Tag: vitamin B9

Folic Acid: It Seems Wise to Take a Supplement

Claus Hancke

February 7, 2005

Folic acid reduces the blood pressure, but only if you take a folic acid supplement, as you will not get enough simply through your diet. At the same time, folic acid protects your heart and brain from blood clots.

Since long, it has been documented that the B-vitamin folic acid (B9) prevents congenital neural tube defects. In Canada, all kinds of flour have been enriched with folic acid during the past 8 years, and 80% of the congenital neural tube defects have thus been prevented. In the USA, enrichment is also obligatory, but in Britain, expectant mothers are left to themselves. They have to figure out for themselves to take a supplement – before they become pregnant!

The main source of folic acid is leafy green vegetables (the latin “folium” means “leaf”). Many people do not like these leafy greens and folic acid deficiency is therefore more common than any other vitamin deficiency. Unfortunately, the deficiency probably does not only harm the unborn baby but does also increase the mortality of coronary thrombosis and cerebral apoplexy in adults. But this is not all: Folic acid deficiency probably also increases the risk of hypertension.

The connection between folic acid deficiency and hypertension that has been unknown till now was discovered when an eight-year study was concluded involving 156,000 American nurses *1). The risk of the nurses having hypertension while being 27 – 44 years of age was only half as great when they took 1 mg (1000 mcg.) of folic acid a day compared to when they took 0.2 mg. In both the US and Britain, 0.2 mg. is just below the average daily folic acid intake which is 0.25 mg. It is almost impossible to get 1 mg. of folic acid a day – which is four times as much – without taking a supplement.

With regard to apoplexy and coronary thrombosis, much interesting knowledge has been produced during recent years:
In the US, where enrichment of flour with folic acid began in 1996, the mortality rate following apoplexy has droppped dramatically – in all groups of society, that is, and for both men and women – so the results are rather regardless of lifestyle, etc.

Before 1996, the annual drop in mortality as a result of apoplexy was about 1%. This drop was the result of improved treatment and prophylaxis. However, in the succeeding three years, mortality rates dropped three times as fast, i.e. with a total of 10 – 15%! Statistically, this has been explained by the fact that the average American now has twice as much folic acid in his/her blood as before *2).

Moreover, apoplexy is far more dangerous if you are deficient in folic acid. This was recently demonstrated on mice. They were given an artificial apoplexy in that their cerebral artery was simply clamped. It turned out that the cerebral damage was only half as great in the mice that had been given enough folic acid *3).

Folic acid seems to be able to protect the heart as well. This appeared most recently when Italian doctors studied 900 patients hospitalized with or without coronary thrombosis. The patients were divided into three groups according to their estimated daily intake of folic acid. Among the patients admitted to the cardiology department, most of them belonged to the group that got the least folic acid!

The third of the patients that got the least folic acid had twice as great a risk compared to the third of the patients that got the most folic acid. When vitamin B6 intake was also taken into account (vitamin B6 collaborates with folic acid), the ones who got the most folic acid only had a relative risk of 29% *4).

It is not the folic acid itself that protects the heart and the brain. However, folic acid reduces the blood content of the harmful amino acid homocysteine which attacks the blood vessels.

About 10% of the population are unaware that they have a hereditarily increased homocysteine level in their blood (and therefore need more folic acid). Recently, it was discovered that these 10% suffer apoplexy significantly more often than others *5, 6). It was already known that these people already have an increased risk of suffering coronary thrombosis *7).

Nobody has yet performed a blinded study in which supplements have been used to efficiently lower the blood contents of homocysteine. However, this kind of research is now being encouraged *8). Yet, with our existing knowledge, it seems wise to take a folic acid supplement. The ideal dosage may be around 0.8 mg. (800 mcg.) a day.

By: Vitality Council

References:
1. Forman JP, Rimm EB, Stampfer MJ, Curhan GC. Folate intake and the risk of incident hypertension among US women. JAMA. 2005 Jan 19;293(3):320-9.
2. American Heart Association’s 44th annual Conference on Cardiovascular Disease Epidemiology and Prevention.carole.bullock@heart.org
3. Endres M, Ahmadi M, Kruman I, Biniszkiewicz D, Meisel A, Gertz K. Folate deficiency increases postischemic brain injury. Stroke. 2005 Feb;36(2):321-5.
4. Taivani A et al. Folate and vitamin B6 intake and risk of acute myocardial infarct in Italy. Eur J Clin Nutr 2004;58:1266-72
5. Al-Delaimy WK, Rexrode KM, Hu FB, Albert CM, Stampfer MJ, Willett WC, Manson JE. Folate intake and risk of stroke among women. Stroke. 2004 Jun;35(6):1259-63.
6. Casas JP et al. Homocysteine and stroke: Evidence on a causal link from mendelian randomisation. The Lancet 2005;365: 224-32
7. Klerk M, Verhoef P, Clarke R, Blom HJ, Kok FJ, Schouten EG; MTHFR Studies Collaboration Group. MTHFR 677C–>T polymorphism and risk of coronary heart disease: a meta-analysis. JAMA. 2002 Oct 23-30; 288(16):2023-31.
8. S Schwammenthal et al. Homocysteine, B-vitamin supplementation, and stroke prevention. From observational to interventional trials. Lancet Neurol. 2004;3(8):493-5.

jama.ama-assn.org
www.lancet.com
stroke.ahajournals.org
www.iom.dk

Vitamin B9, Folic acid, Folate, Research references

Admin

January 1999

1. Alpert JE, Fava, M. Nutrition and depression. The role of folate. Nutr Rev 55: 145-149, 1997.
2. Bailey LB, Wagner PA, Davis CG, Dinning JS. Food frequency related to folacin status in adolescents. J Am Diet Assoc 84: 801-804, 1984.
3. Baker H, Jaslow SP, Frank O. Severe impairment of dietary folate utilization in the elderly. J Am Geriatr Soc 26: 218-221, 1978.
4. Bates CJ, Fleming M, Paul AA et al. Folate status and its relation to vitamin C in healthy elderly men and women. Age Aging 9: 241-248, 1980.
5. Bendich A, Cohen M. Nutrition and immunology. New York: Alan R. Liss. p 101-123, 1988.
6. Botez MI, Botez T, Léveillé J, et al. Neuropsychological correlates of folic acid deficiency: Facts and hypotheses, in MI Botez, EH Reynolds, Eds. Folic Acid in Neurology, Psychiatry, and Internal Medicine. New York, Raven Press, 435-461, 1979.
7. Brattstrom LE, Hultberg BL, Hardebo JE. Folic acid responsive postmenopausal homocysteinemia. Metabolism 34: 1073-1077, 1987.
8. Brattstrom LE, Israelsson B, Jeppsson JO, Hultberg BL. Folic acid – an innocuous means to reduce plasma homocysteine. Scand J Clin Lab Invest 48: 3; 215-221, 1988.
9. Brattström L et al. Impaired homocysteine metabolism in early-onset cerebral and peripheral occlusive arterial disease. Effects of pyridoxine and folic acid treatment. Atherosclerosis 81:1:51-60, 1990.
10. Briggs RM. Vitamin supplementation as a possible factor in the incidence of cleft lip/palate deformities in humans. Clin Plast Surg 1976; 3: 647-652, 1976.
11. Butterworth CE, Tamura T. Folic acid safety and toxicity. A brief review. Am J Clin Nutr 50: 353-358, 1989.
12. Center for Disease Control. Knowledge about folic acid and use of multivitamins containing folic acid among reproductive-aged women. Morbidity Mortality Weekly Report 45: 793-795, 1996.
13. Center for Disease Control. Recommendations for the use of folic acid to reduce the number of cases of spina bifida and other neural tube defects. Morbidity Mortality Weekly Report 41: RR-14, 1996.
14. Clark AJ, Mossholder S, Gates R. Folacin status in adolescent females. Am J Clin Nutr 1987; 46: 302-306.
15. Dalery K et al. Homocysteine and coronary artery disease in French Canadian subjects: Relation with vitamins B12, B6, pyridoxal phosphate and folate. Am J Cardiol 75:1107-11, 1995.
16. Deller DJ et al. Folic acid deficiency in rheumatoid arthritis. Relation of levels of serum folic acid activities to treatment with phenylbutazone. Br Med J i: 765-7, 1966.
17. Flynn MA, Irvin W, Krause G. The effect of folate and cobalamin on osteoarthritic hands. J Am Coll Nutr 13; 4: 351-6, 1994.
18. Gaby SK, Bendich A. Vitamin intake and health: A scientific review. New York: Marcel Dekker. p 175-188, 1991.
19. Gough KR et al. Folic acid deficiency in rheumatoid arthritis. Br Med J i: 212-17, 1964.
20. Halsted CH, Reisenauer AM, Romero JJ, et al. Jejunal perfusion of simple and conjugated folates in celiac sprue. J Clin Invest 59: 933-40, 1977.
21. Hjelt K, Krasilnikoff PA. The impact of gluten on haematolgical status, dietary intakes of haemopoietic nutrients and vitamin B12 and folic acid absorption in children with coeliac disease. Acta Paediatr Scand 79; (10):911-19, 1990.
22. Huber AM, Wallins LL, DeRusso P. Folate nutriture in pregnancy. J Am Diet Assoc 88: 791-814, 1988.
23. Jacques P, Bostom A, Williams R, et al. Relation between folate status, a common mutation in methylene tetrahydrofolate reductase, and plasma homocysteine concentrations. Circulation 93; 1: 7-9, 1996.
24. Kang SS, Wong PWK, Norusis M. Homocysteinemia due to folate deficiency. Metabolism 36: 458-462, 1987.
25. Laurence KM, James N, Miller MH et al. Double-blind randomized controlled trial of folate treatment before conception to prevent recurrence of neural-tube defects. Br Med J 282: 1509-1511, 1981.
26. Milunsky A, Jick H, Jick SS, Bruell CL, MacLaughlin DS, Rothman KJ, Willette W. Multivitamin/folic acid supplementation in early pregnancy reduces the pr-reviewence of neural tube defects. J Am Med Assoc 262: 2847-2852, 1989.
27. Modesto C, Castro L. Folinic acid supplementation in patients with juvenile rheumatoid arthritis treated with methotrexate. J Rheumatol 23; (2): 403-4, 1996.
28. Morgan SI, Alarcon GS, Krumdieck CL. Folic acid supplementation during methotrexate therapy: It makes sense. Editorial. J Rheumatol 20; (6): 929-30, 1993.
29. Morgan SL, Baggott JE, Vaughn WH, et al. Supplementation with folic acid during methotrexate therapy for rheumatoid arthritis: a double-blind, placebo-controlled trial. Ann Intern Med 121: 833-41, 1994.
30. Murray, MT. reviewuating the many benefits of folic acid. Am J Natural Med 3: 8-11, 1996.
31. Omer A, Mowat AG. Nature of anaemia in rheumatoid arthritis. IX. Folate metabolism in patients with rheumatoid arthritis. Ann Rheum Dis 27: 414-24, 1968.
32. Preuss HG. CRC Handbook series in nutrition and food. Section F: Nutntional disorders, vol. 1. Boca Raton, FL: CRC Press. p 61-62, 1978.
33. Selhub, J, Rosenberg, IH. Folic acid. In: Present knowledge in nutrition. 7th edn. Washington DC: International Life Sciences Press. p 206-219, 1996.
34. Smithells RW, Nevin NC, Seller MJ et al. Further experience of vitamin supplementation for prevention of neural tube defect recurrences. Lancet 1: 1027-1031, 1983.
35. Ubbink JB, Vermaak WJH, van der Merwe A, Becker PJ. Vitamin B-12, vitamin B-6, and folate nutritional status in men with hyperhomocysteinemia. Am J Clin Nutr 57:47-53, 1993.
36. Ventura A, bouquet F, Sartorelli C, et al. Coeliac disease, folic acid deficiency and epilepsy with cerebral calcifications. Acta Paeditr Scand 80; (5):559-62, 1991.
37. Verhoef P, Stampfer MJ, Buring JE, et al. Homocysteine metabolism and risk of myocardial infarction: Relation with vitamin B6, B12, and folate. Am J Epidemiol 143:9:845-59, 1996.
38. Weisburger JH. Nutritional approach to cancer prevention with emphasis on vitamins, antioxidants, and carotenoids. Am J Clin Nutr 53: S226-S237, 1991.

 

Sources
Joseph E. Pizzorno Jr., Michael T. Murrey & Melvyn R. Werbach.