College of Cardiology [2006], from University of Glasgow Cardiovascular Research Centre
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Abstract:

We conducted an 8-week double-blind, randomized, placebo-controlled study of metformin 500 mg twice a day in 33 women with a prior history of normal coronary angiography but 2 consecutive positive (ST-segment depression ≥1 mm) exercise tolerance tests. Women randomized to metformin (n = 16) showed significant improvements in endothelium-dependent microvascular function (p < 0.0001) and maximal ST-segment depression (p = 0.013), and a trend (p = 0.056) toward reductions in chest pain incidence relative to placebo recipients. Hence, metformin may improve vascular function and decrease myocardial ischemia in nondiabetic women with chest pain and angiographically normal coronary arteries. Larger controlled trials of longer duration are warranted.

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The material on this site is for informational purposes only.

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It is not legal for me to provide medical advice without an examination.

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It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

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This site is not for email and not for appointments.

If you wish an appointment, please telephone the office to schedule.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Metformin Targets Aging – no lactic acidosis, no significant hypoglycemia in 18,000 patients-years of follow-up


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Metformin targets multiple pathways affected by aging (pdf)

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Authors Nir Barzilai, Jill P. Crandall, Stephen B. Kritchevsky, and Mark A. Espeland from aging research centers at Albert Einstein Medical School and Wake Forest Medical School, Cell Metabolism June 2016

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….in 2012, when over 18,000 patients-years of follow-up had accrued, and by which time 20% of the cohort was age 70 or older (mean age 64). There were no cases of lactic acidosis or significant hypoglycemia (Diabetes Prevention Pro- gram Research Group, 2012). Mild anemia occurred in 12% of metformin-treated participants versus 8% in the placebo group (p = 0.04). Vitamin B12 deficiency occurred in 7% of metformin group versus 5% in placebo group after 13 years; risk of B12 deficiency increases with duration of use but was not greater in older compared with younger subjects in DPPOS (Lalau et al., 1990). Further, the risk of lactic acidosis appears to be related to renal function, not age per se, and is currently considered to be very low (Aroda et al., 2016).

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B12 deficiency is related to MTHFR. I prescribe the doses of B vitamins to take daily, as published by University of Oxford for seniors. Their work shows it prevents 90% of brain atrophy in those areas that are known to involve Alzheimers Disease [avoid toxic B6 doses that damage brain].

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When time permits, I will be adding more on metformin.

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If low blood sugar (hypoglycemia) occurs, juice works quickly but rapidly disappears and then blood sugar is low again in minutes. Use good diet practices, and use plenty of small protein snacks if needed. Protein lasts longer and does not trigger sugar spikes like juice.

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Common side effects, if present at all, are mostly GI such as diarrhea, nausea, gas, distension of the belly with discomfort, indigestion, anorexia, headache, asthenia. If present, stop the drug, wait till all resolve, and very slowly, increase only as tolerated. This is not a speed test.

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Lactic Acidosis potential rare side effect

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The potentially serious side effect of concern is lactic acidosis. I advise patients to review its list of potential side effects.

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http://www.medsafe.govt.nz/profs/PUarticles/5.htm

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https://www.healthgrades.com/conditions/lactic-acidosis–symptoms

Introduction

Symptoms

Causes

Treatments

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What are the symptoms of lactic acidosis?

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Symptoms of lactic acidosis may include nausea and vomiting, abdominal pain, weakness, rapid breathing, rapid heart rate or irregular heart rhythm, and mental status changes.

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Common symptoms of lactic acidosis

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If you experience lactic acidosis, it may be accompanied by symptoms that include:

Abdominal pain

Anxiety

Fatigue

Irregular heart rate (arrhythmia)

Lethargy

Nausea with or without vomiting

Rapid breathing (tachypnea)

Rapid heart rate (tachycardia)

Shortness of breath

Weakness

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Serious symptoms that might indicate a life-threatening condition

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In some cases, lactic acidosis can be life threatening.

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Seek immediate medical care (call 911) if you, or someone you are with, have any of these life-threatening symptoms including:

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Bluish coloration of the lips or fingernails

Change in level of consciousness or alertness, such as passing out or unresponsiveness

Chest pain, chest tightness, chest pressure, palpitations

High fever (higher than 101 degrees Fahrenheit)

Not producing any urine, or an infant who does not produce the usual amount of wet diapers

Rapid heart rate (tachycardia)

Respiratory or breathing problems, such as shortness of breath, difficulty breathing, labored breathing, rapid breathing, or not breathing

Severe abdominal pain

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The material on this site is for informational purposes only.

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It is not legal for me to provide medical advice without an examination.

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It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~

This site is not for email and not for appointments.

If you wish an appointment, please telephone the office to schedule.

~~~~~

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Please IGNORE THE ADS BELOW. They are not from me.

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METFORMIN for Nerve Pain


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Is metformin the new wonder pill or snake oil? Based on one man’s response to metformin and recent exciting research on the drug, I am looking forward to finding out how it works clinically for my patients with intractable pain (and possibly treatment resistant depression). Hopefully most will confirm it is well tolerated. I am just beginning to trial it after learning this one man’s amazing story:

 

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50% relief of nerve pain &

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musculoskeletal pain

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after 2nd week on metformin

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One Man’s Story

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A few days ago I spoke with a man, not my patient, who had 50% relief of pain after the second week on metformin. He’s taken it for 3 months now, but the big change came dramatically after the second week when he had been on the 2,000 mg dose a full week. In 2013, he was on the side of the freeway median lane, and had crawled into the engine of his disabled Ford F350 reaching in with his left hand when his vehicle was hit by a Lexus SUV going 70 mph and he was thrown. He doesn’t talk about his pain. Ever. He needs total knee replacement in the next few weeks, and has had four surgeries on his left wrist, mangled in that engine, now with a long steel plate in the wrist. He broke the titanium plate and it wasn’t healing. Since metformin, the skin and surgical scar is healing. He’s one of these quiet guys who don’t ever talk about pain. His wife simply said these days he’s sleeping since on metformin.

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But no one had asked him about pain since on metformin or for years either. It took 30 minutes to get one little bit of information from him on pain, like pulling teeth: Since metformin, he’s had 50% relief including the nerve pain at his wrist.

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She said he used to sit up all night in pain for years and was very irritable. Irritability is what happens with no sleep; pain is worse with no sleep. I could not get him to rate his pain. Stoic. Bright man, stoic. Devilish sense of humor. Severe pain for so many years he would never talk about. His surgeon had him stop the Vicodin 5/325 weeks before his last surgery “to help it heal.”

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Some of his relief may have also been influenced by blood sugar dropping from 170 to 90, no more excessive thirst and urination keeping him awake, but the neuropathic pain at his wrist had been nasty a few years. Pain had kept him up for months. He had no side effects.

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Metformin

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Metformin is a medication approved in Canada in 1972 and in the United States by the FDA in 1994 for type 2 diabetes. It is well tolerated when prescribed for people who do not have diabetes but who have other conditions such as PCOS (polycystic ovary syndrome), infertility; and it is the focus of intense activity being studied for its

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(1) anti-aging (PDF from Wake Forest University or the Albert Einstein Medical School Longevity study clinicaltrials.gov), 

(2) anti-cancer (ithas become the focus of intense research as a potential anticancer agent” per Cancer Treat. Res. publication 2014) and now recently being studied for

(3) anti-inflammatory analgesic effects.

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“Metformin increases the number of oxygen molecules released into a cell, which appears to boost robustness and longevity. It works by suppressing glucose production in the liver and increasing insulin sensitivity, therefore benefiting patients with type 2 diabetes.”

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I am very interested by all the new research being done on an old drug, metformin, that has suddenly turned heads in just the last few months as we learn its mechanisms involving the pain matrix. Is this metformin some miracle drug, another hot trendy bandwagon people jump on in medicine? It’s an old drug already FDA approved, now repurposed, with excellent safety, and four months ago a publication shows it to be a glial modulator and anti-inflammatory, centrally active. Best of all, it was dramatically potent in the setting of this man’s intractable nerve and musculoskeletal pain.

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But how do we get from 1994 to 2017, through the Decade of Pain, seeing patients who have astonishing pain relief without asking a single patient, millions of patients if it helped pain? A recent past president of the American Endocrine Society said: “No good data on metformin to treat pain. Everything else, but not pain.” He also said, “Safe. We do it all the time for people with PCOS, infertility, cancer, etc. The anti-aging people use it all the time. No risk of hypoglycemia. Just be sure their GFR is above 40.” So ask your doctor who may not know it’s hot research right now.

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When was it first mentioned for pain?

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Less than one year ago, a report on metformin’s use for pain was a 2016 poster presentation at the annual meeting of the American Pain Society from Ted Price’s lab at University Texas Dallas. “The AMPK activator metformin has been shown by our lab to reverse the effects of chronic neuropathic pain in various short term studies….The treatment successfully decreased the hypersensitivity and cold allodynia associated with neuropathic pain, and showed persistent relief for several weeks post-injection. Metformin also decreased the activation of microglia in the spinal cord.”

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I have cautiously held back prescribing it for pain until I heard this man’s story a few days ago, and days later I am still astonished at the relief he had. I immediately suspected metformin must be a strong glial modulator and that mechanism was confirmed in a publication four months ago, in animal (discussed at end).

 

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 SIDE EFFECTS

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If some develop side effects, stop the medication until all side effects are zero. Then at your own body’s rate, as slowly as needed, increase if needed to 1000 mg twice daily.

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If you again have side effects, again stop til all are zero. Maybe your top dose with no side effects is less than 2,000 mg/day.

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More information on potential side effects  are on the next metformin post – almost none in 18,000 patient years, and not a single case of lactic acidosis.

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STUDIES NEEDED

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It would be extremely helpful to see a study on metformin’s use for pain in a major cancer center, including the range of all underlying diagnoses of those patients who may not be in best of health.  What are % of side effects?

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INFLAMMATION

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Metformin helps inflammation. Inflammation is the cause of 90% mortality. Almost all disease in the body begins with inflammation including atherosclerosis that leads to plaque, heart attacks, stroke. And the same risk factors for heart disease are same for Alzheimers. Inflammation manifests differently in each of us, but to relieve pain, major depression, bipolar disease, PTSD, it can be very dynamic to see response in a few hours once you have the right dose and combination of glial modulators. If this one can relieve 50% of severe chronic pain in two weeks, with few or no side effects, then millions can benefit now. It is an old generic drug repurposed for pain, that is anti-inflammatory. Best of all anti-inflammatory up there in the brain where the inflammatory cytokines produced by glia make you feel like you have the flu:  difficulty thinking, fatigue, drowsy, achey, irritable, needing sleep. That is inflammation. The innate immune system going into gear to attack a virus or…..damage.

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Studies reported about 2001, NIMH showed brain atrophy and memory loss in chronic depression, and about 2009 others showed the same in chronic low back pain.

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My focus for years has been on inflammation in the CNS (brain, spinal cord) because NSAIDs like ibuprofen, Aleve, do not reach the CNS and do not interact on the cells of interest: glia, the cells of the innate immune system that produce a balance of anti-inflammatory and pro-inflammatory chemicals called cytokines. BALANCE.

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Tolerance is a big issue in treating pain or major depression. I strongly recommend reading yesterday’s post on tolerance, i.e. when the body stops responding to ketamine or morphine or an antidepressant after several days or weeks or years. Inflammation may be one cause.

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A publication four months ago shows metformin has both immune and glial suppressive effects that can relieve tolerance to morphine.  It’s a centrally acting analgesic because that’s where chronic pain or major depression is, in the CNS.

 

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MECHANISM of PAIN RELIEF

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It has both immune and glial suppressive effects: J Neuroinflammation. 2016 Nov 17;13(1):294.

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Metformin reduces morphine tolerance by inhibiting microglial-mediated neuroinflammation.

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ABSTRACT

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BACKGROUND:

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Tolerance [see post on this subject yesterday] seriously impedes the application of morphine in clinical medicine. Thus, it is necessary to investigate the exact mechanisms and efficient treatment. Microglial activation and neuroinflammation in the spinal cord are thought to play pivotal roles on the genesis and maintaining of morphine tolerance. Activation of adenosine monophosphate-activated kinase (AMPK) has been associated with the inhibition of inflammatory nociception. Metformin, a biguanide class of antidiabetic drugs and activator of AMPK, has a potential anti-inflammatory effect. The present study evaluated the effects and potential mechanisms of metformin in inhibiting microglial activation and alleviating the antinociceptive tolerance of morphine.

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RESULTS:

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We found that morphine-activated BV-2 cells, including the upregulation of p38 mitogen-activated protein kinase (p38 MAPK) phosphorylation, pro-inflammatory cytokines, and Toll-like receptor-4 (TLR-4) mRNA expression, which was inhibited by metformin.Metformin suppressed morphine-induced BV-2 cells activation through increasing AMPK phosphorylation, which was reversed by the AMPK inhibitor compound C. Additionally, in BV-2 cells, morphine did not affect the cell viability and the mRNA expression of anti-inflammatory cytokines. In bEnd3 cells, morphine did not affect the mRNA expression of interleukin-1β (IL-1β), but increased IL-6 and tumor necrosis factor-α (TNF-α) mRNA expression; the effect was inhibited by metformin. Morphine also did not affect the mRNA expression of TLR-4 and chemokine ligand 2 (CCL2). Furthermore, systemic administration of metformin significantly blocked morphine-induced microglial activation in the spinal cord and then attenuated the development of chronic morphine tolerance in mice.

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CONCLUSIONS:

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Metformin significantly attenuated morphine antinociceptive tolerance by suppressing morphine-induced microglial activation through increasing AMPK phosphorylation.

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The material on this site is for informational purposes only.

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It is not legal for me to provide medical advice without an examination.

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It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~

This site is not for email and not for appointments.

If you wish an appointment, please telephone the office to schedule.

~~~~~

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Please IGNORE THE ADS BELOW. They are not from me.

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Spinal Cord Stimulators – comment on RSD


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Spinal Cord Stimulators 

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 Craig’s comment

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By no means do I mean to say that I or anyone else has better insight into how to treat pain, but I am against spinal cord stimulators [SCS’s] for treatment of pain due to CRPS, and possibly against use in other situations. I demand that the billions in profit they made be put into a retrospective and prospective study of damage caused by them in order for them to give full informed consent.

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I have 3 goals writing this.

  1. SCS’s

  2. Craig’s experience

  3. The Only Real Answer for severe pain, not damaging the system with opioids

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Informed consent is never given for spinal cord stimulators because it requires truth telling, something our corporations have been reluctant to do. Business ethics are not medical ethics, as we keep being reminded daily in the headlines.

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I enclose, below, a generously expressed and detailed comment by a man who had the patience to sit down and  write the painfully gory details so you can weigh-in on your decision whether to follow your pain specialist’s opinion to give you one. I don’t want anyone to feel suckered into choosing them and if I had pain I’ll admit I’d crave relief too. Anything. I’d be in line before the doors open.

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But if you have CRPS, spinal cord stimulators will create more pain. CRPS evolves unpredictably, by a will of its own. I know some very desperate patients with CRPS everywhere including face, mouth, gums, tongue, organs, trunk, limbs. Spinal cord stimulators will create more pain. Keep in mind, I don’t see the 5 year success stories even for lumbar disc pain. They don’t need me if they are pain free.

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But if you have CRPS and desperate need for pain relief because all else has failed — every known drug in highest possible doses of ketamine, propofol, opioids for weeks in ICU fail to even touch pain— there is one thing, and only one thing to do and I will set it out below. I just sent my recommendation to a patient with CRPS in extreme pain.

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My recommendation, below, is for patients who have nowhere else to turn.

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First I’ll mention the problems Craig encountered with SCS’s. He sent his comment to the opening page of this blog, so I will reproduce below. 

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I am currently undergoing a trial Medtronic SCS. I have had to have it reprogrammed 3 times since it was installed 5 days ago. I have had sensations and issues that I have addressed with my rep and my neurosurgeon. I get a severe headache when the unit is turned on. I get the constant feeling of having to urinate. I have current running through my testicles which they can not seem to program out and I am getting little pain relief. I have had to failed back surgeries, many failed injections and I have CRPS. The leads that were inserted when I was in the table covered my mid back and both legs. After I got to my feet and waited while they programmed the unit in another room. They came in and plugged it in and I no longer had coverage on the right side. My crps is in both legs, my hands, arms and face. The lyrica helped to tamp down some of the burning but I am in pain 24/7 and this was my last resort. I have scar tissue completely surrounding my S1 nerve. By the grace of God, I am on my feet, on crutches. I seem to get a look of disbelief when I tell them the unit is causing these issues or it’s not giving me the relief I was counting on. Relief, only to cause greater issues and pain. Is not relief to me. I can not wait to get this trial out of my back. I believe the leads slipped and that is why I am not getting the full coverage I had on the table. The issues I have had are as follows: severe headache, constant feeling of having to urinate, extreme joint pain, abdominal pain, sleeplessness, involuntary jerking, surges in current even when sitting still. Intense pain around the lead insertion site. Current uncomfortably running through my testicles, regardless of setting. It is my opinion there is still not a lot known about crps and I have read evidence of people have great success with these units. Everyone reacts differently. My body obviously creates a lot of scar tissue and my orthopedic surgeon created a fair amount herself. I can’t imagine even more or being forced into a chair for yet another unlucky decision. The medication helps and I have lived this far without the optimism that it would end soon. I had high hoed for this device but I don’t think it is right for me.

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One of my patients with CRPS was hospitalized for weeks with recurring unusual abscesses and required repeated surgery of hand and forearm. Even before surgery, she had failed opioids, failed ketamine, and was in ICU for weeks and weeks while the same medications were still given along with Propofol and IV Tylenol. Nothing helps her extreme pain.

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Anesthesiologists on staff in ICU threw everything they had at the pain for weeks. Most anesthesia pain doctors would have probably done what they did because that is the limit of tools we have.

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When you have hit the limit of benefit from opioids, ketamine, propofol, we have nothing else that treats pain with one exception: drug holiday.

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Stop all analgesics including Tylenol that destroys the liver as severely as cancer, the severity of which was newly discovered and published yesterday.

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The receptors for these analgesic drugs have up-regulated to such an extent they have caused the situation. Again, I stress, everything that was done during the ICU admissions would be done by any anesthesiology pain specialist. Those are the only tools. They cause the problem. The same for opioid induced hyperalgesia. We used to do it with Parkinson’s drugs in the 80’s.

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The only way to rehabilitate the up-regulation of all those receptors that have now exploded in numbers, immune to anything you throw at them, is stop the drugs.  Stop all of them for weeks, maybe months, years, no one knows, you are all the human guinea pig waiting to happen. But if we restart them, how long do we wait, how quickly will it again lead to this massive hyper-excitable state of pro-inflammatory cytokines that we know have gone wild, flooding the CNS. A flooded engine will not restart.

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Ketamine at least is known to reduce pro-inflammatory cytokines, but the system is too busy exploding, birthing new receptors that take over, and you’ve got a 55 car pile up. Well, more like millions I’d guess. No scientist here. Clnically, when can we resume something after a drug holiday, how soon and which drug? I’d avoid opioids because they create more pro-inflammatory cytokines. Choose ketamine, because they reduce pro-inflammatory cytokines, but if it works at all, stop it at first sign of tolerance, which is the need for increased dose. It becomes less effective. Walk a fine line, endure more pain because unless you do, it will no longer help. Opioids, analgesics of many kinds. 

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How do we get you through a drug holiday because we know withdrawing these drugs will trigger even more pain for possibly weeks until the system settles down?

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Pain storms, hurricanes

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This is complex regional pain syndrome where we see this insanity of pain storms. There is no other condition, unless several neuropathic pains in people with cancer, nowhere I have seen this type of pain in decades except CRPS – comparable to pain of subarrachnoid hemorrhage, blinding pain.

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No one has answers. None. One university does outpatient infusions of ketamine six hours daily for 8 to 12 weeks. Does it help? A small percentage. Outpatient, 6 hours daily, 5 days a week, staying at a hotel, 8 weeks.

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This is CRPS/RSD. No one has answers. It is futile to throw more of the drug in the system. That is my opinion. You have a choice and may choose otherwise. It is your body. You may stay on monthly opioids for decades, until you finally admit how poorly they work. A drug holiday is what we did in the 70s during my ancient training with Parkinson’s patients. They needed full 24-hour support. The American medical system has changed since then and those are not options currently available—cost.

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You need full psychological and psychiatric support.

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The Only Real Answer

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The country needs to invest $10 million to complete the clinical trials needed for an injectable, long-lasting interleukin 10 [IL-10], the anti-inflammatory cytokine. It already has full scientific and animal studies performed by and with the world’s foremost glial scientist at University of Colorado Boulder. Professor Linda Watkins has won awards from many countries. She has been the keynote speaker at the annual academy pain meetings for years. IL-10 can relieve pain for three months in animals that have intractable chronic neuropathic pain. This is not new —–NIH I’m looking at you to fund clinical trials. And those of you who care, do a Kickstarter to fund the clinical trials.

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This is the power of the innate immune system. NIH would rather fund research on the unknowns like stem cells rather than the known. It’s known for decades, NIH does not like to fund pain research. Glia are not all about pain. They are the innate immune system, the key to Alzheimer’s, neurodegenerative diseases, almost all known disease including atherosclerosis. It’s all about inflammation. We need the trials to stop giving drugs that cause inflammation, opioids —–CDC fiats are not as good as a drug that relieves pain, a drug that really works on mechanism. Where will the addicts go if the ER only has IL-10 for pain? That is one way to overspend on ER visits.  And NIH, please get us some real clinical research funding on how to use glia for our benefit. Get us some research on the entourage effect, combining medications to achieve relief especially for neuropathic pain.

Then bring on some crack negotiating teams from insurers to do some negotiation about pharmaceutical prices. Our new president has mentioned that.

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Please bring this to everyone’s attention. One way to get a grip on pain and/or depression is to build hope, help others, and energize behind a goal.

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Kickstarters work to raise tens of millions overnight. 

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IL-10 – animals have been shown to be pain free for three months, already proven in animal studies, by one of the world’s most widely acknowledged pain specialists Professor Linda Watkins, PhD. We need the final steps to fund the clinical trials in humans.

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The material on this site is for informational purposes only.
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It is not legal for me to provide medical advice without an examination.

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It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

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This site is not for email and not for appointments.

If you wish an appointment, please telephone the office to schedule.

~~~~~

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Please IGNORE THE ADS BELOW. They are not from me.

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NFL – Prevent &Treat Chronic Traumatic Encephalopathy, CTE – Opioids Blamed Wrongly


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Crowdfunding Needed

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Prevent and Treat

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Chronic Traumatic Encephalopathy

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C.T.E.

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Opioids Wrongly Blamed

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Leagues may have known about this technology since 2002 publications

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Football players have demonstrated ability to influence others

and raise money for important medical causes.

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This is not about class action law suits.

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This can be imaged early and likely treated.

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It’s about science and bringing medicine into the 21st century.

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A paradigm shift began with the discovery

of the innate immune system by internationally recognized scientists in 1991.

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The clock has been turned off.

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We can change this now.

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Funding is needed for internationally recognized leaders to continue this work.

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The tragic deaths of former NFL football players from repeated concussions has led to brain damage and death from Chronic Traumatic Encephalopathy (CTE). Suicide profoundly shocks us when many players like Junior Seau at age 43 and now Tyler Sash, die at age 27. He is the youngest found to have such extensive brain damage, as bad as that seen in Junior Seau. So much can be done with state of the art science now that has been ignored.

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Disclosure: I was asked by a research institute if I would evaluate retired NFL players. I chose not to do that so that I might be free to post unbiased information that is not subject to being manipulated by either side in the ongoing appeals for compensation that must be going on with the NFL for $70 million. Tragic that this is such a fight. Even more tragic, this may be diagnosed early and treated.

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Pearls

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Fear of compensation claims after concussion injury prevents imaging of football players and veterans early, while still treatable, before severe changes and death.

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Fear of compensation claims has prevented decades of research funding by internationally recognized scientists. Could politics at NIH & the VA have turned off funding for veterans with pain and with concussion blast injuries? Does cancer and heart disease forever lock up all the research money and now it shifts to stem cells?

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It is inaccurate to say that CTE cannot be diagnosed except after death at autopsy.

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PET scan imaging of glia can show changes early, while alive.

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The ligand PK1195 must be used for PET scan to image glia, available for years in Australia, not yet in America.

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FDA approval must be obtained for the ligand PK1195 before it is used to  image glia in the United States.

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CTE can be diagnosed early.

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CTE is likely to be treatable.

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Internationally distinguished scientists have shown reversal of complete paralysis in rat models of multiple sclerosis in 2010, a so called “degenerative” neurological disease.

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Intractable pain and treatment resistant depression can be put into remission with glial modulators. Surely CTE and other neurological diseases can be approached with scientifically recognized mechanisms and treatments – even if doctors are not aware of the paradigm shift and how to modulate neuro-inflammation. See years of posting on this site since 2009 based on the most important finds in the field of neuroscience for more than 100 years: the innate immune system, glia, neuro-inflammation, and ability to use glial modulators, to modulate intractable conditions that are known to lead to suicide and/or death.

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Paradigm shifts in all fields including medicine, fail to be recognized.

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CTE gives opioids a bad name and misled Taylor Sash and likely others from the diagnosis of CTE that caused years of severe forgetfulness and behavior changes. He may have chosen suicide by opioid.

 

 

 

FACT:

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Trauma such as concussion or infection or stroke triggers inflammation in the brain:  “cytokine storm”

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Inflammation kills brain cells

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Inflammatory cytokines (inflammation) are produced by glia that has been activated by trauma or other causes such as infection, stroke, etc.

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Activated glia produce neuroinflammation and cell death.

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Inflammatory cytokines produce pain and “degenerative” neurological and psychiatric disorders including dementia, depression, anxiety, delirium and death.

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Neuro-inflammation in brain has been found in teens with early signs of schizophrenia, in rats made depressed, and rodents with chronic pain.

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Glia have been detected in life, in vivo, with PET scan imaging, by internationally-recognised radiologist working at Imperial College London, now based in Australia.

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PET scans require a ligand, PK1195, approved for years in Australia – must be approved by FDA in the United States before it can be used here.

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There is good clinical data and publications in animal models to show that damage in brain and spinal cord produced by activated glia can be reversed.

E.g., In 2010, total paralysis has been completely reversed in a rat model of multiple sclerosis by internationally-recognised glial researcher who, in 1991, transformed the understanding of glia that comprise 85% of the brain, since then known to be the innate immune system.

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Publications have shown that patients with major depressive disorder and patients with chronic low back pain have memory loss and brain atrophy.

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Opioids cause pain by stimulating production of inflammatory cytokines that are known to damage neurons in brain and spinal cord – and must be tapered off. We have better treatment for pain.

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Insurance carriers routinely deny payment for recognized medications and procedures to relieve pain.

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CDC is planning a nationwide experiment to radically limit opioids.

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Treatment with glial modulators that reduce neuroinflammation has been shown clinically to relieve treatment resistant major depressive disorder, PTSD, bipolar depression and intractable pain. They are neuroprotective.

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We need to be able to flag players off the field early and intervene with treatment such as glial modulators either before, during or after repeated injury.

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GOALS

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1.  PK1195, a ligand for PET scans, must be tested and approved by FDA. Approval is mandatory for all medications or substances injected into vein or body.

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It simply “tags” the PET scanner to image glia, the cells of the innate immune system that are activated by trauma, infection, stroke, etc.

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2. Do serial PET scans using PK1195 to image glia in NFL players and veterans after blast injury.

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Trauma from concussion is causing cytokine storm, killing brain cells –> ultimately end stage dementia, anxiety, depression, suicide

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3. Flag that player off the field. Follow glial changes during treatment to determine if able to return or if permanent, but prior to end stage damage.

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4.  Treat with glial modulators preventively, early, middle, and/or late

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This subject will be continued. My apologies for lack of time to delete and edit. Days pass by quickly to post brief comments. Time is limited. Please send comments, below.

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The material on this site is for informational purposes only.

It is not a substitute for medical advice,

diagnosis or treatment provided by a qualified health care provider.

Relevant comments are welcome.

If any questions, please call the office to schedule an appointment.

This site is not email for personal questions.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Please be aware any advertising on this free website is

NOT advocated by me and NOT approved by me.

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Intranasal Ketamine in Major Depressive Disorder


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Physicians at Icahn School of Medicine at Mount Sinai, New York, studied intranasal ketamine in 18 patients with Major Depressive Disorder, published in 2014:

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A Randomized Controlled Trial of

Intranasal Ketamine in Major Depressive Disorder

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Conclusions

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“This study provides the first controlled evidence for the rapid antidepressant effects of intranasal ketamine. Treatment was associated with minimal adverse effects. If replicated, these findings may lead to novel approaches to the pharmacologic treatment of patients with major depression.”

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I have previously posted more detail on this study. They report a significant antidepressant effect occurred as early as 40 minutes in some. I have seen some respond in seconds. But the dose is unique and specific to each person and there is no response until that dose is reached.

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It is hoped that more studies will be funded, though that seems unlikely since congress slashed the NIH budget in 2010 by the unthinkable 30%, never done in history.

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Entire generations of scientists are now lost forever.

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Ketamine Safety

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Ketamine is one of the safest medications I have prescribed in 40 years of medicine. And I meticulously obtain laboratory studies at least twice a year to verify any potential harm as it has been reported in addicts that it may affect bladder, kidney, liver or biliary system. I first prescribed ketamine about 14 years ago for intractable pain rated 10 on a scale of 10 for 30 years; and prescribed ketamine since Spring 2012 for Major Depression. For years I searched to find a spray with a metered dosing system. Thus since late 2011, intranasal has been the delivery I find most useful. When given as nasal spray or under the tongue, not swallowed, it goes straight to the bloodstream, bypassing the liver, and works for depression because the liver does not convert it to a different metabolite.

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Nevertheless, it is important to stress that ketamine must be monitored for any possible adverse effects including toxicity and/or addiction. I require long distance patients to be followed by a psychiatrist or psychologist regularly while on ketamine. So far, my returning patients have been stable for years.

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Further, when given by the nasal or sublingual route, I do not see the side effects that my anesthesiology colleagues see after I.V. infusion. I’ve been in board meetings with some of the finest anesthsiology pain specialists in the country sharing and comparing experience. I don’t see those complications. But that is what is published and I.V. is how it is given in the few centers where ketamine is used for treatment of Major Depression or Bipolar Depression.

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Ketamine is a short acting medication whether it is given I.V. or nasally or under the tongue. But it is quite bitter and most prefer nasal delivery.  Review the case study of the professional who traveled out of state once or twice weekly for one year to receive I.V. ketamine. She had failed ECT 9 or 10 times – memory loss was so bad she got lost in her own neighborhood. She now does very well on a small dose every 48 hours given nasally. In the same post, I reported the patient with Juvenile Bipolar Disorder, Fear of Harm phenotype whose profound thermoregulatory abnormalities respond in seconds to ketamine, with a very small dose of 10 mg nasal spray every 3 days. That’s it! Temperature responds in seconds, and the depression responds in 10 minutes in her case.

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Unfortunately research protocols require the study of fixed dosages in order to be a cost effective study for one sample size at one dose to be even slightly meaningful, even then 18 patients studied at Mt. Sinai is a small study at the one dose they used.

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The principle that I have always used is “start low, go slow.” That allows for the discovery that some large men may require the tiniest dose and some tiny 90 pound seniors may require some of the largest doses I’ve seen. It cannot be predicted by body weight. Anesthesiologists generally think in terms of mg/kg body weight, for example the 0.5 mg/kg I.V. generally used for depression. But ketamine’s dosage variance is unrelated to weight. That likely explains why some develop frightening symptoms when given IV, and others do not respond. One size does not fit all. That method either under-doses or overdoses.

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There are case reports on this website giving examples of some individuals I have seen with Major Depressive Disorder. One man is unusual in needing a small dose only every 6 to 8 weeks, but most use the nasal spray daily or every second or third day. I suspect that after initially starting ketamine on a daily basis for one or two weeks, the frequency of dosing may be lowered to every two or three days. Less is more.

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Professor David Feifel at UCSD guesstimates that ketamine helps 70% of persons with Major Depression. I think that’s a fair statement given that we are unlikely even to see the unknown number who remain at home, forever feeling they are unable to leave their confinement. We know that effects of ketamine are blocked in mice that are deficient in BDNF. We may speculate that when ketamine fails in persons with Major Depression, that may be due to lack of BDNF. We know exercise helps Major Depression and exercise increases BDNF. Much more research is needed.

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The use of ketamine is essentially a first line drug for Complex Regional Pain Syndrome (CRPS). That may never be said in publications, but that has been the case for years in persons with CRPS who have failed all other medications. I specialize in CRPS, a form of neuropathic pain that leads to suicide more often than any other pain syndrome.

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For pain, intranasal ketamine is far shorter lasting, typically three hours, rarely six. And requires doses far higher than for Major Depression or Bipolar Depression. Even then, when used for pain six times daily in very high doses, it has proven to be profoundly safe with few if any side effects that last less than half an hour, if present at all.

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Inflammation

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The role of inflammation and glia in the pathogenesis of depression has been well established since 2000, and discussed here. The study of ketamine has taken on new life with the discovery that it profoundly lowers pro-inflammatory cytokines produced by microglia. Inflammatory cytokines have been shown to be elevated in chronic pain and in Major Depression. That is why I feel it is important to prescribe adjuncts that also lower inflammatory cytokines. And patients with Major Depression and Bipolar Depression have reported the adjuncts make ketamine stronger and last longer. Some don’t even need ketamine after awhile, but remain on the adjuncts.

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Ketamine is not a cure and I find it is best used with adjunct medication. In my experience, ketamine and adjunct medications are likely to help as long as prior to treatment, patients are still able to function, to work at least somewhat. I do have 4 patients in the last four years who have not left their home or their bed for many years, and they failed to respond. Sadly, one older woman had to be institutionalized for life, her melancholic depression was so deep. When ketamine is even partially effective, I have patients who had been too fatigued to work before treatment, yet who are able to return to graduate school for a PhD and do well for years on a stable dose. It is immensely rewarding to be a part of this unique therapy, to see them regain life and function after years of misery and disability.

 

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Studies

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S-Ketamine

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It is my hope to be able to compare S-ketamine, that is not yet FDA approved, with the racemic* ketamine that we now have, that was FDA approved in 1970 in high dose as an anesthetic. Obviously we do not use high anesthetic doses for control of pain or Major Depression. I understand unfortunately that when clinical studies are completed, S-ketamine will be available only in emergency departments.

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*Racemic means the molecule has equal amounts of left and right-handed enantiomers (mirror images) of a chiral molecule (meaning, you cannot superimpose the left hand with the right hand. They mirror but do not superimpose). Thus both left and right racemic ketamine mixture has been FDA approved, but the S-ketamine, the left sided molecule is considered a different drug, and must be FDA approved.

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Without FDA approval, ketamine can be studied with FDA permission that provides an Investigational New Drug (IND) application.

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Given the lack of funding for almost any research in this country, I would consider doing a patient-funded study if patients showed interest. It would be modeled on the intranasal study published in the Mt. Sinai study, above, i.e. short term, randomized, double blind, placebo controlled.

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It is reported that S-ketamine may be more effective with fewer side effects. This must be proven and cannot be taken at face value without several studies. Shockingly, some publications in recent years have been fabricated and woven into mythology.

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Finally, ketamine is off-label for pain and for major depression.

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Papolos et al have published Clinical experience using intranasal ketamine in the treatment of pediatric bipolar disorder/fear of harm phenotype

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“Ketamine administration was associated with a substantial reduction in measures of mania, fear of harm and aggression. Significant improvement was observed in mood, anxiety and behavioral symptoms, attention/executive functions, insomnia, parasomnias and sleep inertia. Treatment was generally well-tolerated.”

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PUBLIC WARNING

reprinted with permission of Demitri Papolos, MD
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Ketamine is a controlled substance.
Administered improperly, or without the guidance of a qualified doctor,
Ketamine may cause injury or death.
No attempt should be made to use Ketamine
in the absence of counsel from a qualified doctor.

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The material on this site is for informational purposes only.
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It is not legal for me to provide medical advice without an examination.

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It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~

This site is not for email and not for appointments.

If you wish an appointment, please telephone the office to schedule.

 

~~~~~

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Please ignore the ads below. They are not from me.

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Ketamine – small doses work in depression and bipolar disorder


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Everyone is very edgy right now with depression. Media is sensationalizing, which is the worst thing to do. I even hesitate to write this now.

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Ketamine really does work

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Small doses may be all that’s needed. Even large doses are safe.

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Two Cases

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I hate to play on emotion that is strong right now, but Robin Williams might be alive today if his doctors prescribed ketamine nasal spray.

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Every one, doctors and patients alike, worry about ketamine. It sells newspaper headlines and distorted media coverage that then overtakes the life saving stories of its profound safety when used under good medical supervision. Experience helps.

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Two cases from yesterday and today really must be shared. These two patients would not be alive today if they did not have ketamine nasal spray for their depression.

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I don’t mean to say every one will respond to these extremely tiny doses, but it’s always exciting to hear the effective dose is simply so small.

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These details would make good case reports if time permitted, but there is never enough time. I wanted simply to say a few things now because these two patients were seen.

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**1**

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In May 2014, saw a fifty-ish woman who is now responding to 20 mg (4 nasal sprays) given as one dose every 48 hours. She has been treated at well known university psychiatry departments, failed ECT 9 or 10 times – memory loss was so bad she got lost in her own neighborhood. Received IV ketamine once or twice weekly for one year before I saw her.

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Diagnoses:  dysthymia as long as she can remember, and 25 years of Major Depressive Disorder, PTSD, anxiety, etc. Olympic level athlete —

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**2**

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Second patient now in late teens, Juvenile Bipolar Disorder/Fear of Harm phenotype, profound thermoregulatory changes respond in seconds to ketamine, dose of 10 mg nasal spray every 3 days. That’s it! Temperature responds in seconds, and the depression responds in 10 minutes in her case. She was so violent before treatment that she had been hospitalized 7 times in 2-1/2 years. Doing very very well. And the low dose naltrexone, by the way, is involved in thermoregulation.

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I should mention, no side effects whatsoever. I have never seen toxicity. I watch kidney and bladder function meticulously, and patients with massive pain on very high doses have never had any organ toxicity.

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NEURO-INFLAMMATION AND GLIA – brain on fire.

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I mention Olympic athlete because so many people I see with Complex Regional Pain Syndrome – the pain that so often leads to suicide, seems to occur more often in top level athletes, either state or national level, professional or sponsored in their teens. Yes, they occur in others, but there is a striking predominance in athletes for unknown reasons.

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Glia are triggered by trauma, then they become activated and produce pro-inflammatory cytokines. Inflammation is out of balance. Ketamine profoundly reduces the pro-inflammatory cytokines, and so does low dose naltrexone. I write about these mechanisms with more frequency that anything else. This is what we must address – the brain is essentially “on fire.” And this inflammation, these pro-inflammatory cytokines, are involved in almost every known disease: Alzheimer’s disease, Parkinson’s disease, ALS, chronic pain, major depressive disorder, cancer, autoimmune disease, and atheroscloerosis.

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Inflammation kills. Unfortunately this new research on glia and inflammatory diseases, these diseases could be called gliopathies, all based on new research since the turn of the century. We now know glia are your innate immune system in brain and spinal cord. They need a balance the anti-inflammatory cytokines with the pro-inflammatory cytokines. Inflammation may be lifesaving when you have caught a virus, but not as a steady diet. Give the brain a break or it leads to hyperexcitable glutamate that triggers calcium flooding into the neuron, cell death, brain atrophy and memory loss. Seen in people with Major Depression and those with chronic low back pain.

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Do doctors know about the innate immune system? or the receptor that won the Nobel Prize 2 and 1/2 years ago? or glia?

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Answer: no.

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Papolos et al have published Clinical experience using intranasal ketamine in the treatment of pediatric bipolar disorder/fear of harm phenotype

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Ketamine administration was associated with a substantial reduction in measures of mania, fear of harm and aggression. Significant improvement was observed in mood, anxiety and behavioral symptoms, attention/executive functions, insomnia, parasomnias and sleep inertia. Treatment was generally well-tolerated.

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Dr. Papolos’ video on treatment points out, ketamine nasal spray is off-label

for Bipolar Disorder. And I add, ketamine is off-label for pain and for major depression.

He posts this:

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PUBLIC WARNING

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Public Warning: Ketamine is a controlled substance.

Administered improperly, or without the guidance of a qualified doctor,

Ketamine may cause injury or death.

No attempt should be made to use Ketamine

in the absence of counsel from a qualified doctor.

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“Off label” means it is FDA approved for another purpose, but he prescribes it for Juvenile Bipolar Disorder. I would add that in qualified hands, ketamine is one of the safest medications we have in our formulary.

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More later, as time permits.

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PUBLIC WARNING

reprinted with permission of Demitri Papolos, MD
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Ketamine is a controlled substance.
Administered improperly, or without the guidance of a qualified doctor,
Ketamine may cause injury or death.
No attempt should be made to use Ketamine
in the absence of counsel from a qualified doctor..

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~~~~~

The material on this site is for informational purposes only.

It is not a substitute for medical advice,

diagnosis or treatment provided by a qualified health care provider.

~~~~~

Please understand that it is not legal for me

to give medical advice without a consultation.

If you wish an appointment, please telephone my office.

.

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Palmitoylethanolamide “PEA” – Review of Anti-inflammatory, Analgesic, Neuroprotective Mechanisms


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A review of palmitoylethanolamide, or PEA, has been published this June by Mireille Alhouayek and Guilio G. Muccioli from the Bioanalysis and Pharmacology of Bioactive Lipids Research Group, Louvain Drug Research Institute, Bruxelles, Belgium.

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The authors review the impact of PEA on inflammatory and neurodegenerative diseases, and show that inhibiting the breakdown of PEA (the hydrolysis) may increase levels of PEA. This could lead to treatment of inflammatory and neurodegenerative diseases.

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To address the loss of PEA that occurs in various diseases we must either

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1.  replace the decreased levels of endogenous PEA that is made by the brain by taking a capsule such as PeaPure,  a food supplement that contains 100% palmitoylethanolamide, to reconstitute the needed levels

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2.  inhibit the breakdown (hydrolysis) of PEA.

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.I directly quote palmitoylethanolamide4pain that has outlined key quotes from that scientific review:

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They start outlining the focus of the paper:

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Our focus here is on PEA, which is a known anti-inflammatory compound with analgesic, neuroprotective and antiallergic properties.

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Important for understanding the therapeutic relevance of PEA is the next remark:

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Evidence suggests that PEA metabolism is disturbed during inflammation, and that a decrease in PEA levels contributes to the inflammatory response.

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This explains why it is so useful to administer exogenous PEA as a supplement during states of chronic inflammation. Decreased PEA levels induce more inflammation and a vicious circle has started. Administering PEA (for instance as PeaPure capsules of 400 mg, a foodsupplement) can stop this circle and help the organism to restore the PEA levels and decrease inflammation.

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PEA’s mechanism of action

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The next quote is related to PEA’s main mechanism of action:

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Although it is now clear that PEA is a ligand for PPAR-a, some of its effects occur through as yet unidentified receptors.

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Although there are many ways PEA acts in the cell, the PPAR-a receptor indeed seems the most important one; through that receptor PEA can downregulate overactive inflammatory responses.

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PEA levels also decreased following sciatic nerve constriction injury or ligation of the sciatic nerve in spinal cord and brain areas involved in nociception

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PEA levels are not only decreased during chronic inflammation, also during chronic pain states, such as in sciatic pain.

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The fact that an anti-inflammatory treatment restores PEA levels reinforces the role of PEA as an anti-inflammatory mediator.

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PEA levels can be restored also by treatment with classical anti-inflammatory compounds such as NSAIDs, this however triggers many side effects and that can be avoided by treating with PEA itself!

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PEA as a protective molecule

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In the brain, PEA levels seem to be increased following injurious stimuli, and this has been proposed as a homeostatic mechanism aimed at counteracting inflammation and blunting the inflammatory response.

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PEA has self-reparative properties and indeed can be defined as the molecule of self-reparation and self-protection.

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This ‘pro-homeostatic’ increase, although probably slowing disease progression, seems insufficient to exert anti-inflammatory effects in itself, and should be further amplified…

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One of the classical ways to amplify PEA is to administer it as food supplement: start dose is 1200 mg/daily and in cases of insufficient response we suggest to double the dose.

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Although the first identification of PEA as an anti-inflammatory compound occurred more than 50 years ago, general interest in its anti-inflammatory and analgesic properties was not sparked again until the mid-1990s.

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It was due to the work of the Nobel laureate professor Rita Levi-Montalcini that the scientific community understood the importance of PEA in the 90s. However, as patents on this natural compound were not possible, no great interest emerged, as pharmaceutical companies were uninterested. It was due to the work of small companies, such as Epitech Srl and JP Russell Science that PEA was brought to the attention of the general public.

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Mechanism of action in addition to the PPAR receptor

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The authors nicely summarized the effects of PEA:

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PEA inhibits phosphorylation of kinases involved in activation of pro-inflammatory pathways, such as mitogen-activated protein kinase (MAPK), c- Jun N-terminal kinase (JNK) and extracellular signal-regulated kinases (ERK), and the nuclear translocation of the transcription factors nuclear factor (NF)-kB and activator protein 1 (AP-1) and prevents degradation of the inhibitory IkB-a, which when associated to NF-kB prevents its nuclear translocation.

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Besides reducing inflammatory cells activation and recruitment, PEA modulates the expression of enzymes involved in pro-inflammatory processes, such as COX-2 and inducible nitric oxide synthase (iNOS) and reduces nitric oxide and pro-inflammatory cytokines production in vitro and in vivo.

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Relevance for Alzheimer, Parkinson’s and MS

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The neuroprotective effects of PEA are in part the result of its effects on downregulating the inflammatory cascade. Indeed, many neurodegenerative diseases are associated with a strong inflammatory component, such as Alzheimer’s disease (AD), Parkinson’s disease (PD) or MS

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The follow stating:

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This neuroinflammation is no longer simply considered as a consequence of neurodegeneration, but might be a primary factor in some cases; therefore, anti-inflammatory treatments might represent interesting therapeutic strategies in these diseases

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After discussing modern pharmaceutical ways to block the hydrolysis of PEA with pharmaceutical new compounds, they end their overview with an important statement:

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The potential of using PEA as a beneficial endogenous bioactive lipid in the setting of inflammation is well established

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My thanks to palmitoylethanolamide4pain for the outline of key points in this review of PEA.

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The material on this site is for informational purposes only.

It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Neuroimmunology’s Future – Bioelectronics Treats TNF Diseases – Will replace drug industry


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This is an earth changing, once in a century paradigm shift in medicine.

TNF Alpha Diseases

Bioelectronics reduces TNF alpha

Inflammatory Diseases treated without drugs.

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A novel therapy, never done before, is now in clinical trials with Rheumatoid Arthritis patients and it is working well  – with no medication. Electrical stimulation is reducing TNF-alpha, the inflammatory cytokines that underlie many diseases including pain, cancer, autoimmune diseases and major depression. This is a completely new field of medicine reported by The New York Times Magazine. I strongly recommend reading the entire article as I have only a small clip below.

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Several of the foremost neuroscientists are involved with this, starting with the research of Kevin Tracy in 1998 who proved that stimulating the vagus nerve with electricity would alleviate harmful inflammation. He is a neurosurgeon and President of the Feinstein Institute for Medical Research in Manhasset, N.Y.

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Today researchers are creating implants that can communicate directly with the nervous system in order to try to fight everything from cancer to the common cold. “Our idea would be manipulating neural input to delay the progression of cancer,” says Paul Frenette, a stem-cell researcher at the Albert Einstein College of Medicine in the Bronx who discovered a link between the nervous system and prostate tumors….

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The list of T.N.F. diseases is long,” Tracey said. “So when we created SetPoint” — the start-up he founded in 2007 with a physician and researcher at Massachusetts General Hospital in Boston — “we had to figure out what we were going to treat.” They wanted to start with an illness that could be mitigated by blocking tumor necrosis factor and for which new therapies were desperately needed. Rheumatoid arthritis satisfied both criteria. It afflicts about 1 percent of the global population, causing chronic inflammation that erodes joints and eventually makes movement excruciating. And there is no cure for it.

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In September 2011, SetPoint Medical began the world’s first clinical trial to treat rheumatoid-arthritis patients with an implantable nerve stimulator based on Tracey’s discoveries. According to Ralph Zitnik, SetPoint’s chief medical officer, of the 18 patients currently enrolled in the ongoing trial, two-thirds have improved. And some of them were feeling little or no pain just weeks after receiving the implant; the swelling in their joints has disappeared. “We took Kevin’s concept that he worked on for 10 years and made it a reality for people in a real clinical trial,” he says….

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…The biggest challenge is interpreting the conversation between the body’s organs and its nervous system, according to Kris Famm, who runs the newly formed Bioelectronics R. & D. Unit at GlaxoSmithKline, the world’s seventh-largest pharmaceutical company. “No one has really tried to speak the electrical language of the body,” he says. Another obstacle is building small implants, some of them as tiny as a cubic millimeter, robust enough to run powerful microprocessors. Should scientists succeed and bioelectronics become widely adopted, millions of people could one day be walking around with networked computers hooked up to their nervous systems. And that prospect highlights yet another concern the nascent industry will have to confront: the possibility of malignant hacking. As Anand Raghunathan, a professor of electrical and computer engineering at Purdue, puts it, bioelectronics “gives me a remote control to someone’s body.”

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Glaxo has also established a $50 million fund to support the science of bioelectronics and is offering a prize of $1 million to the first team that can develop an implantable device that can, by recording and responding to an organ’s electrical signals, exert influence over its function. Instead of drugs, “the treatment is a pattern of electrical impulses,” Famm says. “The information is the treatment.” In addition to rheumatoid arthritis, Famm believes, bioelectronic medicine might someday treat hypertension, asthma, diabetes, epilepsy, infertility, obesity and cancer. “This is not a one-trick pony.”

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…The subjects in the trial each underwent a 45-minute operation. A neurosurgeon fixed an inchlong device shaped like a corkscrew to the vagus nerve on the left side of the neck, and then embedded just below the collarbone a silver-dollar-size “pulse generator” that contained a battery and microprocessor programmed to discharge mild shocks from two electrodes. A thin wire made of a platinum alloy connected the two components beneath the skin. Once the implant was turned on, its preprogrammed charge — about one milliamp; a small LED consumes 10 times more electricity — zapped the vagus nerve in 60-second bursts, up to four times a day. Typically, a patient’s throat felt constricted and tingly for a moment. After a week or two, arthritic pain began to subside. Swollen joints shrank, and blood tests that checked for inflammatory markers usually showed striking declines.

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Koopman told me about a 38-year-old trial patient named Mirela Mustacevic whose rheumatoid arthritis was diagnosed when she was 22, and who had since tried nine different medications, including two she had to self-inject. Some of them helped but had nasty side effects, like nausea and skin rashes. Before getting the SetPoint implant in April 2013, she could barely grasp a pencil; now she’s riding her bicycle to the Dutch coast, a near-20-mile round trip from her home. Mustacevic told me: “After the implant, I started to do things I hadn’t done in years — like taking long walks or just putting clothes on in the morning without help. I was ecstatic. When they told me about the surgery, I was a bit worried, because what if something went wrong? I had to think about whether it was worth it. But it was worth it. I got my life back.”

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The material on this site is for informational purposes only.

It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Palmitoylethanolamide (PEA) – Boosting Its Anti-inflammatory Immune Response


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Discovery could lead to new immune-response drugs for allergies, illnesses and injuries

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Improved spinal cord injury & inflammation in mice

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Medical news November 17, 2009, announced that “UC Irvine pharmacology researchers have discovered a way to boost levels of a natural body fat that helps decrease inflammation, pointing to possible new treatments for allergies, illnesses and injuries related to the immune system.”

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“For decades, it has been known that this fat, called palmitoylethanolamide (PEA), is a potent anti-inflammatory substance that reduces both allergic symptoms and occurrences of rheumatic fever, but researchers understood little about how PEA works.”

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I”n a study appearing online in the Proceedings of the National Academy of Sciences, Daniele Piomelli, the Louise Turner Arnold Chair in Neurosciences at UCI, and colleagues found that levels of PEA are tightly regulated by immune system cells. In turn, PEA helps control the activity of these cells, which are called into action to fight infection, disease and injury in the body.”

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They found a protein, an enzyme that breaks down molecules that control cell inflammation and deactivates PEA. They then created a novel compound that prevents the breakdown.

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“When given to rodents, the compound increased the levels of PEA in their immune cells and reduced the amount of inflammation elicited by an inflammatory substance. Furthermore, when administered to the spinal cords of mice after spinal cord injury, the compound decreased inflammation associated with the trauma and improved the recovery of motor function.”

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UCI is collaborating with the Italian Institute of Technology in Genoa to develop a range of immune-response drugs. 

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Source: University of California – Irvine

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Refer an earlier post on PEA here.

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Palmitoylethanolamide is sold as PeaPure, a food supplement, available from the Netherlands and imported by a local pharmacy here. I have submitted a paper for publication on the treatment of vulvodynia and proctodynia with PeaPure and a topical cream. That source will be posted once it is accepted.

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I have been seeing some exciting responses to treatment of intractable pain with PeaPure. I invite others who use it to add comments below so that we may all learn from your experience.

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The material on this site is for informational purposes only.

It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~~~~

Please understand that it is not legal for me

to give medical advice without a consultation.

If you wish an appointment, please telephone my office.

.

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Treatment for Pain Could Last Months: Botox & Tetanus Chimera Injection


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Professor Bazbek Davletov now at Sheffield University, UK, reports his research that is featured on the cover of the October 2013 journal Bioconjugate Chemistry. He hopes the drug will cost around £1,000 a year, making it cheap enough for use on the NHS. It is authored by a 22-person team from 11 research institutes, including Lincoln University UK based Dr Enrico Ferrari.

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Dr Ferrari joined the School of Life Sciences in October last year from the Medical Research Council’s Laboratory of Molecular Biology in Cambridge, where he took part in the development of a new way of joining and rebuilding molecules in the research group of Professor Bazbek Davletov who was then at the MRC.

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Taking components of clostridium botulinum and clostridium tetani neurotoxins – known as Botox and tetanus toxin – they re-joined the molecule proteins using a ‘protein stapling’ technology targeting central neurons without unwanted toxic effects.

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Science Daily announcement:

‘Chimera’ Protein Could Lead to Drug Treatments for Chronic Pain

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Lincoln University, UK, heralds this promising discovery:

Scientists synthesise new ‘chimera’ protein which could herald future drug treatments for chronic pain

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“Scientists have manufactured a new bio-therapeutic molecule that could be used to treat neurological disorders such as chronic pain and epilepsy.”

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The molecule was able to alleviate hypersensitivity to inflammatory pain.

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“Dr Ferrari, who is one of the lead authors of the study, said: “The toxins were split into parts so they were unable to function. Then later they were reassembled using a ‘zipping’ system so they can operate in a safe way. The re-engineered chimera toxin has very similar characteristics to Botox and is still able to block neurotransmission release, but the paralytic effect is a lot less. We then added a tetanus molecule which targets the chimera to where the pain signals travel towards the central nervous system.””

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“Dr Ferrari added: “Many painkillers relieve the pain temporarily and have various side effects. The selling point of this molecule is that the pain relief could last up to seven months….””

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The material on this site is for informational purposes only.

It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~~~~

Please understand that it is not legal for me

to give medical advice without a consultation.

If you wish an appointment, please telephone my office.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Complex Regional Pain Syndrome – Review of Inflammation & Meta-analysis


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Neurology, the journal of the Academy of Neurology, has published “Inflammation in Complex Regional Pain Syndrome, a systematic review and meta-analysis” on July 1, 2013.

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The study was supported by grants from the Australian National Health and Medical Research Council, the Canadian Institute of Health Research, the Dutch consortium on CRPS and the Dutch Ministry of Economic Affairs.

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They found “a proinflammatory state in blood, blister fluid, and CSF.” Profiles differed in acute and chronic cases.

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Levels of neuropeptides in blood and blister fluids were not higher in CRPS than in controls.

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The inflammatory profile reflected a generic chronic pain state. There was no signature specific to CRPS. Chronic pain is associated with higher levels of proinflammatory activity.

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Acute cases did differ from chronic. But affected limbs did not show higher levels of inflammation than limbs that were not affected.

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Of interest, they found significant variability in concentrations of inflammatory factors which may suggest the data reflects methodological errors. Or it may suggest that CRPS is not a distinct disorder but is a collection of disorders that appear similar clinically, or the inflammatory response is not consistent, or that important clinical subgroups exist, for example hot vs cold CRPS or variations that present with significant autonomic disorders or systemic involvement.

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They noted a recent review of treatments that found little evidence that prednisolone improves symptoms of CRPS. And they note conflicting evidence for free-radical scavengers (dimethyl sulfoxide and N-acetylcysteine). They point out the latter trials were small and of mixed quality, however I have personally seen patients who respond to those treatments.

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They recommended formal, large, high quality studies to assess the efficacy of cytokine inhibitors (TNFα inhibitors) or immunosuppressive medication. They recommended more in vivo work on the immunomodulatory effects of analgesic medications such as morphine that has, in vitro, been shown to decrease the anti-inflammatory cytokine IL-10 and increase the proinflammatory IL-12 thus predisposing to more pain.

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The material on this site is for informational purposes only.

It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~~~~

Please understand that it is not legal for me

to give medical advice without a consultation.

If you wish an appointment, please telephone my office.

.

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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LDN – Low Dose Naltrexone – Prescribing Doctor Videos


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Prescribing Doctor Videos

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The low dose naltrexone, LDN, website is managed by volunteers in England, in particular Linda Elsegood, Trustee. All the videos are no doubt helpful, but I would point out particular interviews:

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Rachel Allen, PhD – England – Dr. Allen received her PhD in Immunology from Oxford, then did work in Cambridge on the innate immune system.  She discusses the innate and adaptive immune system, glia, cytokines, and dendritic cells. This video focuses on Toll-Like Receptors which is where naltrexone acts to block pro-inflammatory cytokines that create pain. The pro-inflammatory cytokines are involved in autoimmune and other diseases.

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Jarred Younger, PhD – Stanford researcher  – has published studies using LDN on persons with fibromyalgia.  He discusses plans for testing it on other conditions possibly including depression and using it for children.

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Pradeep Chopra, MD – Anesthesiologist in Rhode Island – uses LDN for CRPS. With Mark Cooper, PhD, they have published two cases. The publication acknowledges my contribution in teaching them my experience. I have prescribed LDN for years in many persons with intractable pain. Prof. Cooper came to San Diego for two days November 2011, to meet and interview eight of my patients who had 100% responses with LDN for their years of intractable pain. Four responders had been able to discontinue LDN with no further recurrence of pain for years, and four remained on LDN with complete response.

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Since I had no time to publish, Dr. Cooper later asked that I teach Dr. Chopra about LDN which I did over several hours. After noting in the paper that Dr. Chopra’s patient did not fully respond, I suggested to Dr. Chopra that he increase the dosage as I find not all respond to 4.5 mg. A large percentage of persons with intractable pain need higher doses. Finally, there are two populations that need lower doses than 4.5 mg but most persons with pain can be started at that dose.

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The material on this site is for informational purposes only.

It is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

~~~~~

Please understand that it is not legal for me

to give medical advice without a consultation.

If you wish an appointment, please telephone my office.

.

For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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PeaPure – Palmitoylethanolamide for Nerve Pain or Migraine


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PeaPure is a glial modulator. It is available in Italy and the Netherlands as a food supplement and has been studied in multicenter clinical trials in Europe for several years. It is well tolerated with no side effects and is very helpful for neuropathic pain, headache, and osteoarthritis. It is anti-inflammatory and neuroprotective.

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Because it inhibits astrocyte activation and the over-expression of pro-inflammatory molecules and signals, it is being investigated in Alzheimer’s Disease.

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The mechanism of action of PEA was discovered in 1993 by Nobel laureate Rita Levi-Montalcini in her work on nerve growth factors. She found it is involved in metabolism of mast cells and published a series of papers on its self-healing effect of the body in response to inflammation and pain. Two recent publications from Jan M Keppel Hesselink, MD, PhD, and his colleagues at the Institute for Neuropathic Pain, Amsterdam, The Netherlands, describe case reports, one of which is the case of a woman with CRPS.

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The purpose of this post is to clarify dosing of PeaPure and how to take it for a sudden flare of pain. My apologies for failing to recall the source of these instructions which I believe was from the manufacturer and from here and here. The latter includes an excellent review of its mechanism.

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Description of PeaPure® 400 mg capsules
PeaPure® is a food supplement based on a natural and fatty-acid like compound.
The substance palmitoylethanolamide (PEA) is a physiologically active molecule that the body produces naturally.
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What the user should know prior to ingestion:
•    There are no known significant side effects.
•    PeaPure® can be taken simultaneously with other medicine. In case of doubt, it is recommended to first consult your doctor or a pharmacist.
•    Use during pregnancy is NOT recommended.
•    PeaPure® does not contain sugar, yeast, allergens, sorbitol, magnesium stearate, povidone or other ingredients.

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Dosage and administration – please refer to the manufacturer.

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UPDATE SEPTEMBER 2014

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It is with a heavy heart that I report this news:

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Palmitoylethanolamide is

now available only from the Netherlands,

sold as PeaPure, a food supplement.

  It is no longer able to be imported by a pharmacy, but we are hoping

that may change if we can interest a supplement manufacturer to make it available for the US.

Patent rights, attorneys are far beyond the resources of my local pharmacy.

 

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I have published this year, 2014, on the treatment of

vulvodynia and proctodynia with PeaPure and a topical cream.

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There are no studies to show us how often it may relieve nerve pain, but it is astonishing when it works. No toxicity, no side effects. Your brain makes it, plants make it. There is a growing literature on it and I have posted on some of its mechanisms. And in particular, its Anti-inflammatory, Analgesic, Neuroprotective Mechanisms.

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The material on this site is for informational purposes only, and is not a substitute for

medical advice, diagnosis or treatment provided by a qualified health care provider.

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Please understand that it is not legal for me to give medical advice without a consultation.

If you wish an appointment, please telephone my office or contact your local psychiatrist.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!

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Painkiller Efficacy in 2010 Less Than in 2000


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This research shows efficacy of analgesics decreasing since 2000.

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“The evidence for pharmacological treatment of neuropathic pain” publication is a good meta-analysis of the current state of evidence-based treatment of neuropathic pain.

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I have quoted extensively from the article as it is important.

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“Abstract: One hundred and seventy-four studies were included, representing a 66% increase in published randomized, placebo-controlled trials in the last 5 years. Painful poly-neuropathy (most often due to diabetes) was examined in 69 studies, postherpetic neuralgia in 23, while peripheral nerve injury, central pain, HIV neuropathy, and trigeminal neuralgia were less often studied. Tricyclic antidepressants, serotonin noradrenaline reuptake inhibitors, the anticonvulsants gabapentin and pregabalin, and opioids are the drug classes for which there is the best evidence for a clinical relevant effect. Despite a 66% increase in published trials only a limited improvement of neuropathic pain treatment has been obtained. A large proportion of neuropathic pain patients are left with insufficient pain relief. This fact calls for other treatment options to target chronic neuropathic pain. Large-scale drug trials that aim to identify possible subgroups of patients who are likely to respond to specific drugs are needed to test the hypothesis that a mechanism-based classification may help improve treatment of the individual patients.”

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~The bla

The black circles are recent circles, the light circles are from the past. Shift to the right means less effect.

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“Fig. 1. It shows the combined numbers needed to treat (NNT) values for various drug classes in all central and peripheral neuropathic pain conditions (not including trigeminal neuralgia). The figure illustrates the change from 2005 values in light grey to 2010 values in dark grey.  [emphasis mine]The circle sizes indicate the relative number of patients who received active treatment drugs in trials for which dichotomous data were available. Please note that the differences in study design and the patient populations preclude a direct comparison of NNT values across drug classes (see text). BTX-A: botulinum toxin type A; TCAs: tricyclic antidepressants; SNRIs: serotonin noradrenaline reuptake inhibitors; SSRIs: selective serotonin reuptake inhibitor.”

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“Fig. 2. It shows the combined numbers needed to treat (NNT) values for different drug classes against specific disease etiologies. The symbol sizes indicate the relative number of patients who received active treatment drugs in the trials for which dichotomous data were available.”

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 A disease-based classification: fact or fiction?

“Since (1) there are no clear indications that specific diseases should be treated with specific treatments, (2) symptoms and signs overlap in various neuropathic pain conditions [6], and (3) currently available drugs act with unspecific neurodepressant actions rather on pivotal pathophysiological mechanisms, at present there is no good rationale for a treatment algorithm that discriminates between underlying etiologies [45]. Nevertheless, the vast majority of trials have been done in painful diabetic neuropathy and PHN and few, if any, in certain other conditions (e.g. Guillain–Barré syndrome and small-fiber neuropathy), and recommending a treatment for other conditions may seem to be an unjustified jump.”

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“Supplementary Figure 1L’Abbé plot showing pain relief for all drugs for different neuropathic pain conditions. Each point illustrates one comparison against placebo (for trials listed in Supplementary Table 1). The axes indicate the percentage of patients with at least 50% pain relief with active and placebo treatment.© 2010 International Association for the Study of Pain”

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Conclusion

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“Pharmacological treatment still represents the main option for treating chronic neuropathic pain. Our understanding of neuropathic pain-generating mechanisms has grown considerably within the last few decades, but unfortunately this research has not been matched by a similar improvement in treatment efficacy. We are still limited in our efforts in managing neuropathic pain by relying on treating the symptoms of pain rather than identifying the underlying disease mechanisms causing the pain. Although 69 new randomized controlled trials have been published in the past 5years compared with 105 published trials published in the preceding 39years, only a marginal improvement in the treatment of the patients with neuropathic pain has been achieved.”

© 2010 International Association for the Study of Pain

The study is part of the European project, funded by the Innovative Medicines Initiative Joint Undertaking

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The material on this site is for informational purposes only,

and is not a substitute for medical advice, diagnosis or treatment provided by a qualified health care provider.

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For My Home Page, click here: 

Welcome to my Weblog on Pain Management!

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Ketamine Intranasal for Rapid Relief of Pain and Depression


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Poorly managed pain can evolve into chronic disease of the nervous system

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Ketamine is an important analgesic, more important than opioids. It can dramatically reduce pain, and rapidly relieve depression and PTSD.  Please read my earlier posts here and here. And the NPR report here just after I posted this (skip to their last section). Yes, it is FDA approved and legal. One woman said:

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 ‘It was almost immediate, the sense of calmness and relaxation.

‘No more fogginess. No more heaviness. I feel like I’m a clean slate right now. I want to go home and see friends or, you know, go to the grocery store and cook the family dinner.’

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NPR again reports ketamine’s rapid relief of depression. A 28 year old man whose refractory depression began at age 15, after ketamine, says:

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‘I Wanted To Live Life’

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Stephens himself has vivid memories of the day he got ketamine. It was a Monday morning and he woke up feeling really bad, he says. His mood was still dark when doctors put in an IV and delivered the drug.”Monday afternoon I felt like a completely different person,” he says. “I woke up Tuesday morning and I said, ‘Wow, there’s stuff I want to do today.’ And I woke up Wednesday morning and Thursday morning and I actually wanted to do things. I wanted to live life.”.
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Since then, they treated him with Riluzole that is FDA approved for ALS and has one of the dirtiest side effect profiles I have ever seen in medicine with serious organ toxicity. Ketamine rarely causes mild transient side effects, usually none. It appears the concern is how ketamine is used on the street with potential for abuse. I do not see ketamine abuse in my patients, some of whom are on opioids for pain or Valium family medicines from their psychiatrist. All of those have a greater potential for abuse, also not occurring in my patients. Pain and/or depression can lead to suicide.
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About 18 months ago, researchers at Yale found a possible explanation for ketamine’s effectiveness. It seems to affect the glutamate system in a way that causes brain cells to form new connections.
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Researchers have long suspected that stress and depression weaken some connections among brain cells. Ketamine appears to reverse the process.

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It would be of interest to see a case report of the bladder problems they mention. Is this in a single drug addict who used many unknown medications on the street? Several physicians have infused IV ketamine for persons with pain for many years, in far higher doses than I prescribe, with no report of any but transient minor symptoms.

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David Barsook’s 2009 review, reference below, describes changes that cause memory loss and brain atrophy with chronic pain, in particular, Complex Regional Pain Syndrome (CRPS), and they also occur with chronic depression:

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With the onset of chronic pain (including CRPS) a number of changes in brain function occur in the human brain including but not limited to: (1) central sensitization ; (2) functional plasticity in chronic pain and in CRPS; (3) gray matter volume loss in CRPS ; (4) chemical alterations; and (5) altered modulatory controls. Such changes are thought to be in part a result of excitatory amino acid release in chronic pain. Excitatory amino acids are present throughout the brain and are normally involved in neural transmission but may contribute to altered function with excessive release producing increased influx of calcium and potentially neural death.

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Brain atrophy and memory loss has also been shown in chronic low back pain as well as in chronic depression.

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Barriers to management of chronic pain are many:

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Although opioids are effective for acute pain, effective treatment of chronic pain is often daunting, particularly neuropathic pain.

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Opioids have been shown to create pain causing imbalance in the glial cytokines that favor pain rather than relief of pain. Opioids carry the risk of opioid-induced hyperalgesia which is a severe pain sensitivity. They affect the brain and endocrine system. Opioids may fail to offer significant relief, fail to improve function, and risk misuse, abuse, diversion and death. Their costs are astronomic, insurance coverage is increasingly limited, the potential for complications may be life threatening in a hectic medical setting, side effects can be lethal, lack of physician training in use of opioids and alternatives to pain control lead to increasing deaths, addiction and diversion. It has become a national emergency and a trillion dollar war on drugs.

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Complications can be greatly reduced through use of a scrupulous history and physical examination, but reimbursement is directly proportional to the shortest time spent with a patient. Will that help assessment and care?

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Individuals may have dramatically different responses to opioid therapy; some may not tolerate any, and relief must be balanced with side effects that increase as the dose increases. Patient status may change and require IV, rectal or tube delivery instead of oral formulas; drug-drug interactions may require rapid changes, and disease of kidney, liver or brain may require modifications or stopping altogether. They may increase risk of falls and cause central sleep apnea with drop in oxygen because the brain fails to give a signal to breathe.

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Chronic pain can lead to loss of sleep, hopelessness, depression, anger and other mood disorders such as panic, anxiety, hypochondriasis and post traumatic stress disorder [PTSD]. Treatment of mood disorders are shown to profoundly reduce pain perception and/or ability to cope with pain.

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Ketamine is anti-inflammatory and can reduce the need for opioid use, thus reducing the pain and side effects caused by opioids.

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Nasal ketamine is more effective than oral ketamine for pain relief; oral dosing has no effect on depression.

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Nasal delivery of ketamine is now possible due to advances in metered nasal sprayers that deliver a precise dose. No needle is required, no IV access, no travel to a specialist needed.

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You can carry pain relief with you and use it as directed when it is needed.

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Ketamine is an NMDA antagonist: it antagonizes the NMDA receptor which plays a profound role in pain systems and centralization of pain.

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Ketamine is neuroprotective and it can help other disease states as noted by Barsook, 2009:

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Besides improvement in pain, “there may be lessons from other diseases that affect the brain; it is noteworthy that acute ketamine doses seem to reverse depression and ketamine decreased prevalence of post-traumatic stress disorder (PTSD) in soldiers receiving ketamine during their surgery for treatment of their burns. In addition ketamine attenuates post-operative cognitive dysfunction following cardiac surgery that has been known to produce significant changes in cognition. [emphasis mine] The data suggest that the drug can alter or prevent other conditions based on its NMDAR activity where other drugs NMDA receptor antagonists are perhaps not as effective in these or pain conditions. Lastly, NMDA antagonists have been used in degenerative disease (and pain may be considered a degenerative disease as defined by loss of gray matter volume, see above) with mixed effects perhaps relating to how they act on specific NMDA subtypes. Taken together, ketamine may act not only on sensory systems affecting pain intensity, but also on a constellation of brain regions that are involved in the pain phentype. [sic, phenotype]”

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Side Effects

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Ketamine is more frequently used in babies and children than in adults because high doses of ketamine can induce hallucinations in the adult. Importantly, it is used in high dose in adults for treatment of Complex Regional Pain Syndrome.

Low doses, cause little or no side effects in adults. If present, they are transient and often resolve in 20 minutes. Patient who respond to ketamine report good acceptance as they find the relief of pain and/or depression far outweighs any short term minimal discomfort.

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Pain care reform is urgently needed.

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Research funding for pain is less than half of one percent of the NIH budget. More research is needed, but research on low dose ketamine for treatment of pain and depression has gone on for twenty years.

The public health crisis of untreated pain, which often results in disability, parallels the country’s struggle to halt the cost of health care. The longer a person remains with untreated pain, the less likely they are to return to work or to be employable.

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Conclusion

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Pain control requires urgent attention. It is past time to put into practice the use of this valuable medication so people can get on with life instead of being mired in chronic pain that for many risks suicide and ensures continuing decades of disability. Academic studies are usually limited by defining a predetermined dose rather than clinically titrating to effect. Thus no surprise, they find no effect as every patient will have no response until they reach their dose. And that dose, in my experience, falls into a bell shaped curve. One size does not fit all. Some respond at very low dose, others require much more, and the majority fall between.

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In my experience prescribing ketamine for ten years, only a rare person has problems. Almost all find it has returned function or significantly relieved pain. Some have been able to entirely eliminate opioids that did nothing for their pain for decades, though they dutifully returned to the MD every month to chronicle that pain. Pain continued to be rated ten on a scale of ten; patient always compliant despite side effects of constipation and often depression. My patients find the benefits of nasal ketamine far outweigh the relief of oral ketamine and at much lower doses with fewer side effects.

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Further, while the pain relief may be short lived, some find it gets better with repeat dosing, and relief of depression may last one to two weeks with a single dose.

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References

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http://www.wjgnet.com/1007-9327/10/1028.asp  Ketamine suppresses intestinal NF-kappa B activation and proinflammatory cytokine in endotoxic rats.

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CONCLUSION: Ketamine can suppress endotoxin-induced production of proinflammatory cytokines such as TNF-a and IL-6 production in the intestine. This suppressive effect may act through inhibiting NF-kappa B.

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http://informahealthcare.com/doi/abs/10.1080/J354v16n03_03  Ketamine as an Analgesic Parenteral, Oral, Rectal, Subcutaneous, Transdermal and Intranasal Administration

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Ketamine is a parenteral anesthetic agent that provides analgesic activity at sub-anesthetic doses. It is an N-methyl-D-aspartate (NMDA) receptor antagonist with opioid receptor activity. Controlled studies and case reports on ketamine demonstrate efficacy in neuropathic and nociceptive pain. Because ketamine is a phencyclidine analogue, it has some of the psychological adverse effects found with that hallucinogen, especially in adults. Therefore, ketamine is not routinely used as an anesthetic in adult patients. It is a frequently used veterinary anesthetic, and is used more frequently in children than in adults. The psychotomimetic effects have prompted the DEA to classify ketamine as a Schedule III Controlled Substance. A review of the literature documents the analgesic use of ketamine by anesthesiologists and pain specialists in patients who have been refractory to standard analgesic medication regimens. Most reports demonstrate no or mild psychotomimetic effects when ketamine is dosed at sub-anesthetic doses. Patients who respond to ketamine tend to demonstrate dramatic pain relief that obviates the desire to stop treatment due to psychotomimetic effects (including hallucinations and extracorporeal experiences). Ketamine is approved by the FDA for intravenous and intramuscular administration. Use of this drug by the oral, intranasal, transdermal, rectal, and subcutaneous routes has been reported with analgesic efficacy in treating nociceptive and neuropathic pain.
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http://www.ncbi.nlm.nih.gov/pubmed/15109503  Safety and efficacy of intranasal ketamine for the treatment of breakthrough pain in patients with chronic pain: a randomized, double-blind, placebo-controlled, crossover study  Daniel Carr, et al, 2004
Crossover, 20 patients. Ketamine reduced breakthrough pain within 10min of dosing, lasting up to 60min
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http://www.ncbi.nlm.nih.gov/pubmed/15288418  Safety and efficacy of intranasal ketamine in a mixed population with chronic pain
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The intranasal route for ketamine administration has been applied only for pain of dressing changes in a single case study (Kulbe, 1998). In this patient, oxycodone and acetaminophen were ineffective to control pain during burn dressing changes in a 96-year-old woman cared for at home. She tolerated the burn dressing changes after three intranasal sprays of 0.1 ml each, in rapid succession, each containing 5 mg ketamine (15 mg total) (Kulbe, 1998).
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http://www.acutepainjournal.com/article/S1366-0071%2807%2900167-2/abstract  Safety and efficacy of intranasal ketamine for acute postoperative pain
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Ketamine delivered intranasally was well tolerated. Statistically significant analgesia, superior to placebo, was observed with the highest dose tested, 50 mg, over a 3 h period. Rapid onset of analgesia was reported (<10 min), and meaningful pain relief was achieved within 15 min of the 50 mg dose. The majority of adverse events were mild/weak and transient. No untoward effects were observed on vital signs, pulse oximetry, and nasal examination. At the doses tested, no significant dissociative effects were evident using the Side Effects Rating Scale for Dissociative Anaesthetics.
The safety profile following treatment with ketamine was comparable to that seen with placebo.
Although patients did report side effects of fatigue, dizziness and feelings of unreality more often following treatment with ketamine than following treatment with placebo, no patient reported hallucinations and the side effects were generally reported to be of mild or moderate severity, and transient. No serious adverse events were reported and the incidences of associated adverse events were comparable for ketamine and placebo. Although study medication was administered intranasally, nasal signs and symptoms were few and inconsequential. A distinctive taste, however, was reported more often following treatment with ketamine than following treatment with placebo.In conclusion this randomized, placebo-controlled, double-blind study, in 20 patients, has demonstrated that intranasal ketamine is safe and effective for BTP [breakthrough pain]. Our findings augment an early but promising literature documenting the effectiveness of nasal administration of a variety of opioids for pain management in adults (Dale et al., 2002) .
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~http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2875542/

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2875542/  Ketamine and chronic pain – Going the distance, David Barsook, 2009

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This important paper covers essential points not mentioned by many, thus quoted at length below:

“Ketamine, brain function and therapeutic effect – neuroprotective or neurotoxic

With the onset of chronic pain (including CRPS) a number of changes in brain function occur in the human brain including but not limited to: (1) central sensitization ; (2) functional plasticity in chronic pain and in CRPS; (3) gray matter volume loss in CRPS ; (4) chemical alterations ; and (5) altered modulatory controls. Such changes are thought to be in part a result of excitatory amino acid release in chronic pain. Excitatory amino acids are present throughout the brain and are normally involved in neural transmission but may contribute to altered function with excessive release producing increased influx of calcium and potentially neural death. Here lies the conundrum the use of an agent that potentially deleteriously affect neurons that may already be compromised but may also have neuroprotective properties by mechanisms that include reducing phosphorylation of glutamate receptors resulting in decreased glutamatergic synaptic transmission and reduced potential excitotoxicity . Alternatively, ketamine may affect glia regulation of glutamate and inhibit glutamate release within glia. However, by whatever mechanism ketamine acts on CRPS pain, there does seem to be a dose/duration effect in that longer doses at levels tolerated by patients seem to prove more effective in terms of the duration of effects.

So what could be happening in the brain and what is required to alter brain systems and reverse the symptomatic state? Ketamine may diminish glutamate transmission and “resets” brain circuits, but it seems that a minimal dose and/or duration of treatment is required. Alternatively, ketamine may produce neurotoxicity and damage or produce a chemical lesion of affected neurons. These two issues are important to be understood in future trials. Reports from patients who have had anesthetic doses have included prolonged pain relief for many months. While the authors did not address issues such as the effect of dosing duration or repetitive dosing at say 6weeks, they did show a level of efficacy based on NNT that equals or betters most drug trials for this condition.”

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“Conclusions

As a community we have a major opportunity to define the efficacy and use of a drug that may offer more to CRPS (and perhaps other) patients than is currently available. This is clearly an opportunity that needs urgent attention and a number of questions remain to be answered. For example, is ketamine more effective in early stage disease? How does ketamine provide long-term effects? Further controlled trials evaluating dose, duration, anesthetic vs. non-anesthetic dosing are needed. Few of us really understand what it is like to suffer from a chronic pain condition such as CRPS. Ketamine therapy may be a way forward that can be brought into our clinical practice through further controlled studies that will allow for appropriate standards for use in patients.”

 

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The material on this site is for informational purposes only, and is not a substitute for medical advice,
diagnosis or treatment provided by a qualified health care provider.
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Please understand that it is not legal for me to give medical advice without a consultation.

If you wish an appointment, please telephone my office or contact your local psychiatrist.

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For My Home Page, click here:  Welcome to my Weblog on Pain Management!
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