Spinal Cord Stimulators – MRI scans never again


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Spinal cord stimulators may not help, but once placed, the wire leads can never be removed. People do not realize that they can never have an MRI scan no matter how much they need one. Wire leads are placed on the spinal cord and powerful magnets cannot go near those wires.

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It’s tragic. Patients say no one told them. People live for decades with useless hardware embedded on their cord. The wires become encased by scar on nerve tissue, the cord itself. Should that person ever develop cancer, stroke, infections, seizures, Multiple Sclerosis, fractures, etc, and need a scan, an MRI is not possible.

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It’s easy to ignore any future need for MRI scans when all the experts are giving an ultimatum telling you these stimulators can help your pain. With CDC’s lower opioid guidelines in March 2016 that dropped doses for millions, there might even be a huge bonanza for the companies that make these partially tested devices.

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A list of words in the informed consent is not the same as seeing videos of patients who have had to deal with serious problems from them. It’s very sad, tragic, facing cancer or other conditions that cannot be studied adequately.

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After billions in profit, there is no long term study showing how effective they are after five years, and even after two. It’s time to know the true cost and benefit analysis. But that will never be known, not once the green light was given and money started rolling in.

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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 – 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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Naltrexone in Low Dose Reduces Pain & Depression


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We’ve known LDN helps pain since the turn of the century. Stanford could really shake the research world if they trialed LDN for Major Depressive Disorder, not the depression that improves with less pain, or in Multiple Sclerosis clinics or the Parkinson’s or Inflammatory Bowel Disease clinics. Is it too much to ask for better quality clinical research, not just results of patients responding by click or touch on a computer touch pad?

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The astonishing promise of low dose naltrexone (LDN) research remains in its infancy since 1984, 33 years ago, when it was discovered to offer profound clinical relief for multiple sclerosis and other serious conditions. I have prescribed naltrexone in ultra low and low dose since 2003, and discussed its central anti-inflammatory glial modulating mechanisms in 2009:

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Low dose naltrexone, or LDN, has been prescribed “off label” for persons with many conditions including intractable pain, chronic fatigue syndrome, complex regional pain syndrome, RSD, Multiple Sclerosis, Parkinsons Disease, IBS, inflammatory bowel disease, autoimmune diseases and Crohn’s Disease to mention only a few. Low dose naltrexone is not a cure but may be potentially helpful for selected persons with these conditions. It appears to have little or no toxicity at this low dose – a few persons report transient insomnia, nausea or vivid dreams.

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The same year in 2009, soon after my post on LDN, Drs. Younger and Mackey of Stanford Pain Center reported a double blind study of low dose naltrexone in persons who had fibromyalgia more than 10 years and showed 30% improvement in pain and fatigue.

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In 2016, five Stanford authors including Dr. Mackey published a poster presentation. At least the 2009 study was double blind; not this one. It was open label.

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A novel glial cell inhibitor, low dose naltrexone, reduces pain and depression, and improves function in chronic pain: A CHOIR study

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Poster presented at: Annual Meeting of the American Pain Society; May 11-14, 2016; Austin, TX. Poster 418.

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Authors: K. Noon,  J. Sturgeon, M. Kao, B. Darnall, S. Mackey

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Stanford University Department of Anesthesiology, Perioperative, and Pain Medicine, Stanford, CA

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Funding received from NIH and the Redlich Pain Endowment

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NIH funding should lead us forward, not back to a single open label study. One would hope Stanford would do the larger study they recommended 7 years ago. This adds to the CV of five researchers, but

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  • does it help millions with chronic intractable pain?

  • does it add to the growing body of clinical LDN experience worldwide?

  • when will the mechanism and uses of LDN, the TLR4 receptor and the powerful innate immune system be taught by healthcare providers in academia, in practice, and in pharmacies, not just in basic science?

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The poster highlights the Stanford CHOIR Information Registry (discussed below), but provides almost nothing new despite the computing power of CHOIR that likely cost small fortunes. Patients are asked to enter clinic data into a convenient handheld click- or touch-based input device. What could be easier? We look forward to better studies from Stanford’s CHOIR devices and we long for the days when doctors publish better data that addresses the disabling pain, depression and needs of millions of our patients with chronic intractable pain.

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Stanford’s CHOIR Information System

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“We modified and implemented an existing, web-based system that administers computer-adaptive PRO questionnaires, called the Collaborative Health Outcomes Information Registry (CHOIR).  Next, we developed a messaging interface to send PRO results from CHOIR to the UF Health Epic EHR.

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The CHOIR system was developed at Stanford University by a team of informaticists and physicians who provided a no-cost license for our implementation. CHOIR utilizes a client-server architecture with web-based clinician and patient interfaces that use open source technologies, including jQuery mobile and Google Web Toolkit. Users can access CHOIR via web browsers on desktop or mobile devices. The primary patient user function is the completion of computer-adaptive PRO assessments using a click- or touch-based input device ( Figure 1 ).  Clinical user functions include registering patients to complete a PRO assessment, reviewing individual and summary PRO assessment results, longitudinal outcomes tracking, and clinical decision support through the aggregation of PRO result sets.”

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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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Selenium Supplement


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Selenium Toxicity

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Almost every American is taking supplements without knowing the reactions they are causing. Most do not know the ingredients they take daily for years, then they see neurologists for muscle weakness and neuropathy. 90% of the causes of neuropathy are unknown – selenium is one.  Muscle weakness, another. Doctors don’t ask to review labels on supplements.

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The biggest issue (no pun) is insulin resistance that leads to diabetes and obesity.

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From Memorial Sloan Kettering Cancer Center Herbs & Botanicals

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“Excessive intake of selenium induces hepatic insulin resistance through opposite regulation of ROS [Reactive oxygen species].”

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Adverse reactions:

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“Oral consumption of 10 g of sodium selenate supplements for treatment of prostate cancer resulted in the death of a 75-year-old man.”

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Chronic selenosis (doses greater than 1000 µg/day): muscle weakness, fatigue, peripheral neuropathy, dermatitis, nail and hair changes/loss, garlic breath/body odor, irritability, growth retardation, hepatic necrosis” (death).

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Toxicity: “Consumption of gram quantities of selenium can cause severe gastrointestinal and neurological disturbances, acute respiratory distress syndrome, myocardial infarction and renal failure.”

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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.

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

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Ketamine & Opioids Stop Working – TOLERANCE – the body no longer responds no matter how high the dose


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The comments below on ketamine tolerance apply to its use either for intractable pain or major depressive disorder. I have written about ketamine several times since April 2009. Tolerance means the medication no longer has an effect. If ketamine is to be needed for decades to come, we don’t have more than 10 years experience with repeated use to understand if and when it will stop working for our patients.

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Tolerance to ketamine is a growing potential as more infusion centers open each year.

Infusions are being used at fixed dosages

that are often too high or toxic

and predispose to tolerance and loss of efficacy.

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I’ve seen two cases of ketamine tolerance since about 2009 among persons with Complex Regional Pain Syndrome (CRPS). And the neuropathic pain of CRPS responds differently than other pain syndromes. We are all snowflakes, not one of us is alike another. But CRPS is unpredictable in many ways, and very predictable in others. It is also more dynamic and capable of being reversed in many who have it.

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Ketamine is given usually IV in a few centers in the country for CRPS and for Major Depressive Disorder. I prescribe it either via nasal spray or under tongue. I may, later this year, offer IV infusions to a small number of my patients who need both.

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If tolerance develops, would drug holidays work?

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Some people develop tolerance to their medication. In the old days, when I was training in the 1970’s, Parkinsons medication over time would stop working. Our only recourse was to do an inpatient drug holiday for weeks. We had to stop the drug. The resting tremor, the constant flailing, was exhausting and life threatening, especially if you had a heart condition. Newer Parkinson’s drugs completely circumvent this.

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Would drug holidays work if tolerance develops for ketamine or is it a goner forever?

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Opioids can cause tolerance through a known mechanism. They produce inflammation that causes more pain. Higher and higher doses fail to help pain. Addicts seek the high they once felt but cannot capture. This is why addicts die, chasing the impossible. Detox. Drug holiday. In the case of addiction, many are placed on Subutex, an opioid that acts on two opioid receptors and seems to prevent craving, in part at least because it has such a long half life that the blood level never dips.

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Ketamine infusions centers springing up.

Is that all they do?

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NIH and Yale began to test IV ketamine infusions in the 1990’s for major depressive disorder, and Robert Schwartzman, MD, at Hahneman in Philadelphia was one of the early ones to infuse ketamine for CRPS and contribute a large body of research on this pain.

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But in the last 2 or 3 years I receive a growing number of mailings advertising ketamine infusion centers. Just that, nothing more. Ketamine infusion centers, not pain specialists. All these young anesthesiologists popping out of training every year have a cash pay business; insurance doesn’t cover.

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Will ketamine stop working for patients who need to use it regularly for decades and decades? We don’t know. It should be studied.

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The first patient I saw with ketamine tolerance, I referred from San Diego to Professor Schwartzman in Philadelphia. She received inpatient IV around the clock for one week, then outpatient IV boosters every month. After eight months, she stopped responding. That’s when I called him to ask what to do? He did not know. So I used glial modulators. I posted her case years ago. She is in her 70’s, pain free since 2010, and two weeks ago, as a volunteer for the Red Cross, she supervised RN’s and evacuees from the flooding at Oroville dam. Tens of thousands of people, emergency care for families and homeless.

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A recent patient has had more than 20 surgeries in her hand that has CRPS. She has failed  IV ketamine, opioids, propofol given together in ICU for weeks and weeks. Surgery triggers the glia to produce neuro-inflammation.

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Another case though unusual, also posted years ago, a young male athlete, bedridden with CRPS affecting almost entire body. Flew to Professor Schwartzman 9 times and each time, the relief was gone by the time they reached the airport. He was taking opioid medication that may have been impossible to offset.

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This is what I advise when I prescribe ketamine for my patients to use at home as a nasal spray or sublingual:

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  1. Do not use it with opioids.Opioids cause inflammation, ketamine does the opposite. It modulates (reduces) inflammation.

  2. Never use it alone. It is a glial modulator, it is not only an NMDA receptor inhibitor.

  3. For intractable, treatment resistant cases, use as many glial modulators as you can.

  4. Ultra low dose naltrexone (20 micrograms TID) can profoundly reduce tolerance in patients on opioids: they may now need 1/2 to 1/8th the dose of opioid that simply had never quite done enough. Naltrexone not only relieves pain, it may profoundly improve function.

  5. Opioids stimulate glia to produce pro-inflammatory cytokines -> pain. Stop opioids if you can. You are likely to get far better results with glial modulators, especially if you have CRPS.

  6. Pain specialists should be offering a trial of glial modulators before they choose opioids for life.

  7. Use glial modulators as needed: ketamine, oxytocin (a hormone), tricyclic antidepressants (weaker than the others but can be profound for some), metformin.

  8. Metformin, a glial modulator!  for pain! in people who do not have diabetes. I will be posting on it this coming week — inshallah

  9.  Use it sparingly. Whether ketamine or opioids, use sparingly because of tolerance.

  10. If it is a good day, use less and use sparingly. If pain spikes, use higher dose, use sparingly.

  11.  When tolerance develops to ketamine, what then?

  12. Is it possible that a drug holiday would work? Should that be in months or years? we may never find out.

  13. Use ketamine and/or opioids sparingly. Prevent tolerance. You may not always need the same dose on a good day or when pain spikes.

  14. Make sure you are doing other things to relieve pain, not just ketamine or opioids.

  15.  Dextromethorphan helps, a sigma I receptor antagonist that reduces the excitotoxic glutamate

  16. Try as much as you can to exercise.

  17. Lift the mind to positive things. Learn to block thoughts of pain, dissociate from that. Choose life and doing and being.

  18. Develop momentum. Try never to judge; that includes being hard on yourself and others.

  19. Expand your spiritual life. Find your path if you don’t already have one. It may begin for all sorts of reasons, but figure it out. It’s real. Spiritual giants from all paths have had direct perception of the infinite in many ways and forms. Direct perception.

  20. S-ketamine clinical trials are now ongoing in the US. I was very disturbed to hear the side effects of S-ketamine infusion related last week. S-ketamine deeply disturbing. It is wrong to give everyone the same dose of ketamine. Not once have I ever heard anyone recount similar side effects from ketamine infusions. I got the impression from her they were not inclined to attribute it to S-ketamine, but it would be disturbing if they did not. Ketamine’s dose no matter how you give it is idiosyncratic, meaning some respond to 2 mg, some to 400 mg. It is wrong and should be unethical to subject someone to doses 200 times the dose they may need. It is dangerous and promotes tolerance.

  21.  If you’ve been stuck in bed, branch out and vary the things you do. Find music and poetry and literature. Maya Angelou suffered yet her words make you soar. Check out James Baldwin in the Oscar-nominated documentary “I Am Not Your Negro.” Baldwin’s immensely powerful analysis deconstructs movies, not as a mirror, but as a window into the imaginary; and how movies shape our thinking. As a movie critic, his writing is about poverty, class and “not everything that is faced can be changed, but nothing can be changed if it is not faced.” …  “There are days — this is one of them — when I wonder, how precisely are you going to reconcile yourself to your situation here…” So many writers fail to teach us how to analyze and think with such clarity. Something we don’t always do. We need to train ourselves to become critical thinkers. Baldwin brilliant mind demonstrates critical thinking at its best.

    Critical thinking is not a partisan issue. Tens of millions will lose jobs as robots rapidly take over in the next 3 years. Industry will reap more than ever in history. We all need to rethink our lives at some point.

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    Dylan’s song is about “the possibility that the most important (and least articulated) political issue of our times is that we are all being fed a false picture of reality, and it’s coming at us from every direction.”[10]

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    “Propaganda, all is phoney,” Dylan says in “It’s Alright, Ma (I’m Only Bleeding).”

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    Advertising signs that con you
    Into thinking you’re the one
    That can do what’s never been done
    That can win what’s never been won
    Meantime life outside goes on
    All around you.

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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 ketamine is FDA approved for another purpose, decades ago it was approved for anesthesia. In qualified hands, ketamine is one of the safest medications we have in our formulary.

     

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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.

    .

    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!

    ..

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

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