For Cinco de Mayo, my friend Victor came to our house and made vegan street tacos. They were sooooo good! It was basically black beans, guacamole, salsa, sun dried tomatoes and lime on steamed cabbage. They tasted soooo good!
Then tonight I made some spaghetti out of tomatoes, eggplant, shitake mushrooms, cilantro, onions, garlic, spices, apple cider vinegar, and zucchini noodles and hemp seed sprinkled on top :-)
And I have been practicing my contortion again. I have gotten my feet flat on the floor again. Not too bad for less than 3 months post partum :-)
CircusMomHope
Thursday, May 8, 2014
Bouncing back - Hope&Roilan Acro Hand to hand Performance
Like I said in the last post, the first few weeks were very rough and I was an emotional wreck which caused a lot of marital strain but my body is starting to level out. I made a promise to a client for a gig, I said I would have my strength back to perform at her event for autism awareness and fundraising. I am very proud to say that I accomplished that and Roilan and I did a grand performance. I must confess, performing made me feel more alive than I have felt in months. Roilan even used a hat and surprised me by not dropping it on my face :-) The video is at the end of this blog and I only made one mistake which is pretty awesome, and it was a timing mistake and not a big mistake for which I am grateful (when Roilan is on my back and I didn't go up because I couldn't feel his position... I must have lost focus temporarily, i usually never do that.
My sister Zina gave me a free Bikram Yoga pass for sugarhouse Bikram Yoga. That has helped leaps and bounds with my emotions, regulations etc. I find the routine extremely boring but at the same time it really makes me feel good so I keep going every day!
Roilan and I have also become Vegan... I know, scary right? I never saw that coming but I have felt really good and so has he since we started almost 2 weeks ago. Tonight I made a vegan spaghetti. I made the noodles out of zucchini with my veggeti spiral cutter, then I chopped eggplant and shitake mushrooms into a skillet and sautéed them. I also put tomatoes, onions, cilantro, olives and garlic into my new food processor and made a sauce and added it to the eggplant and shitake. Instead of parmesan I put hempseed on top.
I'm still working on trying to get my body back to my pre-pregnancy weight. It has been tough. My flexibility is coming back nicely though as well. I have been practicing contortion and hand balancing again but I really haven't gotten back into aerial. I have about 20lbs to lose before I am back where I started. I am not going to worry about it in the meantime. My body has been though so much and I am a brick house despite my extra fluff. I can't believe i can still do our act. I am very proud of myself after all that I have been through this last year. I thought I was going to give up but something deep inside of me that refuses and keeps pushing me along. I don't know how or for why, but I am grateful for that little fire.
My sister Zina gave me a free Bikram Yoga pass for sugarhouse Bikram Yoga. That has helped leaps and bounds with my emotions, regulations etc. I find the routine extremely boring but at the same time it really makes me feel good so I keep going every day!
Roilan and I have also become Vegan... I know, scary right? I never saw that coming but I have felt really good and so has he since we started almost 2 weeks ago. Tonight I made a vegan spaghetti. I made the noodles out of zucchini with my veggeti spiral cutter, then I chopped eggplant and shitake mushrooms into a skillet and sautéed them. I also put tomatoes, onions, cilantro, olives and garlic into my new food processor and made a sauce and added it to the eggplant and shitake. Instead of parmesan I put hempseed on top.
I'm still working on trying to get my body back to my pre-pregnancy weight. It has been tough. My flexibility is coming back nicely though as well. I have been practicing contortion and hand balancing again but I really haven't gotten back into aerial. I have about 20lbs to lose before I am back where I started. I am not going to worry about it in the meantime. My body has been though so much and I am a brick house despite my extra fluff. I can't believe i can still do our act. I am very proud of myself after all that I have been through this last year. I thought I was going to give up but something deep inside of me that refuses and keeps pushing me along. I don't know how or for why, but I am grateful for that little fire.
Monday, April 28, 2014
Aftermath
Well it has nearly been 2 months since we lost our son. It has been a roller coaster. I assume that I had post partum depression but it's kinda hard to tell when you are grieving over loss of your baby. I blamed myself a lot, I locked myself in the bathroom floor and cried on a daily basis and my husband and I talked about divorce on more than one occasion. I think we are in the clear now but I have NOT been an easy woman to deal with these last couple of months. My body and hormones are going back to normal, i've been taking lots of vitamins and eating healthy as possible. I've been taking the optimal multivitamin with the methylfolate and methylcobalamin, fish oil, trace minerals in my water, and vitamin D3. I try to add kale, collared greens or any other vegetable containing natural folate in nearly every meal that I take. I didn't realize before how important it is to get enough folate, not just in the case of getting pregnant but for your bodily health and mental health. I still feel a little crazy after all this. Life seems weird after all that transpired, I hope things start to feel normal again someday.
MTHFR, Lithium, Dopamine and You
There is something surprising about dopamine...
It determines a lot about your life choices and behavior.
Dopamine is a critical neurotransmitter
for pleasure seeking, motivation, focus and attention.
You thought you were in the driver's seat?
Think again...
This neurotransmitter has a massive impact on your choices.
Think sexual attraction. How sane is that?
It is totally driven by dopamine.
It's temporary insanity...
(Anti-psychotic medications universally act to reduce dopamine.)
In love?
It's the rise of dopamine....
Euphoric feelings, increased awareness,
and a tolerance for lack of sleep are all a part
of the dopamine surge of the attraction phase of romantic love.
You think it's your beloved, because they are so splendid?
It's not...
It's because they stimulate dopamine secretion in you.
You want the dopamine, and so you want them.
And when you habituate to that impact,
the honeymoon is over.
Very, very sad, but true.
The attraction phase of love is temporary insanity from high dopamine.
Either it passes or you walk around perpetually insane...
So what are the mechanisms that modulate dopamine in your body?
Lithium has been known for years to be useful for mood disorders.
No one has described why lithium has this stabilizing impact on mood.
And, if you have a mutation in the MTHFR C677T gene,
you are likely to have mood fluctuations,
and you are also likely to have low serum lithium levels.
Lithium comes together with MTHFR, methylation and dopamine
at the enzyme catechol-o-methyl-transferase, or COMT.
COMT deactivates the neurotransmitter dopamine.
It uses methyl groups to do this,
and MTHFR is important in the production of methyl groups.
Lithium increases the transport of B12 and folate into the cell.
B12 and folate are pivotal substances in the production of methyl groups,
which happens inside cells.
So lithium supports the production of methyl groups inside the cell.
Lithium may also increase the production of COMT,
which then uses the methyl groups MTHFR helps to make
to deactivate dopamine.
So, one of the modes of action of lithium may be
to reduce the level of dopamine in the body
by enhancing the production of methyl groups
and increasing the level of COMT.
Dr. Amy Yasko noted that a number of adults and children
using her protocol have low lithium levels.
She started looking carefully at lithium levels
and noticed correlations between low lithium, symptom formation
and particular mutations in the methyl group producing pathway.
Certain SNPs are associated with excess lithium excretion.
These mutations are MTHFR C677T +, MTR+, SHMT+, and CBS+.
Lithium is an essential trace element. You must get it from your diet.
The average intake of lithium from the diet
should be up to 3100 mcg, or 3.1 mg, per day.
What it takes to increase your serum lithium levels into the normal range
can be significantly more.
There is more information on methyl groups, methylation,
COMT, lithium, and dopamine on Nancy's blog at
chronicdiseasetalk.wordpress.com/
Monday, April 14, 2014
Did Tylenol Provoke the Autism Epidemic?
I found this from Dr Ben Lynch's page:
Tylenol. A huge issue. One dose wipes out glutathione in kids along with all the PAPS - which is needed to break down neurotransmitters and bind toxins - such as food coloring. Do not use Tylenol - ever. Please spread the word. In Cuba, there are VERY few autistic children there despite a very heavy vaccination program. Tylenol in Cuba is only available by prescription and not used often at all. Here - Tylenol is over the counter and heavily used and abused. Spread the word. Don't use Tylenol. Thanks to William Shaw for pointing the connection between possible low rates of Autism in Cuba due to restricted Tylenol use. Of course - as always - this is just one of many causes - but even so - it is a big one. No Tylenol. None.
Article explaining more detail about tylenol and the autism connection. Thanks to Dr Erica Peirson for providing this link. Did Acetaminophen Provoke the Autism Epidemic?
Tylenol. A huge issue. One dose wipes out glutathione in kids along with all the PAPS - which is needed to break down neurotransmitters and bind toxins - such as food coloring. Do not use Tylenol - ever. Please spread the word. In Cuba, there are VERY few autistic children there despite a very heavy vaccination program. Tylenol in Cuba is only available by prescription and not used often at all. Here - Tylenol is over the counter and heavily used and abused. Spread the word. Don't use Tylenol. Thanks to William Shaw for pointing the connection between possible low rates of Autism in Cuba due to restricted Tylenol use. Of course - as always - this is just one of many causes - but even so - it is a big one. No Tylenol. None.
Article explaining more detail about tylenol and the autism connection. Thanks to Dr Erica Peirson for providing this link. Did Acetaminophen Provoke the Autism Epidemic?
Saturday, April 12, 2014
Vitamin B12: All Cobalamins are not Equal
From http://www.strokedoctor.com/vitamin_b12.htm
"Vitamin B12: All Cobalamins are not Equal
Look at your multiple vitamin or B complex bottle. You're probably taking cyanocobalamin, the stable and less expensive form of vitamin B12. Because it is stable, it has a longer shelf life. However, the active form of B12 is methylcobalamin and the two are NOT equal in effectiveness. If you have symptoms of GI disorders, lethargy, confusion, slow thought processes, heart rate variability, atherosclerosis, sleep disorders, or immune dysfunction, you may need the methyl as well as the cobalamin component.
The two vitamin B12 coenzymes known to be metabolically active in humans are methylcobalamin and adenosylcobalamin. Vitamin B12 is usually absorbed from the gut from the fermentation of intrinsic factor by intestinal flora. However, production can be disturbed by nutritional deficiencies, intrinsic factor deficiency, bacterial overgrowth, malabsorption, alcohol, and antibiotics. Nitrous oxide anesthesia in surgery and nitric acid from normal metabolism and inflammation also reduce our vitamin B12 levels.
Cobalamins are destroyed by heavy metals and strong oxidizing or reducing agents. (take at different times than vit c). Vitamin B12 deficiency generally increases with age and is common in the elderly.(2)
Both vitamin B12 and folic acid are required for the synthesis of thymidylate, a component of DNA. Lack of adequate DNA synthesis causes many red blood cell precursors (hematopoietic cells) to die in the bone marrow. The development of epithelial cells is also disturbed by thymidylate deficiency. Gut changes due to vitamin B12 deficiency are often related to constipation whereas a folic acid deficiency is generally related to diarrhea. In the brain, the arrest of cell replication due to vitamin B12 deficiency disrupts myelin synthesis, resulting in neural damage in the brain, spinal cord and/or peripheral nerves. Vitamin B12 deficiency can include the following neurological symptoms: numbness and tingling in the hands and feet, unsteadiness, poor muscular coordination, moodiness, mental slowness, poor memory, confusion, agitation, and/or depression.
Vitamin B12 is involved in fat and carbohydrate metabolism. It is required in the synthesis of the amino acid methionine, which is involved in choline and betaine utilization. B12 assists in maintaining sulfhydryl (SH) groups in their reduced form for enzyme activity. Vitamin B12 deficiency is associated with a decrease of reduced glutathione, needed for cell defense against pathogens (viruses, bacteria, fungi) and toxins.
Methylcobalamin is a co-factor of methionine synthase, an enzyme that transfers methyl groups to homocysteine to regenerate methionine. Elevated homocysteine levels are a risk factor for coronary artery disease. (11) Methionine can be transformed to S-adenoxylmethionine (SAM) that is involved in a variety of methylation reactions in the body, one of which is alleviating depression.(13)
Methylcobalamin also plays a role in cell-mediated and humoral immune function in rats. In vitamin B12 deficient rats, serum C3, IgM and Ig G factors were found to be lower. There was also an elevation of the ratio of CD4+ CD8- to DC4- CD8+, which reduces the ability to fight off pathogens.(12)
Cyanocobalamin is not biologically active until converted to methylcobalamin, which also means releasing its cyanide. Cyanide can be toxic because it binds the iron (F3+) portion of cytochrome oxidases, preventing its reduction. This binding blocks electron transport and interrupts cellular respiration. Symptoms of sublethal cyanide toxicity include hypotension, tachypnea, and tachycardia.(4)
Cobalamin can bind with cyanide and is therefore effective in reducing cyanide toxicity. However cyanocobalamin is not effective in removing cyanide because the cobalamin is already bound. (3) Since nitroprusside can induce cyanide toxicity, other cobalamins such as hydroxocobalamin should be used to bind with cyanide. Nitroprusside therapies should be minimized in critically ill patients and those with liver or kidney dysfunction.
Large amounts of cyanocobalamin can exacerbate preexisting cyanide toxicity that can result from smoking tobacco, sodium nitroprusside therapy, and phagocytosis. Steve Roach, M.D. writes that "it seems wise to avoid a potentially harmful form of a drug when the more physiologic variety is available and is excreted at a more desirable rate.(7)
Foods fortified with vitamin B12 (as cyanocobalamin) may be a potential problem if cooked. The highest mutation activity in cooked (pyrolysate) vitamins was found in cyanocobalamin (3220 revertants at .025 mumole of cyanocobalamin).(5)
In a comparison of cobalamins against cancer, adenoxylcobalamin was effective against fast-growing malignant cells. Methylcobalamin was effective at elevated concentrations and cyanocobalamin had no effect in slowing the growth of any of the tumor cell lines studied.(6) In studies that show that vitamin B12 has no effect on cancer growth, we need to look closer at whether cyanocobalamin was used instead of the natural coenzyme forms (adenoxylcobalamin and methylcobalamin).
Methylcobalamin enhances synaptic transmission in learning and memory. Ikeuchi and associates studied the effects of methyl-B12 on the electrical activity in hippocampal neurons and found that methyl-B12 increased post-synaptic field potential which lasted more than an hour and increased the electrical currents elicited by N-methyl-D-aspartate (NMDA). Cyanocobalamin had no effect.(13)
Methylcobalamin plays a role in modulating human circadian rhythms. It accelerates re-entrainment of the activity rhythm to the environmental light-dark cycle. The suprachiasmatic nucleus (SCN) is involved in relaying photic information to the pineal gland. Methylcobalamin enhanced the field potential in the SCN that lasted an hour. In contrast, cyanocobalamin showed no effect.(16) Methylcobalamin is also required in donating a methyl group for the synthesis of melatonin. Methylcobalamin supplementation can assist in modulating melatonin secretion, enhancing light-sensitivity, normalizing circadian rhythms and improving sleep-wake cycles. (17) Methylcobalamin also helps improve heart rate variability, suggesting that it is involved in balancing sympathetic and parasympathetic nervous system function,(18) perhaps through its involvement with light entrainment and melatonin synthesis. Since circadian rhythm and melatonin synthesis are key factors in health maintenance, the use of cyanocobalamin rather than methylcobalamin is undermining our health as individuals as well as a nation.
Another study found a correlation between serum vitamin B12 in women and their breast milk. When a group of lactating women were injected with cyanocobalamin, there was also an increase of cyanocobalamin in their breast milk.
As early as 1970, Dr. A.G. Freeman protested against the use of cyanocobalamin in The Lancet. He again wrote a letter in 1978, entitled "Why Has Cyanocobalamin Not Been Withdrawn?" to The Lancet and to the British Committee on Safety of Drugs. Dr. Freeman voiced the concern that even if hydroxocobalamin is prescribed, cyanocobalamin is administered in its place. They wrote that "because doctors are still confused about the differences between various forms of vitamin B12 commercially available and about their possible adverse effects, manufacturers should withdraw cyanocobalamin in favor of hydroxocobalamin for therapeutic use." (8)
A letter from Dr. Terry was published in the October, 1978 issue of The Lancet. He wrote that "the lead for improved prescribing must come form compilers of formularies that are highly regarded. In this respect it is disappointing to find that the W.H.O. expert committee on the selection of essentiald rugs lists only cyanocobalamin, placing an incalculable number of patients with optic neuropathy in pernicious anemia or tobacco and tropical amblyopia at risk." (9)
In the November 1978 issue, the Lancet published a letter by J.C.Linnell and associates entitled "Therapeutic Misuse of Cyanocobalamin." The authors state that cyanocobalamin itself has no known biochemical function. Only trace amounts of cyanocobalmin are normally detectable in the human body, while significant amounts occur in patients with optic neuropathies, inborn errors of cobalamin metabolism and pernicious anemia. Cyanocobalamin must first undergo conversion to the physiological forms of cobalamin before being effective against pernicious anemia. However hydroxocobalamin (a precursor to methyl and andenoxylcobalamin) "has the additional advantage of therapeutic efficacy in certain neuropathies and some cases of inborn errors of cobalamin metabolism." The authors further write that "it is lamentable that an extensive demand for cyanocobalamin as a therapeutic agent should persist. There seems to be no place for the continued therapeutic use of cyanocobalamin." (10)
Vitamin B12 is found in algae, peas, clover, alfalfa, mustard, egg yolk, chedder cheese, sardines, herring, anchovies, calve's liver, haddock, salmon, and cow's milk. Plants containing S-methylmethionine include cabbage, kohlrabi, turnip, tomatoes, celery, leeks, garlic, beets, raspberries and strawberries (14). Cyanocobalamin is in haddock and cassava root. Elevated amounts of cyanocobalamin have been found in smokers and cases of amyotrophic lateral sclerosis and optic atrophy.
Clinical doses of methylcobalamin are 1500-6000 mcg per day and can be administered orally, intramuscularly or intravenously with positive clinical results. Methylcobalamin is well tolerated and has no known toxicity. B complex (riboflavin, folic acid, pyridoxine, and choline), and zinc assist methylcobalamin effectiveness. It is important that physicians giving injections check the source of their vitamin B12. Not only can it be cyano rather than methylcobalamin, but the shot gun approach of giving liver extract can include allergenics. One report states that 10-30% of pharmaceutical preparations may be noncobalamin analogues, that are either inactive or cause allergic reactions. (1)
In conclusion, methylcobalamin can be effective in cases of neuropathy, depression, cancer, optic atrophy, heart rate variability, homocysteinemia, and sleep disturbances. However, all cobalamin analogues are not equal and taking cyanocobalamin with already elevated levels of cyanide can actually be harmful. It has been thirty years since Dr. Freeman first published a letter in The Lancet about the risks of using cyanocobalamin. How much longer can we afford to allow ignorance and profit motives to undermine our nation's health?
REFERENCES:
(1) Herbert, Victor and Neville Colman. "Folic Acid and Vitamin B12" in Shils, Maurice and Vernon R. Young, "Modern Nutrition in Health and Disease." Lea & Febinger, Philadelphia, PA, 1988, pg. 388-416. (2) Watt, D.T. "Vitamin B12 replacement therapy: how much is enough?" Wisconsin Medical Journal, 1994, 93(5): 203- 5. (3) Zerbe, N.F. et al. "Use of vitamin B12 in the treatment and prevention of nitroprusside-induced cyanide toxicity." Critical Care Medicine, 1993, 21(3): 465-7. (4) Williams, H.L. et al. "Studies of cobalamin vehicle for the renal excretion of cyanide anion." Journal of Laboratoyr and Clinical Medicine, 1990, 116(1): 37-44. (5) Demura, R. et al. "Mutagenic activity of pyrolysate of cyanocobalamin and some other soluble vitamins in the model system with the Salmonella/mammalian microsomes." Mutation Research, 1990, 244(1): 37-42. (6) Tsao, C.S. et al. "Cytotoxic activity of cobalamin in cultured malignant and nonmalignant cells." Pathobiology, 1990, 58(5): 292-6. (7) Sawyer, D.R. "Cyanocobalmin and cyanide toxicity (letter)." American Family Physician, 1982, 26(1): 48.50,55. (8) Freeman, A.G. et al. "Why has cyanocobalamin not been withdrawn?" The Lancet, April 8, 1978; pg. 777-778. (9) Terry, S.I. et al. "Survival of Cyanocobalmin." The Lancet, October 14, 1978, pg. 848. (10) Linnell, J.C. et al. "Therapeutic Misuse of Cyanocobalamin". Lancet, November 11, 1978; pg 1053-1054. (11) Brown, C.A. et al. "A Common Polymorphism in Methionine Synthase Reductase Increases Risk of Premature Coronary Artery Disease." J Cardiovasc Risk 2000, 7(3): 197-200. (12) Funada, U. et al. "Changes in CD4+ CD8-/CD4- CD8+ ratio and humoral immune functions in vitamin B12-deficient rats." Int J Vitam Nutr Res, 2000, 70(4): 167-71. (13) Ikeuchi, Youji et al. "Methylcobalamin induces a long-lasting enhancement of the postsynaptic field potential in hippocampal slices of the guinea pig." Neuroscience Leters, 1995, 192: 113-116. (14) Kovatscheva, E.G. et al. "S-methylmethionine content in plant and animal tissues and stability during storage." Nahrung, 1977, 21(6): 465-72. (15) Schneider, Z. "Comprehensive B12." Walter de Gruyter, New York, New York, 1987. (16) Nishikawa, Yukiko et al. "Methylcobalamin induces a long-lasting enhancement of the field potential in rat suprachiasmatic nucleus slices." Neuroscience Letters, 1996: 220: 199-202. (17) Mayer, G. et al. "Effects of vitamin B12 on performance and circadian rhythm in normal subjects." Neuropsychopharmacology, 1996; 15: 456-464. (18) Yoshioka, K. et al. "Effect of methylcobalamin on diabetic autonomic neuropathy as assessed by power spectral analysis of heart rate variations." Horm Metab Res, 1995, 27: 43-44"
"Vitamin B12: All Cobalamins are not Equal
Look at your multiple vitamin or B complex bottle. You're probably taking cyanocobalamin, the stable and less expensive form of vitamin B12. Because it is stable, it has a longer shelf life. However, the active form of B12 is methylcobalamin and the two are NOT equal in effectiveness. If you have symptoms of GI disorders, lethargy, confusion, slow thought processes, heart rate variability, atherosclerosis, sleep disorders, or immune dysfunction, you may need the methyl as well as the cobalamin component.
The two vitamin B12 coenzymes known to be metabolically active in humans are methylcobalamin and adenosylcobalamin. Vitamin B12 is usually absorbed from the gut from the fermentation of intrinsic factor by intestinal flora. However, production can be disturbed by nutritional deficiencies, intrinsic factor deficiency, bacterial overgrowth, malabsorption, alcohol, and antibiotics. Nitrous oxide anesthesia in surgery and nitric acid from normal metabolism and inflammation also reduce our vitamin B12 levels.
Cobalamins are destroyed by heavy metals and strong oxidizing or reducing agents. (take at different times than vit c). Vitamin B12 deficiency generally increases with age and is common in the elderly.(2)
Both vitamin B12 and folic acid are required for the synthesis of thymidylate, a component of DNA. Lack of adequate DNA synthesis causes many red blood cell precursors (hematopoietic cells) to die in the bone marrow. The development of epithelial cells is also disturbed by thymidylate deficiency. Gut changes due to vitamin B12 deficiency are often related to constipation whereas a folic acid deficiency is generally related to diarrhea. In the brain, the arrest of cell replication due to vitamin B12 deficiency disrupts myelin synthesis, resulting in neural damage in the brain, spinal cord and/or peripheral nerves. Vitamin B12 deficiency can include the following neurological symptoms: numbness and tingling in the hands and feet, unsteadiness, poor muscular coordination, moodiness, mental slowness, poor memory, confusion, agitation, and/or depression.
Vitamin B12 is involved in fat and carbohydrate metabolism. It is required in the synthesis of the amino acid methionine, which is involved in choline and betaine utilization. B12 assists in maintaining sulfhydryl (SH) groups in their reduced form for enzyme activity. Vitamin B12 deficiency is associated with a decrease of reduced glutathione, needed for cell defense against pathogens (viruses, bacteria, fungi) and toxins.
Methylcobalamin is a co-factor of methionine synthase, an enzyme that transfers methyl groups to homocysteine to regenerate methionine. Elevated homocysteine levels are a risk factor for coronary artery disease. (11) Methionine can be transformed to S-adenoxylmethionine (SAM) that is involved in a variety of methylation reactions in the body, one of which is alleviating depression.(13)
Methylcobalamin also plays a role in cell-mediated and humoral immune function in rats. In vitamin B12 deficient rats, serum C3, IgM and Ig G factors were found to be lower. There was also an elevation of the ratio of CD4+ CD8- to DC4- CD8+, which reduces the ability to fight off pathogens.(12)
Cyanocobalamin is not biologically active until converted to methylcobalamin, which also means releasing its cyanide. Cyanide can be toxic because it binds the iron (F3+) portion of cytochrome oxidases, preventing its reduction. This binding blocks electron transport and interrupts cellular respiration. Symptoms of sublethal cyanide toxicity include hypotension, tachypnea, and tachycardia.(4)
Cobalamin can bind with cyanide and is therefore effective in reducing cyanide toxicity. However cyanocobalamin is not effective in removing cyanide because the cobalamin is already bound. (3) Since nitroprusside can induce cyanide toxicity, other cobalamins such as hydroxocobalamin should be used to bind with cyanide. Nitroprusside therapies should be minimized in critically ill patients and those with liver or kidney dysfunction.
Large amounts of cyanocobalamin can exacerbate preexisting cyanide toxicity that can result from smoking tobacco, sodium nitroprusside therapy, and phagocytosis. Steve Roach, M.D. writes that "it seems wise to avoid a potentially harmful form of a drug when the more physiologic variety is available and is excreted at a more desirable rate.(7)
Foods fortified with vitamin B12 (as cyanocobalamin) may be a potential problem if cooked. The highest mutation activity in cooked (pyrolysate) vitamins was found in cyanocobalamin (3220 revertants at .025 mumole of cyanocobalamin).(5)
In a comparison of cobalamins against cancer, adenoxylcobalamin was effective against fast-growing malignant cells. Methylcobalamin was effective at elevated concentrations and cyanocobalamin had no effect in slowing the growth of any of the tumor cell lines studied.(6) In studies that show that vitamin B12 has no effect on cancer growth, we need to look closer at whether cyanocobalamin was used instead of the natural coenzyme forms (adenoxylcobalamin and methylcobalamin).
Methylcobalamin enhances synaptic transmission in learning and memory. Ikeuchi and associates studied the effects of methyl-B12 on the electrical activity in hippocampal neurons and found that methyl-B12 increased post-synaptic field potential which lasted more than an hour and increased the electrical currents elicited by N-methyl-D-aspartate (NMDA). Cyanocobalamin had no effect.(13)
Methylcobalamin plays a role in modulating human circadian rhythms. It accelerates re-entrainment of the activity rhythm to the environmental light-dark cycle. The suprachiasmatic nucleus (SCN) is involved in relaying photic information to the pineal gland. Methylcobalamin enhanced the field potential in the SCN that lasted an hour. In contrast, cyanocobalamin showed no effect.(16) Methylcobalamin is also required in donating a methyl group for the synthesis of melatonin. Methylcobalamin supplementation can assist in modulating melatonin secretion, enhancing light-sensitivity, normalizing circadian rhythms and improving sleep-wake cycles. (17) Methylcobalamin also helps improve heart rate variability, suggesting that it is involved in balancing sympathetic and parasympathetic nervous system function,(18) perhaps through its involvement with light entrainment and melatonin synthesis. Since circadian rhythm and melatonin synthesis are key factors in health maintenance, the use of cyanocobalamin rather than methylcobalamin is undermining our health as individuals as well as a nation.
Another study found a correlation between serum vitamin B12 in women and their breast milk. When a group of lactating women were injected with cyanocobalamin, there was also an increase of cyanocobalamin in their breast milk.
As early as 1970, Dr. A.G. Freeman protested against the use of cyanocobalamin in The Lancet. He again wrote a letter in 1978, entitled "Why Has Cyanocobalamin Not Been Withdrawn?" to The Lancet and to the British Committee on Safety of Drugs. Dr. Freeman voiced the concern that even if hydroxocobalamin is prescribed, cyanocobalamin is administered in its place. They wrote that "because doctors are still confused about the differences between various forms of vitamin B12 commercially available and about their possible adverse effects, manufacturers should withdraw cyanocobalamin in favor of hydroxocobalamin for therapeutic use." (8)
A letter from Dr. Terry was published in the October, 1978 issue of The Lancet. He wrote that "the lead for improved prescribing must come form compilers of formularies that are highly regarded. In this respect it is disappointing to find that the W.H.O. expert committee on the selection of essentiald rugs lists only cyanocobalamin, placing an incalculable number of patients with optic neuropathy in pernicious anemia or tobacco and tropical amblyopia at risk." (9)
In the November 1978 issue, the Lancet published a letter by J.C.Linnell and associates entitled "Therapeutic Misuse of Cyanocobalamin." The authors state that cyanocobalamin itself has no known biochemical function. Only trace amounts of cyanocobalmin are normally detectable in the human body, while significant amounts occur in patients with optic neuropathies, inborn errors of cobalamin metabolism and pernicious anemia. Cyanocobalamin must first undergo conversion to the physiological forms of cobalamin before being effective against pernicious anemia. However hydroxocobalamin (a precursor to methyl and andenoxylcobalamin) "has the additional advantage of therapeutic efficacy in certain neuropathies and some cases of inborn errors of cobalamin metabolism." The authors further write that "it is lamentable that an extensive demand for cyanocobalamin as a therapeutic agent should persist. There seems to be no place for the continued therapeutic use of cyanocobalamin." (10)
Vitamin B12 is found in algae, peas, clover, alfalfa, mustard, egg yolk, chedder cheese, sardines, herring, anchovies, calve's liver, haddock, salmon, and cow's milk. Plants containing S-methylmethionine include cabbage, kohlrabi, turnip, tomatoes, celery, leeks, garlic, beets, raspberries and strawberries (14). Cyanocobalamin is in haddock and cassava root. Elevated amounts of cyanocobalamin have been found in smokers and cases of amyotrophic lateral sclerosis and optic atrophy.
Clinical doses of methylcobalamin are 1500-6000 mcg per day and can be administered orally, intramuscularly or intravenously with positive clinical results. Methylcobalamin is well tolerated and has no known toxicity. B complex (riboflavin, folic acid, pyridoxine, and choline), and zinc assist methylcobalamin effectiveness. It is important that physicians giving injections check the source of their vitamin B12. Not only can it be cyano rather than methylcobalamin, but the shot gun approach of giving liver extract can include allergenics. One report states that 10-30% of pharmaceutical preparations may be noncobalamin analogues, that are either inactive or cause allergic reactions. (1)
In conclusion, methylcobalamin can be effective in cases of neuropathy, depression, cancer, optic atrophy, heart rate variability, homocysteinemia, and sleep disturbances. However, all cobalamin analogues are not equal and taking cyanocobalamin with already elevated levels of cyanide can actually be harmful. It has been thirty years since Dr. Freeman first published a letter in The Lancet about the risks of using cyanocobalamin. How much longer can we afford to allow ignorance and profit motives to undermine our nation's health?
REFERENCES:
(1) Herbert, Victor and Neville Colman. "Folic Acid and Vitamin B12" in Shils, Maurice and Vernon R. Young, "Modern Nutrition in Health and Disease." Lea & Febinger, Philadelphia, PA, 1988, pg. 388-416. (2) Watt, D.T. "Vitamin B12 replacement therapy: how much is enough?" Wisconsin Medical Journal, 1994, 93(5): 203- 5. (3) Zerbe, N.F. et al. "Use of vitamin B12 in the treatment and prevention of nitroprusside-induced cyanide toxicity." Critical Care Medicine, 1993, 21(3): 465-7. (4) Williams, H.L. et al. "Studies of cobalamin vehicle for the renal excretion of cyanide anion." Journal of Laboratoyr and Clinical Medicine, 1990, 116(1): 37-44. (5) Demura, R. et al. "Mutagenic activity of pyrolysate of cyanocobalamin and some other soluble vitamins in the model system with the Salmonella/mammalian microsomes." Mutation Research, 1990, 244(1): 37-42. (6) Tsao, C.S. et al. "Cytotoxic activity of cobalamin in cultured malignant and nonmalignant cells." Pathobiology, 1990, 58(5): 292-6. (7) Sawyer, D.R. "Cyanocobalmin and cyanide toxicity (letter)." American Family Physician, 1982, 26(1): 48.50,55. (8) Freeman, A.G. et al. "Why has cyanocobalamin not been withdrawn?" The Lancet, April 8, 1978; pg. 777-778. (9) Terry, S.I. et al. "Survival of Cyanocobalmin." The Lancet, October 14, 1978, pg. 848. (10) Linnell, J.C. et al. "Therapeutic Misuse of Cyanocobalamin". Lancet, November 11, 1978; pg 1053-1054. (11) Brown, C.A. et al. "A Common Polymorphism in Methionine Synthase Reductase Increases Risk of Premature Coronary Artery Disease." J Cardiovasc Risk 2000, 7(3): 197-200. (12) Funada, U. et al. "Changes in CD4+ CD8-/CD4- CD8+ ratio and humoral immune functions in vitamin B12-deficient rats." Int J Vitam Nutr Res, 2000, 70(4): 167-71. (13) Ikeuchi, Youji et al. "Methylcobalamin induces a long-lasting enhancement of the postsynaptic field potential in hippocampal slices of the guinea pig." Neuroscience Leters, 1995, 192: 113-116. (14) Kovatscheva, E.G. et al. "S-methylmethionine content in plant and animal tissues and stability during storage." Nahrung, 1977, 21(6): 465-72. (15) Schneider, Z. "Comprehensive B12." Walter de Gruyter, New York, New York, 1987. (16) Nishikawa, Yukiko et al. "Methylcobalamin induces a long-lasting enhancement of the field potential in rat suprachiasmatic nucleus slices." Neuroscience Letters, 1996: 220: 199-202. (17) Mayer, G. et al. "Effects of vitamin B12 on performance and circadian rhythm in normal subjects." Neuropsychopharmacology, 1996; 15: 456-464. (18) Yoshioka, K. et al. "Effect of methylcobalamin on diabetic autonomic neuropathy as assessed by power spectral analysis of heart rate variations." Horm Metab Res, 1995, 27: 43-44"
B-12 - cyanocobalamin vs methylcobalamin
What type of B12 are you taking? Most people supplement their vitamin B-12 using nutritional supplements. But here's where this can go wrong: The most commonly available form of vitamin B-12 on the market is the cheap synthetic form that's actually bound to a cyanide molecule (yes, cyanide, the poison). It's called cyanocobalamin. If you have any vitamin B-12 supplements, check the ingredients label right now to see what form of vitamin B-12 they contain. If they contain cyanocobalamin, throw them out!
The proper form of vitamin B-12 to supplement is called methylcobalamin. This is the form that exists in nature, and it is pre-methylated, meaning it's ready for your biochemistry to put to immediate use.
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