46 Vitamin K: More than Just the "Klotting" Vitamin!
Printer Friendly Email a Friend PDF
Dynamic Chiropractic

Vitamin K: More than Just the "Klotting" Vitamin!

By John Maher, DC, DCBCN, BCIM

Vitamin K is a fat-soluble "vitamin," now known for over 70 years to be imperative for proper coagulation, which, in the native Danish tongue of its discoverer, Henrik Kam, is spelled with a "K." But did you know that vitamin K is technically not a vitamin, and that it has several other important physiological functions? If not, then further familiarity with this usually neglected nutrient is worth review.

Vitamin K is actually a fat-soluble phytonutrient (technically a subclassification of terpenes, a mixed isoprenoid chromanol subgroup known as the quinones). There are three kinds of vitamin K: K1 (phylloquinone); K2 (menaquinone); and K3 (menadione, synthetic vitamin K). Chlorophyll-rich greens, broccoli and soybeans are major sources of vitamin K1. Fermented soy, beef liver, chicken, egg yolks, butter, and some cheeses are vitamin K2 sources (and therefore technically not a phytonutrient, but rather, a "zoonutrient"). Fermentation via healthy, eubiotic intestinal microorganisms occurs as well, providing more vitamin K2. However, vitamin K2 is very poorly absorbed.a We humans enjoy only limited hepatic storage of vitamin K.

Coagulation difficulties related to deficiencies of vitamin K are rarely seen in reasonably healthy humans with reasonably balanced diets. Nonetheless, vitamin K deficiency may be seen in the following situations:

  • very restricted chronic "fad" weight-loss diets, "detox" and severe cleansing diets/fasts, and, of course, severe bulimia and anorexia;
  • severe dysbiosis, dumping syndromes, diarrhea, malabsorption, and associated diseases such as ulcerative colitis and Crohn's disease;
  • hepatic disorder, disease and degeneration; and
  • pharmacological iatrogenic causes, including overly strict vitamin K avoidance with anticoagulant therapy, cholesterol-lowering medications, and even chronic mineral oil and NSAID ingestion.

Even so, acute hypovitaminosis K is rare. However, subtle suboptimal vitamin K levels may increase the risk of osteoporosis, arteriosclerosis, perhaps some cancers, and maybe even Alzheimer's disease and diabetes!

Boning Up on Vitamin K

Poor vitamin K blood levels and dietary intake are directly correlated with female osteopenia (low bone mineral density) and frank osteoporosis with hip fracture.6,7,11,12,13 It is well-established that supplemental vitamin K promotes osteotrophic (bone-building) processes and slows osteoclastic (bone-depleting) processes by enhancing the bonding of calcium to the protein matrix tissue of bone, thereby increasing bone density. Furthermore, vitamin K assists in the manufacture of the protein bony matrix itself (known as matrix G1a protein)!5,8,9,10

Osteocalcin is the latticework matrix into which minerals, especially calcium, are incorporated (via gamma-carboxylation). To do so, osteocalcin must be activated to perform its bone-building duties. Said activation is dependant on vitamin K.1,2 Diagnostically, large amounts of inactive osteocalcin suggests suboptimal vitamin K levels. If so, supplemental vitamin K will lower osteocalcin blood levels.3-5 Similarly, supplemental vitamin K can also reduce urinary calcium loss related to such osteoclastic processes.5,8

In 1998, researchers analyzed data from the prestigious Nurses Health Study and found that consuming about 110 micrograms of vitamin K per day reduced the risk of breaking a hip by approximately 30 percent.13 In fact, vitamin K has been an approved treatment for osteoporosis in Japan since 1995.

It should be noted that Kaneki et al., found that Japanese women with identical K1 levels, but twice the K2 levels (specifically MK7, as found in natto, a fermented soy product), had significantly less osteoporotic bone fracture.

Anti-Artery "Klogging"

Vitamin K is not only vital to enmeshing calcium into bone; it also appears to simultaneously inhibit calcium's incorporation into the lining of our arteries.9,16 Such undesirable incorporation yields stiffening of the otherwise flexible arteries (atherosclerosis), a well-known risk factor for heart disease and stroke. Therefore, vitamin K may help prevent arteriosclerosis, although more studies are required.10 Still, it appears that in activating the aforementioned matrix G1a protein (and perhaps other vitamin K-dependent proteins), vitamin K strongly inhibits arterial calcification while supporting bone calcification.14,15

Kan K Kombat Kancer? Phylloquinone supports cell replication, transformation, survival and inhibition.17,18 Menaquinone and its analogues promote normal cell self-destruction (apoptosis) in pancreatic, ovarian, and leukemia cancer cells.19,20 Therefore, it may be that optimal vitamin K status inhibits cancer cell formation and growth to some extent.

The Alzheimer's Konnection: Studies hint that vitamin K blood levels may be lower in those with apolipoprotein E4, the genotype that has been linked to Alzheimer's, and that vitamin K may help modulate CNS biochemistry.21

Blood Sugar Kontrol: Vitamin K is relatively abundant in the pancreas, the endocrine function of which is to manufacture and secrete insulin to prevent hyperglycemia. In a study with laboratory animals, Japanese researchers found that vitamin K deficiency interferes with insulin release and glucose regulation in ways that mimic diabetes.23

Skin Kare: In news that is of at least passing interest, University of Miami researchers reported that in a small study, applying topical vitamin K to the face after laser treatment significantly reduced the severity of bruising.22

ReKommended Dosages: In spite of the results from the Nurses Health Study, the Food and Nutrition Board of the National Institute of Medicine advises 90 micrograms (mcg) and 120 mcg of vitamin K daily for women and men, respectively. American adults consume an average of between 59-82 mcg of vitamin K per day.25 This is another reason leafy greens need to be added to the diet, especially in those avoiding the cholesterol and calorie-rich, but vitamin K2-abundant foods mentioned above. Even direct vitamin K supplementation is extremely safe, as large doses do not "cause" clotting.26

One should, however, check with a physician if one is taking medications such as blood thinners, the effectiveness of which may be affected by dietary and supplemental changes in the intake of vitamin K. A good resource for those on anticoagulants is the Web site www.vitk.org. It should be noted that when anticoagulants are given, the advice to "avoid vitamin K" should perhaps be more exactly understood as the advice to inform your physician of any marked dietary or supplementation changes that may significantly increase vitamin K, such that the prescribing physician can evaluate the need to recalibrate the dosage needed to maintain effective anticoagulation activity while promoting optimal vitamin K status.

Konclusion

Vitamin K's vital importance to proficient blood clotting has been appreciated for over seven decades, but coagulation is certainly not its lone function. More recent investigations promote vitamin K as yet another nutrient involved in maintaining strong bones and clear arteries - two very important functions, considering the prevalence and morbidity of osteoporosis and cardiovascular disease. Future research may more clearly define vitamin K's possible importance in preventing certain cancers, Alzheimer's disease and diabetes, and even topical postlaser recuperation. In the meantime, the above information is, at the very least, yet another of the many reasons for you and your patients to enjoy a diet abundant in chlorophyll-rich greens and fermented soy.

References

  1. Zittermann A. Effects of vitamin K on calcium and bone metabolism. Curr Opin Clin Nutr Metab Care November 2001;4(6):483-7.
    1. Ichihashi T, et al. Colonic absorption of menquinone-4 and menaquinone-9 in rats. J Nutr 1992;122:5-6-12.
  2. Sugiyama T, Kawai S. Carboxylation of osteocalcin may be related to bone quality: a possible mechanism of bone fracture prevention by vitamin K. J Bone Miner Metab 2001;19(3):146-9.
  3. Sokoll LJ, Booth SL, O'Brien ME, et al. Changes in serum osteocalcin, plasma phylloquinone, and urinary gamma-carboxyglutamic acid in response to altered intakes of dietary phylloquinone in human subjects. Am J Clin Nutr March 1997;65(3):779-84.
  4. Douglas AS, Robins SP, Hutchison JD, Porter RW, et al. Carboxylation of osteocalcin in postmenopausal osteoporotic women following vitamin K and D supplementation. Bone July 1995;17(1):15-20.
  5. Knapen MHJ, Hamulyak K, Vermeer C. The effect of vitamin K supplementation on circulating osteocalcin (bone Gla protein) and urinary calcium extraction. Ann Intern Med December 15, 1989;111(12);1001-5.
  6. Kanai T, Takagi T, Masuhiro K, et al. Serum vitamin K level and bone mineral density in postmenopausal women. Int J Gynecol Obstet January 1997;56(1):25-30.
  7. Booth SL, Broe KE, Gagnon DR, et al. Vitamin K intake and bone mineral density in women and men. Am J Clin Nutr February 2003;77(2):512-6.
  8. Orimo H, Shiraki M, Fujita T, et al. Clinical evaluation of menatetrenone in the treatment of involutional osteoporosis - a double-blind multicenter comparative study with 1-alpha-hydroxyvitamin D3. J Bone Mineral Res 1992;7(Suppl 1);S122.
  9. Akjba T, Kurihara S, Tachibana K. Vitamin K increased bone mass in hemodialysis patients with low-turnover bone disease. J Am Soc Nephrol 1991;608:42P (abstract).
  10. Hendler S, Rorvic D (eds.) PDR for Nutritional Supplements. Montvale, NJ: Medical Economics Co., 2001, p. 525.
  11. Hart JP, Shearer MJ, Klenerman L, et al. Electrochemical detection of depressed circulation levels of vitamin K1 in osteoporosis. J Clin Endocrinol Metab. 1985 Jun;60(6):1268-9.
  12. Hodges SJ, Akesson K, Vergnaud P, et al. Circulating levels of vitamins K1 and K2 decreased in elderly women with hip fracture. J Bone Miner Res October 1993;8(10):1241-5.
  13. Feskanich D, Weber P, Willett WC, et al. Vitamin K intake and hip fractures in women: a prospective study. Am J Clin Nutr January 1999;69(1):74-9.
  14. Spronk HM, Soute BA, Schurgers LJ, et al. Matrix Gla protein accumulates at the border of regions of calcification and normal tissue in the media of the arterial vessel wall. Biochem Biophys Res Commun November 30, 2001;289(2):485-90.
  15. Schurgers LJ, Dissel PE, Spronk HM, et al. Role of vitamin K and vitamin K-dependent proteins in vascular calcification. Z Kardiol 2001;90 Suppl 3:57-63.
  16. Lew JB. Vitamin K linked to coronary calcification risk. Fern Pract News 2002;32(1):1-2.
  17. Saxena SP, Israels ED, Israels LG. Novel vitamin K-dependent pathways regulating cell survival. Apoptosis February-April 2001;6(1- 2):57-68.
  18. Carr BI, Wang Z, Kar S. K vitamins, PTP antagonism, and cell growth arrest. J Cell Physiol December 2002;193(3):263-74.
  19. Shibayama-Imazu T, Sakairi S, Watanabe A, et al. Vitamin K(2) selectively induced apoptosis in ovarian TYK-nu and pancreatic MIA PaCa-2 cells out of eight solid tumor cell lines through a mechanism different from geranylgeraniol. J Cancer Res Clin Oncol January 2003;129(1):1-11.
  20. Miyazawa K, Yaguchi M, Funato K, et al. Apoptosis/differentiation-inducing effects of vitamin K2 on HL-60 cells: dichotomous nature of vitamin K2 in leukemia cells. Leukemia July 2001;15(7):1111-7.
  21. Allison AC. The possible role of vitamin K deficiency in the pathogenesis of Alzheimer's disease and in augmenting brain damage associated with cardiovascular disease. Med Hypothese August.2001;57(2):151-5.
  22. Shah NS, Lazarus MC, Bugdodel R, et al. The effects of topical vitamin K on bruising after laser treatment. J Am Acad Dermatol August 2002;47(2):241-4.
  23. Sakamoto N, Wakabayashi I, Sakamoto K. Low vitamin K intake effects on glucose tolerance in rats. Int J Vit. Res January 1999;69(1):27-31.
  24. Hendler S, Rorvic D, eds. PDR for Nutritional Supplements. Montvale, NJ: Medical Economics Co., 2001, p. 524.
  25. Booth, SL, Pennington JA, Sadowski JA. Food sources and dietary intakes of vitamin K-1 (phylloquinone) in the American diet: data from the FDA Total Diet Study. J Am Diet Assoc February 1996:96(2):149-54.
  26. Food and Nutrition Board. Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. Washington, D.C.: National Academies Press, 2002, p. 187.

Click here for previous articles by John Maher, DC, DCBCN, BCIM.

To report inappropriate ads, click here.