**********************************************************************
E stim for incontinenc e
**********************************************************************
Here are the abstracts for two articles about estim and leaky
bladders.
The bottom line is that a rectal probe or a vaginal probe to deliver
electrical stimulation to help strengthen pelvic floor muscles works.
It is like an electrified kegel exercise. It is uncomfortable, but
one controls how much electricity is delivered. I have used it, and
am using it now each day and have found it to be quite helpful.
A second method uses electrical stimulation to skin over the posterior
tibiliais nerve (by the ankle). That has been quite helpful as well,
but I have not personallly tried that version. I've pasted copies of
the abstracts from two articles talking about estim and incontinence.
You could take the abstracts to your physician and discuss possible
treatments with estim for your leaky bladdder if that is an issue for
you.
Although it is not yet approved for strengthening muscles to walk,
electrical stimulation of muscles is approved for strengthening
muscles to control one’s bladder. Treating a leaky bladder with
electrical stimulation works using a vaginal or rectal probe to
increase the strength of pelvic muscle works. Multiple studies have
shown this to be effective. The FDA has approved the use of such
devices. Minnova, manufactured by EMPI is one such device. If you
want to learn more – go to the EMPI web page.
Below is an abstract which one could take their physician or physical
therapist for more information to support the request to try e-stim
for incontence.
Treatment of urinary stress incontinence by intravaginal electrical
stimulation and pelvic floor physiotherapy
Amaro,J.L.
Int.Urogynecol.J.Pelvic.Floor.Dysfunct.
.Treatment of urinary stress incontinence (USI) by intravaginal
electrical stimulation (IES) and pelvic floor physiotherapy represents
an alternative to other therapies. The purpose of this work was to
evaluate the effectiveness of this treatment inpatients with urinary
incontinence. From January 1998 to May 2000, 30 women (mean age 54
years) were studied. All patients had USI and 70% urge incontinence;
average follow-up was 7 months. Selection criteria were based on
clinical history, objective evaluation of perineal musculature by
perineometry, and urodynamics. The treatment protocol consisted of
three sessions of IES per week for 14 weeks using INNOVA equipment.
Physiotherapy was initiated in the fifth week of IES. A significant
decrease in the number of micturitions and urgency was observed after
treatment ( P<0.01). The pad test showed a reduction in urinary
leakage from 13.9 to 5.9 g after treatment ( P<0.01). Objective
evaluation of perineal muscle strength showed a significant
improvement in all patients after treatment ( P<0.01). A positive
correlation was observed between maximum flow rate (Qmax) and all
three variables: urethral pressure profile at rest and on straining
(stop test), and abdominal leak-point pressure (ALPP). A positive
correlation was also observed between ALPP and the stop test. Over 100
different surgical and conservative treatments have been tried to
manage USI. The majority of these procedures reveal that despite
progress already made in this area, there is no ideal treatment.
Satisfactory results can be achieved with this method, especially with
patients who are reluctant to undergo surgery because of personal or
clinical problems.
Urodynamic effect of acute transcutaneous posterior tibial nerve
stimulation in overactive bladder
J.Urol. Amarenco,G 2003
PURPOSE: Of the various treatments proposed for urge incontinence,
frequency and urgency electrostimulation has been widely tested.
Different techniques have been used with the necessity of surgical
implantation (S3 neuromodulation or sacral root stimulation) or
without requiring surgery (perineal transcutaneous
electrostimulation). Recently peripheral electrical stimulation of the
posterior tibial nerve was proposed for irritative symptoms in first
intention or for intractable incontinence. Clinical studies have
demonstrated good results and urodynamic parameters were improved
after chronic treatment. However, to our knowledge no data concerning
acute stimulation and immediate cystometry modifications have been
reported. We verified urodynamic changes during acute posterior tibial
nerve stimulation. MATERIALS AND METHODS: A total of 44 consecutive
patients with urge incontinence, frequency and urgency secondary to
overactive bladder were studied. There were 29 women and 15 men with a
mean age +/-SD of 53.3 +/- 18.2 years. Of the patients 37 had detrusor
hyperreflexia due to multiple sclerosis (13), spinal cord injury (15)
or Parkinson's disease (9), and 7 had idiopathic detrusor instability.
Routine cystometry at 50 ml. per minute was done to select the
patients with involuntary detrusor contractions appearing before 400
ml. maximum filling volume. Repeat cystometry was performed
immediately after the first study during left posterior tibial nerve
stimulation using a surface self-adhesive electrode on the ankle skin
behind the internal malleolus with shocks in continuous mode at 10 Hz.
frequency and 200 milliseconds wide. Volume comparison was done at the
first involuntary detrusor contraction and at maximum cystometric
capacity. The test was considered positive if volume at the first
involuntary detrusor contraction and/or at maximum cystometric
capacity increased 100 ml. or 50% during stimulation in compared with
standard cystometry volumes. RESULTS: Mean first involuntary detrusor
contraction volume on standard cystometry was 162.9 +/- 96.4 ml. and
it was 232.1 +/- 115.3 ml. during posterior tibial nerve stimulation.
Mean maximum cystometric capacity on standard cystometry was 221 +/-
129.5 ml. and it was 277.4 +/- 117.9 ml. during stimulation. Posterior
tibial nerve stimulation was associated with significant improvement
in first involuntary detrusor contraction volume (p <0.0001) and
significant improvement in maximum cystometric capacity (p
<0.0001). The test was considered positive in 22 of the 44
patients. CONCLUSIONS: These results suggest an objective acute effect
of posterior tibial nerve stimulation on urodynamic parameters.
Improved bladder overactivity is an encouraging argument to propose
posterior tibial nerve stimulation as a noninvasive treatment modality
in clinical practice
Showing posts with label multiple sclerosis. Show all posts
Showing posts with label multiple sclerosis. Show all posts
Wednesday, September 9, 2009
Monday, September 7, 2009
MInding My Mitochondria
Minding My Mitochondria
By Dr. Terry L. Wahls
Dr. Wahls is an academic general internal medicine physician who has secondary progressive multiple sclerosis. Her MS confined her to a life of dependence on a tilt-recline wheelchair for four years. Eighteen months after starting her intensive, focused nutrition and electrical therapy to strengthen her muscles, Dr. Wahls now commutes to work five miles each day on her bicycle.
Minding My Mitochondria is a clear and concise explanation of the biochemistry that drives our brains and how the food we eat is linked to the health we do or do not have. Dr. Wahls teaches us how our brain cells work, the building blocks our cells need to do the work of living, and how to eat to ensure you have enough of them.
If you have a neurological or a psychological problem improving the health of your mitochondria will help your brain. If you have a chronic medical problem, improving the health of your mitochondria will help your body.
This book reveals the interventions, and the science behind them, that Dr. Wahls has used to restore her own health and the physical and mental health of her patients. Over 40 brain health recipes are included!
I.S.B.N. 13: 978-0-9821750-9-5
I.S.B.N. 10: 0-9821750-9-4
Publisher: TZ Press
119 pages
CONTENTS
Chapter 1. The Beginning
Chapter 2. Mitochondria
Chapter 3. Cellular Function and Brain Health
Chapter 4. Micronutrients, Supplements, and Food sources
Chapter 5. Neuro-protection
Chapter 6. Food Matters and MS
Chapter 7. Recipes
Chapter 8. The Synergy between Neuromuscular Electrical Stimulation and Nutrition
Chapter 9. Frequently Asked Questions--and Answers
Chapter 10. Conclusion
Photographs
Nutrient and Function Chart
Abbreviations
Glossary
References
Excerpt
Chapter 1. The Beginning
Rising costs of health care is crushing us. It’s not just old people getting diabetes, heart disease, arthritis, and cancers that are adding the cost of healthcare. Nearly a third of our children have serious medical problems like autism, depression, learning disabilities, obesity, or pre-diabetes. In addition to the exploding costs of health care, productivity of the American worker is falling because of declining worker health. Despite all the money spent on health care, we, and our children, are progressively less well.
Why is this happening to us? Have our genes gone bad? After all scientists are identifying more genes associated with chronic disease each day. Are mutations transforming our strong, lean bodies into obese, chronically diseased ones, or is there something else going on that is causing this change in the health our country?
I think the explanation for what has happening can be found in the corn fields of Iowa. When you buy seed corn, all the kernels have essentially the same DNA. The way farmers know what kind of crop to expect in the fall. Say the farmer plants half of the bag of seed corn in black Iowa soil and the other half in a trash heap filled with clay, plastic debris, and rock. Return in the fall to harvest the corn. The corn planted in the black dirt will be tall with three ears of corn on every plant. But the corn in the trash heap will look diseased. Instead of being dark green, the corn stalks will yellowed, stunted and barely three feet tall. Very few will have an ear of corn. If they do, only a few kernels will be present on tiny nubbins. It was the same DNA in both fields. But the black Iowa dirt was filled with the nutrients the corn’s DNA needed. The trash heap lacked nutrients, and you saw the results.
All moving things, including our bodies, break down with time. Fortunately, our bodies have tiny little maintenance workers who are busy repairing all the little wear-and-tear damage that occurs each day. Our DNA provides the blueprint for all the proteins and other stuff that needs to be replaced. If those little maintenance workers don’t have the all the building blocks, that is, the correct minerals, amino acids, and fatty acids, then trouble happens. They can’t make things according to the DNA blueprints. Those replacement molecules and structures get made not at all, or incorrectly, and we begin to deteriorate.
By Dr. Terry L. Wahls
Dr. Wahls is an academic general internal medicine physician who has secondary progressive multiple sclerosis. Her MS confined her to a life of dependence on a tilt-recline wheelchair for four years. Eighteen months after starting her intensive, focused nutrition and electrical therapy to strengthen her muscles, Dr. Wahls now commutes to work five miles each day on her bicycle.
Minding My Mitochondria is a clear and concise explanation of the biochemistry that drives our brains and how the food we eat is linked to the health we do or do not have. Dr. Wahls teaches us how our brain cells work, the building blocks our cells need to do the work of living, and how to eat to ensure you have enough of them.
If you have a neurological or a psychological problem improving the health of your mitochondria will help your brain. If you have a chronic medical problem, improving the health of your mitochondria will help your body.
This book reveals the interventions, and the science behind them, that Dr. Wahls has used to restore her own health and the physical and mental health of her patients. Over 40 brain health recipes are included!
I.S.B.N. 13: 978-0-9821750-9-5
I.S.B.N. 10: 0-9821750-9-4
Publisher: TZ Press
119 pages
CONTENTS
Chapter 1. The Beginning
Chapter 2. Mitochondria
Chapter 3. Cellular Function and Brain Health
Chapter 4. Micronutrients, Supplements, and Food sources
Chapter 5. Neuro-protection
Chapter 6. Food Matters and MS
Chapter 7. Recipes
Chapter 8. The Synergy between Neuromuscular Electrical Stimulation and Nutrition
Chapter 9. Frequently Asked Questions--and Answers
Chapter 10. Conclusion
Photographs
Nutrient and Function Chart
Abbreviations
Glossary
References
Excerpt
Chapter 1. The Beginning
Rising costs of health care is crushing us. It’s not just old people getting diabetes, heart disease, arthritis, and cancers that are adding the cost of healthcare. Nearly a third of our children have serious medical problems like autism, depression, learning disabilities, obesity, or pre-diabetes. In addition to the exploding costs of health care, productivity of the American worker is falling because of declining worker health. Despite all the money spent on health care, we, and our children, are progressively less well.
Why is this happening to us? Have our genes gone bad? After all scientists are identifying more genes associated with chronic disease each day. Are mutations transforming our strong, lean bodies into obese, chronically diseased ones, or is there something else going on that is causing this change in the health our country?
I think the explanation for what has happening can be found in the corn fields of Iowa. When you buy seed corn, all the kernels have essentially the same DNA. The way farmers know what kind of crop to expect in the fall. Say the farmer plants half of the bag of seed corn in black Iowa soil and the other half in a trash heap filled with clay, plastic debris, and rock. Return in the fall to harvest the corn. The corn planted in the black dirt will be tall with three ears of corn on every plant. But the corn in the trash heap will look diseased. Instead of being dark green, the corn stalks will yellowed, stunted and barely three feet tall. Very few will have an ear of corn. If they do, only a few kernels will be present on tiny nubbins. It was the same DNA in both fields. But the black Iowa dirt was filled with the nutrients the corn’s DNA needed. The trash heap lacked nutrients, and you saw the results.
All moving things, including our bodies, break down with time. Fortunately, our bodies have tiny little maintenance workers who are busy repairing all the little wear-and-tear damage that occurs each day. Our DNA provides the blueprint for all the proteins and other stuff that needs to be replaced. If those little maintenance workers don’t have the all the building blocks, that is, the correct minerals, amino acids, and fatty acids, then trouble happens. They can’t make things according to the DNA blueprints. Those replacement molecules and structures get made not at all, or incorrectly, and we begin to deteriorate.
Sunday, February 22, 2009
Researchers Find Link Between Oxidative Stress and MS in the spinal fluid of MS patients
Link between MS and oxidative stress documented in spinal fluid
This article was published December 2008
the link below should take you to the article --
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2584157#id409706%23id409706
J Neurol Sci. Author manuscript; available in PMC 2008 December 15.
Published in final edited form as:
J Neurol Sci. 2008 December 15; 275(1-2): 106–112.
Published online 2008 September 9. doi: 10.1016/j.jns.2008.07.032.
Copyright notice and Disclaimer
Cerebrospinal fluid evidence of increased extra-mitochondrial glucose metabolism implicates mitochondrial dysfunction in multiple sclerosis disease progression
William T. Regenold,1 Pornima Phatak,1 Michael J. Makley,2 Roger D. Stone,3 and Mitchel A. Kling4
1University of Maryland School of Medicine, Department of Psychiatry, Division of Geriatric Psychiatry, and the Baltimore Veterans Affairs Medical Center, Research Service, Baltimore, MD 21201, USA
2University of Maryland School of Medicine, Department of Neurology, Comprehensive Multiple Sclerosis Center Baltimore, MD 21201, USA
3National Institute of Neurological Disorders and Stroke, Neuroimmunology Branch, Bethesda, MD, USA
4Wyeth Pharmaceuticals, Division of Clinical Translational Medicine. Formerly, National Institute of Mental Health, Clinical Neuroendocrinology Branch, Bethesda, MD, USA
This was published in the Journal of Neurological Sciences in December 2008. These authors talk about the evidence of mitochondrial dysfunction in those with progressive MS. Quoting from their abstract: "... the extra-mitochondrial glucose metabolism increases with impaired mitochondrial metabolism of glucose, these findings implicate mitochondrial dysfunction in the pathogenesis of MS disease progression. CSF metabolic profiling may be useful in clarifying the role of mitochondrial pathology in progression and in targeting and monitoring therapies for disease progression that aim to preserve or boost mitochondrial glucose metabolism."
This is yet another bit of evidence which supports my theory that mitochondrial health have a large role to play in progressive multiple sclerosis. It may not be the whole story - inflammation is probably a factor also. But fixing one's mitochondria is probably a very important long term strategy.
T
This article was published December 2008
the link below should take you to the article --
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2584157#id409706%23id409706
J Neurol Sci. Author manuscript; available in PMC 2008 December 15.
Published in final edited form as:
J Neurol Sci. 2008 December 15; 275(1-2): 106–112.
Published online 2008 September 9. doi: 10.1016/j.jns.2008.07.032.
Copyright notice and Disclaimer
Cerebrospinal fluid evidence of increased extra-mitochondrial glucose metabolism implicates mitochondrial dysfunction in multiple sclerosis disease progression
William T. Regenold,1 Pornima Phatak,1 Michael J. Makley,2 Roger D. Stone,3 and Mitchel A. Kling4
1University of Maryland School of Medicine, Department of Psychiatry, Division of Geriatric Psychiatry, and the Baltimore Veterans Affairs Medical Center, Research Service, Baltimore, MD 21201, USA
2University of Maryland School of Medicine, Department of Neurology, Comprehensive Multiple Sclerosis Center Baltimore, MD 21201, USA
3National Institute of Neurological Disorders and Stroke, Neuroimmunology Branch, Bethesda, MD, USA
4Wyeth Pharmaceuticals, Division of Clinical Translational Medicine. Formerly, National Institute of Mental Health, Clinical Neuroendocrinology Branch, Bethesda, MD, USA
This was published in the Journal of Neurological Sciences in December 2008. These authors talk about the evidence of mitochondrial dysfunction in those with progressive MS. Quoting from their abstract: "... the extra-mitochondrial glucose metabolism increases with impaired mitochondrial metabolism of glucose, these findings implicate mitochondrial dysfunction in the pathogenesis of MS disease progression. CSF metabolic profiling may be useful in clarifying the role of mitochondrial pathology in progression and in targeting and monitoring therapies for disease progression that aim to preserve or boost mitochondrial glucose metabolism."
This is yet another bit of evidence which supports my theory that mitochondrial health have a large role to play in progressive multiple sclerosis. It may not be the whole story - inflammation is probably a factor also. But fixing one's mitochondria is probably a very important long term strategy.
T
Mitochondria and chronic fatigue link found
This article was forwarded to me - and I am providing a link below. It adds more credence to the importance of mitochondria as a factor contributing to fatigue.
Quick summary - link to full text is below.
Mitochondrial dysfunction noted in individuals with chronic fatigue syndrome. Those with more severe dysfunction had more severe fatigue.
See an attached PDF of the actual article. While this is not a multiple sclerosis patient population - it does lend credence to theory that mitochondrial dysfunction has a role in the disabling fatigue in worsening MS.
My advice -- eat specifically for your mitochondria. Be sure you've got a rich source of B vitamins (mushrooms, dark green leafy vegetables), co-enzyme Q (wheat germ or organic liver), and antioxidants (intense colors, preferably some purple-black, red, and yellow-orange each day). Spending most of your calories each day on organic vegetables, fruit, seeds/ nuts is a great way to add to your micro-nutrient content.
Quick summary - link to full text is below.
Mitochondrial dysfunction noted in individuals with chronic fatigue syndrome. Those with more severe dysfunction had more severe fatigue.
See an attached PDF of the actual article. While this is not a multiple sclerosis patient population - it does lend credence to theory that mitochondrial dysfunction has a role in the disabling fatigue in worsening MS.
My advice -- eat specifically for your mitochondria. Be sure you've got a rich source of B vitamins (mushrooms, dark green leafy vegetables), co-enzyme Q (wheat germ or organic liver), and antioxidants (intense colors, preferably some purple-black, red, and yellow-orange each day). Spending most of your calories each day on organic vegetables, fruit, seeds/ nuts is a great way to add to your micro-nutrient content.
Int J Clin Exp Med (2009) 2, 1-16
www.ijcem.com/IJCEM812001
Original Article
Chronic fatigue syndrome and mitochondrial dysfunction
Sarah Myhill1, Norman E. Booth2, John McLaren-Howard3
1Sarah Myhill Limited, Llangunllo, Knighton, Powys, Wales LD7 1SL, UK; 2Department of Physics and Mansfield College, University of Oxford, Oxford OX1 3RH, UK; 3Acumen, PO Box 129, Tiverton, Devon EX16 0AJ, UK
http://www.ijcem.com/files/IJCEM812001.pdf
Food Matters in MS
Food Matters in MS
The etiology of multiple sclerosis remains unknown. Likely there are several different pathways to developing multiple sclerosis of MS. The factors which are likely playing roles in MS are the interaction of the following: 1) DNA, 2) Toxin exposures (eaten, inhaled or absorbed through skin), 3) Infection 4) Micronutrient intake (food), 5) Allergy or sensitization (to food), 6) Stress level (physical, psychological and spiritual) and 7) Insulin production each day. The cause of injury has been identified as antibody complexes which destroy myelin. The loss of myelin leads to breaks in the communication between the brain (and spinal cord) and the body. The result is weakness and or disturbed sensation (blind, dizziness, pain).
In this blog I will talk food and multiple sclerosis. There are three main ways food can get individuals into trouble. First – is toxins from the use of herbicides and pesticides. Second is micronutrient intake and third is food allergy and sensitization. Third is the effect of maintaining high insulin levels on the level of inflammation in our body. I’ll conclude the article with a brief synopsis of what I have done personally regarding food.
Toxins are present in and on the food that has been grown with the help of pesticides and insecticides. Best options to deal with this is grown your own food, or buy local organic when you can. Wash all food carefully. If you buy non-organic wash carefully. The more gently you have to wash something, such as berries, the more likely it is that you can’t get the pesticides off the food. Lettuce, berries, and celery have high amounts of pesticide residue. If you can – go organic for those.
Micronutrients have been discussed previously. The standard American diet (SAD) is below the recommended daily intake for many vitamins, minerals and phytonutrients that our brains need. We often do eat enough omega 3 fatty acids (fish & fish oil, flax & flax oil) for making a key myelin. Neither do we eat enough of the correct amino acids (especially sulfur) for making key neurotransmitters. Diets with 9 cups of fruits and vegetables, 3 of which are rich in sulfur such as the onion and cruciferous family of vegetables will greatly improve the micronutrient content of the diet.
Food allergies and sensitivities are also a contributor. Celiac disease which is gluten (found in wheat, rye and barley) sensitivity causes the body to make antibodies against gluten. The symptoms are not just belly stuff. People can have skin problems, joint problems, fatigue, personality changes, mood problems, weakness, and pain. People have come in with severe neurological problems, severe changes on their brain MRIs and have been diagnoses with multiple sclerosis. But when someone considered the possibility of gluten sensitivity and had the patient faithfully follow gluten-free diet, their neurological problems began to resolve over the next year. The brain MRI improved. The large white scars on the MRI disappeared. The patient actually had gluten sensitivity, not multiple sclerosis. That is why anyone who has been diagnosed with multiple sclerosis would benefit from eating a very stringent gluten-free diet for at least a month to help determine what role gluten-sensitivity has in their disease.
If we can have that level of damage and response in the brain to sensitivity to wheat, it is logical to consider sensitivity to other foods can likely generate similar levels of damage to the body and brain. That means that anyone with MS who is not doing well would likely benefit from considering the possibility of food sensitivities as a factor that keeps their disease active.
That is a complex issue to solve because people can end up sensitized to multiple food items. We know that in those with gluten sensitivity, 70% have their symptoms completely resolved with gluten avoidance. The other 30% have additional food sensitivities which must be identified and also eliminated to do well. So how do we figure out who is sensitive to what foods? That is not easy for several reasons. 1) The blood tests can capture some of the sensitivities, but not all, and 2) Although most reactions occur quickly, some reactions to food occur up to 72 hours after ingestion. As a result the most effective way to confirm food sensitivities is through an elimination diet, food diary and symptom diary for a minimum of one month. The next several paragraphs describe two approaches to identifying what sensitivities a person may have.
Gradual food reintroduction is the most stringent application of a food diet asks the individual to eat only the most non-sensitizing food available in
Elimination diets are a more moderate approach. The person with MS is advised to eliminate the most common sources of food allergy from their diet initially. These include: wheat, eggs, milk, and legumes (which includes peanuts and cashews). They are then given a chart which lays out a 4 day rotation plan and menu suggestions. The goal here is to have the individual eat from different food families every day so that you do not eat a food more frequently than every 4 days. The individual is to keep a food and symptom diary. Because symptoms occur within 72 hours, the individual who has kept their food diary knows all of the food items they have eaten in the prior 3 days. They can identify what foods have been safe in the past, and what foods were new in that time period. They are advised to eliminate that food from their diet. If the person wishes, they could try that food again in 4 to 6 months. It turns out that for some people we have a few severe food allergies that we can never eat, and others which are milder allergy. If we eliminate the mild allergy food for 6 months, the lining of our gut heals. Then if our gut sees the mild allergy food only on occasion the gut cells can tolerate it without causing a major antibody response. The other benefit of an elimination diet is that it tends to increase the variety in our food intake often improving the micronutrient content in the long run.
Books are available on the issue of food sensitivities and micronutrients to help you design menus that can work for you. These include The Worlds’ Healthiest Foods http://www.whfoods.com/, The MS Recovery Diet http://msrecoverydiet.com/ and Restoring Your Digestive Health http://www.amazon.com/Restoring-Your-Digestive-Health-Transfom/dp/07582028220 . Gluten-free diet resources can be found at http://www.celiac.com/catalog/index.php?cPath=48_50. Asthon Embry has written extensively on connections between diet and MS and has a web site http://www.direct-ms.org/bestbet.html.
Celiac Disease and gluten-free diets have a larger collection of books devoted to that topic. Google the terms and you will find many sources of additional information.
Eating out and processed foods are a challenge for those who are using an elimination diet. You need to read labels carefully, and ask the waiter about what food item may be included in the dish you are ordering. The simplest approach is to avoid eating processed food, or eating out, particularly while you are first going through the elimination diet.
What did I do regarding my food consumption? In 2003 I began the Paleolithic diet. I eliminated grains, milk and legumes. I continued to eat meat, poultry, fish, vegetables (including white potatoes), fruit, and eggs. By 2007 I had gone back to eating rice, and occasional beans. Summer of 2007 I took a blood test for food allergies which identified marked sensitivity to eggs, pinto beans, and milk. I eliminated those from my diet in October. I started the four day rotation diet but did not maintain it. I was not keeping a food symptom diary. November 2007 I started neurostim. At the end of December I started the intensive diet rich with 9 cups fruits and vegetables a day minimum. I ate 4-6 cups of cruciferous or onion family vegetables each day, and 3 cups of brightly colored vegetables or fruits. January 2009 I went back to creating a food, symptom diary and began the elimination diet with the four day rotation of foods.
Why was I able to go from four years dependent on a scooter, back to walking, bicycling and skiing?
Since I don’t have serial blood tests to identify how much nutritional status changed, the inflammatory status, or biological changes that were occurring it is hard to say what precisely what happened as I got stronger. I do have several theories which I’ll share.
First – the neurostimulation that I started in November 2007 coupled with exercise produced stronger larger muscles and generated growth factors in the brain which stimulates repair of myelin, and growing new connections between brain cells. That priming made my brain more ready to do the repair work. The food made it possible for the brain cells to use the growth factors.
Second – I eliminated more vigorously the foods to which I had documented food sensitivity on the blood tests in the summer of 2007.
Third – I greatly increased the intake of B vitamins, co-enzyme Q, antioxidants and organic sulfur though food. This resulted in a big boost of the micronutrients I was eating.
Fourth – I switched to entirely organic foods.
Fifth – I focused on getting every color each day.
Sixth – Because I eliminated white potatoes, grains etc, - the amount of insulin my body makes each day is quite low.
Seventh – I now keep a food / symptom diary and follow a four day food rotation.
What about supplements?
While there may be benefits in supplements – they are not without risks. Supplements are not regulated by the FDA. There are many reports of supplements not containing what they label claims to be inside. In addition there are problems with the purity and contamination. If the herbs or foods listed on the label are not grown on organic farms, there is a risk of heavy metal contamination (also present in our food). But since the food is concentrated to very high levels for the supplement – the previously trace levels of contamination can become quite high. Another important difference is that nearly every study has shown that the whole food is associated with superior outcomes to specific nutrients. That is likely because we absorb nutrients better when they are in food. Higher blood levels are consistently seen in comparison to food versus supplementation. Also we get the additional hundreds of other phytonutrients in food all of which are likely playing contributory roles in health. My recommendation is to focus first on using an elimination diet and food/ symptom diary to maximize your micronutrient intake and lower inflammation.
Food matters. If you can, grow some of your own food. Buy organic. Try eliminating the most common offenders – gluten, eggs, milk, and legumes. Keep a food, symptom diary. Try an elimination diet with a four day food rotation. Consult with a nutritionist or other healthcare provider familiar with elimination diets. Exercise can help increase the brain growth factors and speed healing. But without the needed micronutrients and lower levels of inflammation – you wont’ get far. The quality of the good and the avoidance of foods to which you are sensitive can make a big difference in your ability to improve.
Sunday, December 14, 2008
Thiamin Vitamin B1
Thiamin, vitamin B1 is another key nutrient for brain health. In this newsletter I will briefly review the role of thiamine in the brain and some food sources for this important vitamin.
I have stated earlier that mitochondrial health is critical to brain health. Without mitochondria making ATP molecules from the food we eat, the brain cells do not have the energy to so their work. They can’t make myelin, they make few neurotransmitters and are unable to repair damage done to the myelin sheath.
Thiamin is involved in supporting mitochondrial function in the brain. Without thiamin mitochondria have more difficulty generating ATP molecules or energy from sugar and carbohydrates. Thiamin is also an important co-factor to help the brain cells make myelin to insulate the nerve.
Ensuring plenty of thiamin in one’s diet is important for anyone with MS. Thiamin is secreted by the kidneys and is generally not stored in the body. It is important to have a steady supply in your diet. Good food sources include sunflower seeds, mushrooms, yeast, asparagus, black beans, cabbage and kale.
How much thiamin can one take safely? Because the body can easily get red of the excess thiamin an upper limit for safe amount of thiamin has not been established.
Physicians have used thiamin to treat alcoholic-related brain damage. Excessive alcohol use can cause severe thiamin deficiency. As a result they develop brain damage causing problems with memory, coordination, balance and problems with heart failure. The typical dose of thiamine given to alcoholics is 100mg per day. Thus it is likely that 100 mg of thiamin each day would generally be safe.
Physicians in the past have advocated high dose thiamin for people with degenerative brain conditions like Parkinson’s, Alzheimer’s and multiple sclerosis. Dr. Frederich R. Klenner and the Canadian physician, Dr. H.T. Mount, both reported success using nutritional approaches to treat MS based upon liver extract which is a potent source of B vitamins. They believed that high dose thiamin, riboflavin (vitamin B2) and niacinamide (vitamin B3) were beneficial for those suffering from poor brain health.
Unfortunately, few who eat the western diet consume adequate amounts of vitamins and minerals, including the B vitamins. While taking extra thiamin may be very helpful, improving the micronutrient content of your diet overall is a better solution. Eat more mushrooms, nutritional yeast, vegetables and fruit with a goal of consuming at least 9 cups a day is a better solution. That way you get more of the many essential vitamins and minerals that are necessary for a healthy brain and a healthy body.
I have stated earlier that mitochondrial health is critical to brain health. Without mitochondria making ATP molecules from the food we eat, the brain cells do not have the energy to so their work. They can’t make myelin, they make few neurotransmitters and are unable to repair damage done to the myelin sheath.
Thiamin is involved in supporting mitochondrial function in the brain. Without thiamin mitochondria have more difficulty generating ATP molecules or energy from sugar and carbohydrates. Thiamin is also an important co-factor to help the brain cells make myelin to insulate the nerve.
Ensuring plenty of thiamin in one’s diet is important for anyone with MS. Thiamin is secreted by the kidneys and is generally not stored in the body. It is important to have a steady supply in your diet. Good food sources include sunflower seeds, mushrooms, yeast, asparagus, black beans, cabbage and kale.
How much thiamin can one take safely? Because the body can easily get red of the excess thiamin an upper limit for safe amount of thiamin has not been established.
Physicians have used thiamin to treat alcoholic-related brain damage. Excessive alcohol use can cause severe thiamin deficiency. As a result they develop brain damage causing problems with memory, coordination, balance and problems with heart failure. The typical dose of thiamine given to alcoholics is 100mg per day. Thus it is likely that 100 mg of thiamin each day would generally be safe.
Physicians in the past have advocated high dose thiamin for people with degenerative brain conditions like Parkinson’s, Alzheimer’s and multiple sclerosis. Dr. Frederich R. Klenner and the Canadian physician, Dr. H.T. Mount, both reported success using nutritional approaches to treat MS based upon liver extract which is a potent source of B vitamins. They believed that high dose thiamin, riboflavin (vitamin B2) and niacinamide (vitamin B3) were beneficial for those suffering from poor brain health.
Unfortunately, few who eat the western diet consume adequate amounts of vitamins and minerals, including the B vitamins. While taking extra thiamin may be very helpful, improving the micronutrient content of your diet overall is a better solution. Eat more mushrooms, nutritional yeast, vegetables and fruit with a goal of consuming at least 9 cups a day is a better solution. That way you get more of the many essential vitamins and minerals that are necessary for a healthy brain and a healthy body.
Tuesday, December 9, 2008
Radio interview podcast
This link will take you the Iowa Public radio station which has an MP3 file of interview with Ben Kieffer on "The Exchange" December 8th, 2008.
http://www.publicbroadcasting.net/kuni/.jukebox?action=featured
Scroll down to find the pod cast for December 8.
http://www.publicbroadcasting.net/kuni/.jukebox?action=featured
Scroll down to find the pod cast for December 8.
Thursday, December 4, 2008
MIcronutrients and Improved Function in MS
Progressive multiple sclerosis and micronutrients – is raw food superior to cooked food?
I am often asked whether raw food is superior to cooked food for micronutrient availability for patients with MS. The basic guide I provide is that food taken directly from the plant is the very best for you. If you cook food, the lower temper in steaming or a very low (180 degree) roast is the next best. The other key item is to eat any fluid or juice from the cooking (which is where all the water soluble nutrients have gone.
Micronutrients are critical for brain health. Unfortunately the average western diet is deficient in most vitamins, minerals, essential fatty acids and amino acids which have recommended daily allowances. The reason for this is the reliance on cheap sources of calories in grains which have most often had the germ and husk of the grain removed.
Very few vegetables are consumed. The animals are increasingly raised in high density farm factories with minimal exposure to green grass or sunshine. The consequence is that the meat has minimal omega 3 fatty acid, vitamin and mineral content.
Are nutrients lost with cooking? That depends on high the cooking temperature and how long. Immediately fresh and still raw when you eat the food means that cooking has not leached any of the micronutrients out of it. But some of the micronutrients may not be available to you because our bodies can’t digest all of the cell walls in plants. If you cook below the boiling point and drink all the juice – the food is generally more digestible and you have not lost much of the micronutrients. However – some of the compounds that are very helpful to us will gradually be lost with prolonged cooking. Cooking above the boiling point of water, particularly frying tends to oxidize many of the compounds in food. When that occurs many of the anti-oxidants in food have become oxidized – and therefore their anti-oxidant benefit to us is gone.
Bottom line – Raw retains the nutrients in the food. Cooking gently makes the nutrients more available because the food has been partially digested by cooking. Frying oxidizes many of the helpful compounds. Prolonged high temperatures cooking likewise can breakdown micronutrients. My advice is to increase your micronutrients through more vegetables and fruits. Eat them raw or cooked according to your personal preference. But if you cook, always drink the juice. Never throw it away.
Wednesday, November 26, 2008
Vitamin D and MS disease activity
In this blog I will comment on the role of vitamin D in multiple sclerosis. Multiple studies have demonstrated an association of low vitamin D levels and increased risk of multiple sclerosis diagnosis and greater severity of symptoms.
We also have more and more evidence that vitamin D is important to health immune function. Furthermore there is an epidemic of vitamin D deficiency. People spend less time outdoors. When they do go outside people apply sun screen to protect them from the sun to decrease the risk of skin cancer. The problem is that sun screen also blocks the skin's ability to make vitamin D. That explains why we have an epidemic of vitamin D deficiency in our children, young adults and those over sixty-five. Thus far every group that has been measured has had an alarming rate of vitamin D deficiency.
If someone has MS or has a family member with MS it is likely that they would benefit by taking supplemental vitamin D. What dose should they take? The recommended daily allowance for vitamin D has been set for only 400 international units (IU). That was when scientists had believed vitamin D's only role was related to bone health. The dose of 400IU was the dose of vitamin D which prevented spontaneous bone fractures. However vitamin D affects more than bones. The brain is filled with Vitamin D receptors and vitamin D is important to normal immune function.
There is increasing evidence the recommended daily allowance is much too low. If one was outside during the summer long enough so that their skin was slightly pink, but not enough to have even a mild sun burn, 20,000 IU of vitamin D would have been made in the skin. Researchers have recently given MS patients higher doses of vitamin D and then examined the patients for evidence of toxicity and of decreased MS disease activity. Their conclusion was that doses of 10,000 IU each day were well tolerated. Furthermore patients who had been given 10,000 IU experienced less disease activity as measured by the ability to tasks of daily living and the molecular markers of MS related inflammation.
Based on those study findings taking 10,000 IU per day of vitamin D is likely safe and likely beneficial. Using tanning beds to maintain a tan without burning is an alternative strategy to maintaining adequate vitamin D levels. Having your personal physician check your calcium level would confirm that the high dose of vitamin D is not causing problems for you. Ensuring that you have sufficient vitamin D is an important strategy to minimize disease activity if one has or is at risk of having MS.
We also have more and more evidence that vitamin D is important to health immune function. Furthermore there is an epidemic of vitamin D deficiency. People spend less time outdoors. When they do go outside people apply sun screen to protect them from the sun to decrease the risk of skin cancer. The problem is that sun screen also blocks the skin's ability to make vitamin D. That explains why we have an epidemic of vitamin D deficiency in our children, young adults and those over sixty-five. Thus far every group that has been measured has had an alarming rate of vitamin D deficiency.
If someone has MS or has a family member with MS it is likely that they would benefit by taking supplemental vitamin D. What dose should they take? The recommended daily allowance for vitamin D has been set for only 400 international units (IU). That was when scientists had believed vitamin D's only role was related to bone health. The dose of 400IU was the dose of vitamin D which prevented spontaneous bone fractures. However vitamin D affects more than bones. The brain is filled with Vitamin D receptors and vitamin D is important to normal immune function.
There is increasing evidence the recommended daily allowance is much too low. If one was outside during the summer long enough so that their skin was slightly pink, but not enough to have even a mild sun burn, 20,000 IU of vitamin D would have been made in the skin. Researchers have recently given MS patients higher doses of vitamin D and then examined the patients for evidence of toxicity and of decreased MS disease activity. Their conclusion was that doses of 10,000 IU each day were well tolerated. Furthermore patients who had been given 10,000 IU experienced less disease activity as measured by the ability to tasks of daily living and the molecular markers of MS related inflammation.
Based on those study findings taking 10,000 IU per day of vitamin D is likely safe and likely beneficial. Using tanning beds to maintain a tan without burning is an alternative strategy to maintaining adequate vitamin D levels. Having your personal physician check your calcium level would confirm that the high dose of vitamin D is not causing problems for you. Ensuring that you have sufficient vitamin D is an important strategy to minimize disease activity if one has or is at risk of having MS.
Wednesday, November 19, 2008
Connections Between Food, Mitochondria and Chronic Disease
In this post I will review the connection between micronutrients, mitochondria and multiple sclerosis. The link between the food you eat, the micronutrient content of that food, and multiple sclerosis is reviewed. The specific micronutrients needed for optimal mitochondrial health is reviewed and general diet recommendations are provided.
The brain and spinal cord depend entirely on mitochondria to the make the molecules of adenosine tri-phosphate or ATP which are used to drive everything that our brain cells must do to function. The chemical plant which makes ATP molecules is the mitochondria. Two important cofactors are needed to make ATP. These are B vitamins and coenzyme Q10. And like all manufacturing processes there is some left over trash at the end which is free radicals. And like any other factory, when the trash is not removed the chemical plant eventually blows up. The defense against free radicals is antioxidants. When the mitochondria are short on the B vitamins and coenzyme Q less ATP is made and more trash is made per ATP molecule generated. When less antioxidants are around free radicals are not neutralized and instead begin to damage the brain cell.
There is a growing medical literature which indicates that mitochondria are not healthy in multiple sclerosis and are contributing to the damage which is occurring, particularly in progressive MS. Eating to ensure one’s mitochondria have plenty of micronutrients is something under the individual’s control and is not going to conflict your current treatment.
It is important for cells to have a ready supply of intracellular anti-oxidants. It is the colored vegetables and fruits that have the most anti-oxidants.
Our Health= Micronutrients consumed – empty calories consumed.
Which one of those most closely describes your diet, or your children’s diet?
Chronic Disease= Few micronutrients (vegetables + fruits)- empty calories (French fries, potatoes, white bread, candy, soda, pastries etc.)
Optimal mental and physical healthy= Many fruits + vegetables, some fish, occasional organ meats – no empty calories.
The more micronutrients in your diet – the minerals like iron, magnesium, copper, manganese, calcium, vitamins both known and not yet discovered, and the antioxidants to help your cells get rid of the trash- the more easily it is for the cell to do all the things the DNA wants it to do.
I am in internal medicine- occasionally I give an antibiotic that cures someone of their infection. Mostly I give medicines that control symptoms- such as lowering blood pressure, improving blood sugar control, or lowering cholesterol. If someone wants to have optimal health- then they must provide their cells with as many micronutrients as possible.
Genes turn on and off according to our diets. That means if we eat diets poor in micronutrients- genes turn on which accelerate the degeneration of our bodies- worsening of diabetes, high blood pressure or obesity for example. If we eat diets rich in micronutrients – genes turn on that often lead to regression of disease.
Bottom line= optimal health requires optimal nutrition.
Physicians mostly can only control symptoms. For your mitochondria, your cells and your body’s to work most effectively – eat more micronutrients.
Diet recommendations: Each day maximize your micronutrients-
9 cups of vegetables and fruits 3 cups should be dark green or from the cabbage family,3 cups should be deeply colored, for example red, orange, or blue, and 3 cups of your choice but do not include potatoes or corn in the 9 cups.
Organ meats once a week or wheat germ daily for coenzyme Q
Fish or seafood three times a week
When you eat –
Have 3 cups of vegetables and fruit first, then your protein source, then whatever else it is that you want to eat. Remember –unless your are doing physical activity – your body was designed to maintain itself without any grains/ starchy potatoes. If you are physically active – then additional carbohydrates make sense. If you have any chronic disease – any calorie you eat that is not packed with micronutrients is a calorie that took you farther away from your goal of optimal health.
Activity – difficult to sustain if it is not part of your daily life. People who are most successful are those who have incorporated more walking, physicality into the their routines either before or during work hours. Moving (walking or jogging) one’s body 3 miles a day is optimal.
Sustaining the effort – people who lose weight and keep eating 9 or more cups of vegetables and fruit, and walked or jogged 20 miles in a week are the most successful at maintaining weight loss.
Supplements – Food is the best. Do not think can supplements replace the micronutrients from 9 cups of vegetables and fruits. If you cannot eat fish however –take fish oil or flax oil. If you cannot eat organ meats once a week or wheat germ daily, take coenzyme Q10 supplements. If you have chronic disease – improving the health and nutrition for your mitochondria is an excellent place to start.
Terry Wahls, MD
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