Rabu, 27 Agustus 2008

Mercury Toxicity

Mercury has long been known to be a toxic element in the environment and, in 1991, the
World Health Organization (WHO) determined that the primary source of mercury toxicity in the human body is from silver amalgam fillings in our teeth. Recent studies have also identified that one of the greatest local source of mercury in our environment is from crematoriums from the remaining amalgam fillings in the teeth.

The University of Calgary in conjunction with the International Association of Oral Medicine and Toxicology (IAOMT) jointly produced two short videos titled, “Smoking Teeth” and “How Mercury Toxicity Causes Brain Neuron Degeneration.” Please contact the Health Medicine Center and ask for a copy of this DVD from our lending library, or email Dr. Corwin through our HMF Web Form.

Diagnosis

How do we know if we have mercury toxicity? There is no way to accurately measure the body's mercury burden because mercury is hydrophobic (does not like water/blood) and hides in our central nervous system, body tissues, (fat, organs, bones and nerves). The standard blood and urine lab test are 100% inappropriate for identifying this toxicity because mercury will not stay in the blood long enough to be measured because of its hydrophobic properties and nerve tissue biopsy of the brain is just not practical. Special “provocative testing” is required to chemically chelate (tease out) these toxins from the body tissues (primarily kidneys) allowing the methyl mercury to circulate in the blood long enough for the kidneys to filter Hg-toxins measurable in a 6-hour urine sample. Even with this test, it is only an estimate and then one must extrapolate what the central nervous system (CNS) load might be.

To facilitate a diagnosis of heavy metal (HMT) or mercury (Hg) toxicity, applied kinesiology methods can identify the common organ toxicities associated with this condition as well as measure decreased nerve function (Hg causes nerve tissue degeneration) via a high frequency opponens muscle challenge test. This muscle challenge tests the strength of the hand (thumb and pinky) following repetitive movements and rest cycles and can be performed as a quick screening test.

Symptoms of Mercury Toxicity

The symptomology associated with HMT can vary from person to person depending on several factors, (diet, exercise, emotional well being and genetics). The most common factors are an inability to heal from common injuries swiftly (especially shoulder problems), musculo-skeletal injury pain that appears to be more intense and longer lasting than past episodes. In the central nervous system, the symptoms are brain fog, fatigue and a disruption of hormonal balance primarily the thyroid and secondarily, adrenal and reproductive hormones.

The strategy for a detox therapy depends on whether or not you have any remaining silver amalgam fillings. If one does have one or more silver amalgam fillings then a detox program must be coordinated with your dental care and may still require a pre-detox to minimize any potential adverse reaction.

Detoxification

The detox therapy may take the form of one or more different approaches depending on toxicity level, diet, age, ability for the liver to detox and, for women, whether or not one is or planning to get pregnant or lactating. The method I prefer to use is a kinesiological approach of re-educating the immune system and then tagging the organs, tissues, nerves and CNS where the methyl mercury and other toxins are hiding and then to facilitate its conversion via glutathione transferase (enzyme reaction) to an inert chemical compound that the liver can pull out of the blood and discard it in the bile. This methodology, although slower than direct pharmaceutical and nutritional chelation, is safer (while amalgam filling are still present) and without side effects. If one would like to optimize this process, consulting with our Nutritionist Geoffrey Marks, i.e. coordinating nutritional adjuncts and diet recommendations can and will facilitate this process.

For additional information please email Dr. Mitchell Corwin, D.C. through the HMF Web Form.
You can also contact Dr. Corwin through the Health Medical Center (HMC), or at his
Berkeley Office at (510) 845.3246

"Healing with Photons"

The pain is gone…I can’t believe it!” Those are the words of Jack, a patient whose pain suddenly disappeared after two decades of unrelenting pain from diabetic neuropathy and a treatment program that not only profoundly interfered with his quality of life but also resulted in an addiction to a myriad of pharmaceutical drugs. It was just that fast — two half-hour treatments with an invisible light and his pain disappeared. Incredible! No more medicines. He began feeling like his old self—he could think clearly and his zest for life returned. Jack’s family thinks it was a miracle.

Photonic Stimulation treatmentJack’s story is not unusual. However, diabetic neuropathy is only one of many health conditions that can be eliminated using a near infrared light therapy known as photonic stimulation. Since we have used this technology at the Health Medicine Institute our patients have been so delighted with its effects that we’ve had to expand our staff to accommodate their avalanche of referrals to friends and families.

Photonic stimulation sounds like “Star Trek” medicine — something out of the future that seems too far-fetched to exist in today’s world. However, quantum healing with near infrared light photons is a reality today and is poised to become an essential technology in medical practice for years to come. This powerful, effective, safe, and affordable technology is revolutionizing medical treatment for pain, many neurological disorders, and a wide variety of musculoskeletal and soft tissue maladies. Many health problems that had previously been notoriously difficult or even impossible to successfully manage can now benefit from photonic stimulation.

Photonic stimulation is based on scientific research
There is a rapidly growing body of solid scientific research documenting the effectiveness of near infrared light therapy. NASA published a study on our Navy Seals in the Journal of Clinical Laser Medicine and Surgery in November of 2001 showing that this frequency of light penetrates 23 centimeters into the body’s tissues, and that it not only relieves pain but also accelerates the healing process by 50% or more.

There is new evidence promising that photonic stimulation will have important applications in restoring vision in humans for a wide variety of disorders. An article that is in press in Proceedings of the National Academy of Sciences, reports that photonic stimulation prevents blindness induced by methyl alcohol poisoning in mice. And, according to New Science Magazine, September of 1999, NASA has shown that photonic stimulation can be used to treat eye injuries caused by laser burns. Additional clinical studies are also presently underway to document what those of us who have been exploring this technology already know from everyday experience.

How does photonic stimulation work?
Scientists believe that the mechanism of action of photonic stimulation is related to its ability to excite electrons within the energy producing mitochondria of cells in injured tissues. This process is thought to enable these cells to increase their production of ATP, the energy currency of our cells, and thereby stimulating the return of more normal cellular physiology. Accompanying this is a more normal regulation of the autonomic nervous system that increases blood flow to injured tissues—this promotes both pain relief and faster healing.
Combining photonic stimulation with thermography
Changes in blood flow can be measured with the application of thermography—the study of heat patterns at the body surface. Changes in cutaneous blood flow due to sympathetic nerve stimulation appear as specific temperature patterns on the skin. These thermographic patterns correlate with patients’ subjective improvement and can be measured in real time with the use of infrared scanning cameras. This process of combining imaging with an infrared camera while simultaneously treating the patient with a photon-generating device is referred to as “dynamic image feedback.” When photon therapy is applied there is a restoration of normal “isothermic” patterns on scanning.

The main criteria for infrared camera selection are thermal sensitivity and low background noise—discrimination of individual isotherm patterns is necessary for accurate diagnosis and effective treatment. We have been using the Bales Scientific Infrared Scanner, which has a sensitivity of .05 degrees Celsius and a temperature range that covers the extremes of the treatment room and patient. This amazing self-calibrating equipment allows for high resolution as well as accurate comparison of thermal records from day to day.

Photon generating devices
photonic stimulatorPhoton generating devices used for medical therapy include lasers, light emitting diodes (LEDS, and infrared mosaic arrays. Lasers have the potential of damaging soft tissues because their output is concentrated into a small intense beam of energy. Extreme caution must be exercised when using these devices, especially in regards to eye safety. Standard LEDS, on the other hand, are much weaker and lack sufficient energy output to be used as individual devices.

However, infrared mosaic arrays, such as are used in Bales Scientific’s Photonic Stimulator, have the unique advantage of high output power of infrared energy over a relatively large treatment area. They are safe because their energy output falls off rapidly with treatment distance. For example, if the treatment device were moved back two inches the output intensity would decrease to only 25%.

Applications of photonic stimulation in clinical practice
Some examples of conditions we’ve had success in managing using photonic stimulation include:
  • Diabetic and other neuropathies
  • Plantar fasciitis
  • Cervical and lumbar disc disease
  • TMJ headaches
  • Repetitive stress injuries
  • Reflex sympathetic dystrophy
  • Tendonitis / bursitis
  • Osteoarthritis
  • Sports and other injuries
  • Bell’s palsy
  • Burns, cuts, and contusions
  • Postoperative pain
  • Fibromyalgia
  • Carpal tunnel syndrome
  • Whiplash
It is not unusual to reverse symptoms that have persisted for decades in a matter of a few minutes. And, the beneficial effects of just a few treatments are likely to last for months to years. A good example of this is in patients with diabetic neuropathy, as previously demonstrated in Jack’s case. People with this condition are often required to endure the side effects of narcotics, antidepressants, anti-neuroleptics and a wide variety of other potentially dangerous drugs to control their severe pain. Photonic stimulation routinely restores the nerve dysfunction that leads to the pain, numbness, ulcerations, and amputations that all too often accompany patients with diabetic neuropathy.

Perhaps the most common application of photonic stimulation is for a wide variety of acute injuries. It is particularly effective for soft tissue injuries such as cuts, hematomas, contusions, muscle pulls, tennis elbow, plantar fasciitis, and all other myofascial pain syndromes. These injuries are routinely cured within 1-2 weeks, allowing a return to full activity. This became clear at the USA Track and Field Trials in Sacramento, CA, and the subsequent 2000 Olympic Games when international athletes treated with the photonic stimulator found this therapy very effective for their sports related injuries.

Personal experience is a powerful teacher that can be even more impacting than a large clinical trial. In March of 2001, I was preparing to take a trip to Australia to represent the US in Senior Davis Cup competition. In the over 60 year old division, playing with pain is more the rule than the exception! Unfortunately, a couple of weeks prior to leaving I developed a severe tennis elbow injury that I was sure would take me out of the competition. To my surprise, after using the photon stimulator for a few minutes twice a day for five days, the pain was totally gone and I was able to resume full activity—I went on to win the world singles title. Normally, as most tennis players know, this type of injury generally requires six weeks to 18 months to fully heal.

Several months ago I sustained a muscle pull in my left calf that left me limping from pain. Again, after using photonic stimulation twice a day for five days the pain totally resolved and I resumed full activity. The previous time I developed a calf pull it took nine months before I completely healed. I no longer take tennis trips without bringing the photonic stimulator in my tennis bag—it has become the “secret weapon” of our US Senior Davis Cup Team!

Age is not a limitation in using photonic stimulation. Tom is a 79-year-old former Wimbledon champion who was preparing to represent the US in Senior Davis Cup competition in late 2002. Having undergone a total shoulder replacement eight years prior, he was certain when he re-injured this shoulder that he would not be able to compete. Over the course of a week of daily treatment with photonic stimulation, the pain cleared and he resumed practicing five days a week. Tom referred to this as a “small miracle.”

Earlier this year, Jason came to the Health Medicine Institute—he had heard about the photonic stimulator and our integrative pain management program that uses no medications. At age 32 he was considering suicide because of unrelenting pain. He had suffered through two failed back surgeries for lumbar disc disease that left him in constant pain despite the use of narcotics, antidepressants, anti-inflammatory drugs, and muscle relaxants. He had become a “walking zombie” who could not find any position where pain was not incapacitating. He was on total disability, and pain and depression had become a way of life.

Jason’s initial treatment with the photonic stimulator provided his first break from pain in nearly four years. Within a few weeks of starting the Health Medicine Institute’s pain management clinic, which also included acupuncture, bodywork, chiropractic, and guided imagery, he was able to discontinue all medications. He began taking walks and slept through the entire night without pain. He is now going to the gym to regain his lost muscle strength.

At the age of 21, Todd was riding his motorcycle and was involved in an accident with a truck. His head was run over by the rear wheels and you can just imagine the injuries he sustained. Several reconstructive surgeries did wonders, but for the next ten years he suffered from nearly unbearable neuropathic pain in his left jaw and face. Todd had become seriously depressed—the polypharmacy of drugs he was taking did not satisfactorily control his pain, he could no longer function at work or at home, and he could not exercise without experiencing a severe exacerbation of pain. In desperation, Todd’s pain management physician referred him to the Health Medicine Institute for photonic stimulation treatment. This was his “last resort.”

After a single treatment of less than one minute with very low dose photonic stimulation, Todd’s pain dramatically lessened. Within several additional sessions of light therapy the pain disappeared completely and his problem became one of dealing with the addiction to his many medications. Within a couple of months Todd was pain free without the use of any drugs, he returned to full time work, the quality of his marital relationship improved, he could exercise, and his depression lifted.

What the future holds for photonic stimulation
There are many other life-changing stories similar to these. Over the more than thirty years I’ve been in medical practice, no technology has impacted the way I practice more than photonic stimulation. It is inevitable that as more healthcare practitioners and patients learn about this powerful technology, photonic stimulation will become a very popular mainstream therapy—it will soon become the first choice in managing pain and promoting healing rather than a “last resort.”