Vitamins
Minerals
Amino acids
Antioxidants
Omega-3 fatty acids
Probiotics
Melatonine
Plant substances
Superfoods
Vital mushrooms
Special formulas
Mental health & performance
Fear
Stress, exhaustion & burnout
Mood
Memory & concentration
Immune system
Strenghten the immune system
Allergy
Stomach & intestine
Intestinal cleansing & build-up
Digestive problems
Bloating
Heartburn
Hemorrhoids
Parasites
Bones, joints & muscles
Bones
Joints
Muscles
Beauty
Skin
Hair
Connective tissue
Women's health
Fertility
Hormone balance
PMS
Menopause
Pregnancy & breastfeeding
Libido
Heart health
Heart protection
Blood pressure
Circulation
Cholesterol
Vein health
Sleep & fatigue
Sleep disorder
Jet lag
Energy
Iron deficiency
Liver health
Liver protection
Detoxification
Weight loss & metabolism
Lose weight
Metabolism
Drainage
Men's health
Libido & erectile dysfunction
Prostate
Acid-base balance
Blood sugar
Longevity & cellular regeneration
Eyes & eyesight
Inflammations
Pain
Menge
Subtotal:
Rabatt:
Sie sparen:
Freunde-werben-Freunde Gutschein:
Total:
5 HTP capsules 200mg - from Griffonia - highly dosed - laboratory tested - without undesirable additives
R-alpha lipoic acid - patented R-form - 21x stronger - laboratory tested
Polyneuropathy-Aid-Package - natural treatment - laboratory-tested - effective and sustainable
Artichoke thistle capsules - for effective liver detoxification
Turmeric extract capsules - highly dosed with 95% curcuminoids - equivalent to 10,000mg turmeric - 30x more bioavailable
Intestinal cleansing capsules with psyllium and enzyme complex - for optimal intestinal health
Ginkgo Biloba capsules - 100% pure extract - no inferior powder - laboratory tested & highly dosed
Hair Active Capsules with fenugreek - effective nutrient complex with biotin & zinc - to promote hair growth
Melatonin capsules 5 mg - high-dose - laboratory-tested for fast sleep
MSM capsules - 500mg high-dose methylsulfonylmethane - laboratory tested - 100% ultra pure
Rhodiola capsules -100 % pure extract - high dosage - German premium quality - laboratory tested
Spermidine capsules - wheat germ extract - uniquely HIGH DOSAGE with 8mg spermidine per capsule
Vitamin K is a fat-soluble vitamin that got its name from its role in blood clotting. The "K" comes from the German word "coagulation", which describes the process of coagulation of proteins. This vital process plays its most important role in blood clotting, which stops bleeding.
The main task of vitamin K is to activate various proteins that perform these and other vital functions in the body. The proteins are present in an inactive form until they are activated by vitamin K.
Vitamin K thus plays many important roles in the body:
In addition, vitamin K also helps against:
Vitamin K1 is a less active form of the vitamin that plays an important role mainly in blood clotting. Vitamin K2, on the other hand, is the more active form, which also supports healthy blood clotting, but whose main function is to activate important transport proteins. Without vitamin K2, these proteins would no longer be able to perform their tasks, including:
Vitamin K deficiency occurs when either too little vitamin K is absorbed through the diet , or when the body cannot absorb enough vitamin K from food .
Other causes of a deficiency include:
Especially people with diagnosed osteoporosis, diabetes or heart disease often do not get enough vitamin K2, even though vitamin K can help and even prevent these diseases very effectively.
Infants and adults 40 years of age and older are most likely to develop vitamin K2 deficiency. In infants, the vitamin K deposits are usually replenished about six weeks after birth. Before that, however, there is an increased risk of a deficiency, which can quickly become life-threatening for newborns. Older people often suffer from gastrointestinal diseases or malnutrition, both of which can promote vitamin K deficiency.
In the case of a vitamin K2 deficiency, a dietary supplement with vitamin K2 MK7 can provide optimal support, as the absorption of the vitamin through food can be made more difficult by certain situations and circumstances. These include gastrointestinal diseases, absorption disorders or medications that block the absorption of the vitamin.
In order for vitamin K to be optimally absorbed by the body, it should be taken in combination with vitamins A and D. These are complementary fat-soluble vitamins that, when combined with each other, improve absorption by creating a synergistic effect. In addition, magnesium and zinc can also further optimize absorption.
Vitamin K2 is a group of so-called menaquinone compounds (MK). There are two main forms here:
The number that complements the designation "MK", i.e. MK4 and MK7, refers to the chain length of the vitamins: the longer the chain, the more fat-soluble the vitamin ultimately is. For example, MK4 is excreted by the body after just a few hours, whereas the MK7 variant remains available in the blood for over 72 hours. MK7 therefore has a significantly longer half-life and thus also has a much better and longer efficacy.
Both MK4 and MK7 both activate a whole range of proteins – the so-called GLA proteins. Among the most important are osteocalcin (bone GLA protein) and matrix GLA protein. The response of activation is called carboxylation.
Both proteins rely on different biological sources and thus perform different functions in the body. Osteocalcin is responsible for ensuring that absorbed calcium is deposited optimally and stabilisingly in bones and teeth. And matrix GLA protein ensures that incorrectly deposited calcium is removed from soft tissues, including the heart, kidneys and brain, to prevent damage.
This form of the vitamin is created by natural bacterial fermentation. Through appropriate processing, the MK7 form is obtained, which is clearly more suitable as a dietary supplement..
This is because the vitamin K variant MK7 has a much higher bioactive availability for the body. Therefore, supplements with dosages in the microgram range are sufficient to achieve a positive effect on bone health.
The form vitamin K2 MK7 therefore currently has the best bioavailability and efficacy. But watch out! Again, there are two different derivatives that you should be aware of: Most MK7 supplements consist of a mixture of the two forms trans and cis – but only one of them is important for our body and our health due to its better efficacy.
This is because the cis form cannot be used by the body and is therefore 99% ineffective.
So-called trans-isomers, on the other hand, represent the natural variant, and so MK7-all-trans is the most effective form with the best bioavailability, which also convinces with the longest half-life. Products that are available in this form and have a trans content of more than 98% can be recognized by the designation "all-trans".
The vitamin K2 MK7 capsules from HERBANO contain only the high-quality MK7 all-trans form and thus testify to the highest quality and optimal usability by the body - so that your health can benefit from it.
Studies have already convincingly demonstrated that vitamin K2 can sustainably improve bone health. Above all, the vitamin improves bone mineral density in people who suffer from porous bones as part of osteoporosis – and it reduces the incidence of bone fractures. In combination with vitamin D3, this effect is even enhanced!
Vitamin K2 MK7 is also very important for the activation of the protein osteocalcin. The role of this protein is to transport calcium into the bones, where it is integrated and contributes to a stable and healthy bone apparatus. At the same time, the storage of calcium in the bones also means that less calcium can be deposited in soft tissues such as the bloodstream and blood cells, thereby inhibiting the development of cardiovascular diseases. Postmenopausal women in particular can benefit from vitamin K2 MK7, as they are particularly susceptible to osteoporosis and bone loss during this phase of life. This is due to lower estrogen levels, because estrogen protects against osteoporosis. Vitamin K2 MK7 can effectively help to limit the loss of bone mineral density and bone strength in the lumbar spine caused by age.
Fortunately, studies have even shown that the incidence of bone fractures in patients with osteoporosis could be reduced by up to 80% when they took vitamin K2 MK7 as a dietary supplement.
Japanese scientists also came to the conclusion that the intake of vitamin K – and in particular the form MK7 – is inversely proportional to the risk of bone fractures in women and men. The results of these studies not only prove that MK7 has a highly positive effect on bone health and beneficial on the risk of fractures, but also that it is a safe dietary supplement with no side effects.
Due to the deposition of calcium in the blood vessels , hardening can occur very quickly. The cells of the arterial walls are gradually transformed into a bone-like structure. This is a problem for health in that the blood vessels lose elasticity and can no longer regulate themselves.
If the blood can no longer flow freely in the body, advanced arteriosclerosis occurs, which can even lead to a heart attack or stroke. That's why it's so important that vitamin K2 intercepts and stores calcium in the bones beforehand, preventing it from settling in the blood vessels.
➤ Vitamin K2 helps not only in prevention, but also in the case of already advanced atherosclerosis.
So far, two studies have highlighted the special importance of vitamin K2 for heart health:
Is there a connection?
Yes, and even a fairly direct one! This is because vitamin K2 ensures that calcium is transported from the blood vessels to the bones, effectively preventing hardening of the arteries.
If statins or cholesterol-lowering drugs reduce the production of vitamin K2, as evidenced by the first study, then it would be understandable that statins could cause hardening of the arteries , as was shown in the second study.
Calcium, which does not accumulate in the bones due to a vitamin K deficiency but settles in the arteries, could lay the foundation for heart disease.
In a meta-analysis of thirty studies, arterial calcification was associated with a 300% to 400% increase in the risk of cardiovascular problems. Vitamin K2, on the other hand, ensures unobstructed blood flow and supple arteries, thus preventing calcification and hardening of the arteries.
An adequate intake of the miracle vitamin K2 can therefore significantly reduce the risk of damage to the blood vessels, because the vitamin activates important proteins of the matrix-GLA type, which successfully prevent calcium from settling on the vessel walls. Thus, supplementing with K2 protects the entire blood vessels from calcification, while at the same time reducing the risk of developing heart disease.
When vitamin K2 activates the matrix GLA protein to break down calcium from blood vessels, it benefits overall cardiovascular health . Calcification of the blood vessels also promotes the development of varicose veins, as the calcium deposits impair the flow of blood.
Vitamin K2 can therefore not only reduce or completely prevent calcification of the blood vessels , but also the development of varicose veins.
People who suffer from chronic kidney disease or even require regular dialysis have an increased risk of developing vitamin K deficiency.
Risk factors for kidney stones include an excess of vitamin D. However, the real problem with this is that vitamin D also creates a need for vitamin K2. Thus, by compensating for the vitamin K deficiency, you may even be able to prevent kidney stones.
Vitamin K2 also plays an essential role in the brain in the prevention of cardiac embolism (i.e. arterial occlusion) and stroke. An important factor here is in particular the positive effect that the matrix-GLA protein has on the cardiovascular system. Since it is activated by vitamin K2, the vitamin can also indirectly help prevent strokes.
Researchers have recently observed that proteins that depend on vitamin K2 play a key role in the brain, as well as in the central and peripheral nervous systems. It is possible that they have a beneficial antioxidant effect in the brain itself. Vitamin K2 in particular, together with glutathione, seems to prevent the death of nerve cells and thus also prevent brain damage. This could indeed be an important key to neurodegenerative processes.
All in all, it can be said that vitamin K2 has a preventive effect on oxidative stress and inflammation in the brain.
Previous studies also show that too little vitamin K intake is associated with Alzheimer's disease. According to these studies, eating foods rich in vitamin K leads to improved memory performance and has even been able to successfully prevent dementia in seniors.
In general, the adequate intake of vitamin K2 seems to be vital for optimal brain function and also an important key factor in effectively preventing degenerative diseases.
Some studies show that vitamin K helps protect the body from cancer. In addition, the vitamin is also said to be able to have a particularly supportive effect during chemotherapy.
Increased intake of vitamin K is associated with both a lower risk of cardiovascular disease and cancer, as well as a lower risk of death.
The more vitamin K is ingested, the more the mortality rate decreases.
In a recent dietary analysis with 7,216 participants, it was found that dietary vitamin K intake is inversely proportional to the risk of mortality. People who increased their intake of vitamin K1 and vitamin K2 over a period of almost five years had a 43% and 45% reduced risk of all-cause mortality, respectively, compared to those whose intake of K vitamins remained unchanged or even reduced. Increased intake of vitamin K2 was associated with a 59% lower risk of dying from cancer during follow-up.
Many sources confirm that vitamin K2 - MK7 is safe and there are no side effects from taking it. However, as with all fat-soluble vitamins, ingestion in high doses can still cause negative effects. The biochemical makeup of vitamin K here suggests that unnecessarily high doses can deprive the body of antioxidants or impair blood sugar regulation and hormonal health.
Recommended intake of vitamin K2 MK7:
Do not exceed the recommended daily intake.Food supplements are not a substitute for a balanced and varied diet.Store in a cool, dry place away from light. Keep out of the reach of small children.
Composition Vitamin K2 MK7:
Vitamin K2 - VitaMK7®, cellulose powder, hydroxypropylmethylcellulose (capsule shell)
Quantities per capsule:
glutenfrei
laktosefrei
ohnegelatin
vegan
Vitamin K2 and vitamin D3 should ideally be taken together, because vitamin D3 intake also increases the body's need for K2. Vitamin D3 ensures that our body can better absorb the mineral calcium. Through vitamin K2, however, the calcium is first transported to the right places in the body, namely bones and teeth.
Sources (in English):
Conly J. M. & Stein K. (1992, October-December). The production of menaquinones (vitamin K2) by intestinal bacteria and their role in maintaining coagulation homeostasis. Progress in Food & Nutrition Science, 16(4):307-43
Ferland G. (2013). Vitamin K and Brain Fucntion. Semin Thromb Hemost, 39(08): 849-855, doi: 10.1055/s-0033-1357481
Li J., Lin J. C., Wang H., Peterson J. W., Furie B. C., Furie B. et al. (2003, July). Novel Role of Vitamin K in Preventing Oxidative Injury to Developing Oligodendrocytes and Neurons. Journal of Neuroscience, 23 (13) 5816-5826, doi: 10.1523/JNEUROSCI.23-13-05816.2003
Iwamoto J. (2014, May). Vitamin K2 Therapy for Postmenopausal Osteoporosis. Nutrients, 6(5): 1971–1980, doi: 10.3390/nu6051971
Pearson D. A. (2007, October). Bone health and osteoporosis: the role of vitamin K and potential antagonism by anticoagulants. Nutrition in Clinical Practice, 22(5):517-44, doi: 10.1177/0115426507022005517
Zekavat O. R., Fathpour G., Haghpanah S., Dehghani S. J., Zekavat M. & Shakibazad N. (2017, August). Acquired Vitamin K Deficiency as Unusual Cause of Bleeding Tendency in Adults: A Case Report of a Nonhospitalized Student Presenting with Severe Menorrhagia. Case Reports in Obstetics and Gynecology, 2017: 4239148, doi: 10.1155/2017/4239148
Sankar M. J., Chandrasekaran A., Kumar P., Thukral A., Agarwal R. & Paul V. K. (2016, May). Vitamin K prophylaxis for prevention of vitamin K deficiency bleeding: a systematic review. Journal of Perinatology, 36(Suppl 1): S29–S35, doi: 10.1038/jp.2016.30
Cundiff D. K. & Agutter P. S. (2016, August). Cardiovascular Disease Death Before Age 65 in 168 Countries Correlated Statistically with Biometrics, Socioeconomic Status, Tobacco, Gender, Exercise, Macronutrients, and Vitamin K. Cureus, 8(8):e748, doi: 10.7759/cureus.748
Maor, G., Segev, Y. & Philip, M. (1999, April). [von Google zensierter Begriff] stimulates [von Google zensierter Begriff]-like growth factor-I and [von Google zensierter Begriff]-like growth factor-I-receptor gene expression in the mandibular condyle--a model of endochondral ossification. Endocrinology, 140(4):1901-10, doi: 10.1210/endo.140.4.6618
Harbuzova, V., Matlai, O., Ataman, L., Dobovyk, L., Borodenko, A. O., Obukhova, O. A. et al. (2012). [The polymorphism of matrix Gla-protein gene in ischemic atherothrombotic stroke patients]. Fiziolohichnyi Zhurnal, 58(5):14-21
Denisova, N. A. & Booth, S. L. (2005, April). Vitamin K and sphingolipid metabolism: evidence to date. Nutrition Reviews, 63(4):111-21
Komai, M. & Shirakawa, H. (2007, November). [Vitamin K metabolism. Menaquinone-4 (MK-4) formation from ingested VK analogues and its potent relation to bone function]. Clinical Calcium, 17(11):1663-72, doi: CliCa071116631672
Okuyama, H., Langsjoen, P. H., Hamazaki, T., Ogushi, Y., Hama, R. & Kobayashi, T. (2015, March). Statins stimulate atherosclerosis and heart failure: pharmacological mechanisms. Expert Review of Clinical Pharmacology, 8(2):189-99, doi: 10.1586/17512433.2015.1011125
Møller, M., Gjelstad, I. M., Baksaas, I., Grande, T., Aukrust, I. R. & Drevon, C. A. (2016, July). Bioavailability and Chemical/Functional Aspects of Synthetic MK-7 vs Fermentation-Derived MK-7 in Randomised Controlled Trials. International Journal for Vitamin and Nutrition Research, 4:1-15, doi: 10.1024/0300-9831/a000258
Ciresi, A. & Giordano, C. (2017, April). Vitamin D across [von Google zensierter Begriff] (GH) disorders: From GH deficiency to GH excess. [von Google zensierter Begriff] & IGF Research, 33:35-42, doi: 10.1016/j.ghir.2017.02.002
Juanola-Fatgarona, M., Salas-Salvadó, J., Martínez-González, M. Á., Corella, D., Estruch, R., Ros, E. et al. (2014, May). Dietary intake of vitamin K is inversely associated with mortality risk. The Journal of Nutrition, 144(5):743-50, doi: 10.3945/jn.113.187740
Oliva, A., Della Ragione, F., Fratta, M., Marrone, G., Palumbo, R. & Zappia, V. (1993, March). Effect of retinoic acid on osteocalcin gene expression in human osteoblasts. Biochemical and Biophysical Research Communications, 191(3):908-14
Iwamoto, J., Takeda, T., Sato, Y. & Yeh, J. K. (2007). Effect of vitamin K2 and [von Google zensierter Begriff] on the long bones in hypophysectomized young rats: a bone histomorphometry study. Journal of Bone and Mineral Metabolism, 25(1):46-53, doi: 10.1007/s00774-006-0726-8
Schurgers, L. J., Teunissen, K. J., Hamulyák, K., Knapen, M. H., Vik, H. & Vermeer, C. (2007, April). Vitamin K-containing dietary supplements: comparison of synthetic vitamin K1 and natto-derived menaquinone-7. Blood, 109(8):3279-83, doi: 10.1182/blood-2006-08-040709
Weber, P. (2001, October). Vitamin K and bone health. Nutrition, 17(10):880-7
Kawakita, H., Tsuchida, A., Miyazawa, K., Naito, M., Shigoka, M., Kyo, B. et al. (2009, June). Growth inhibitory effects of vitamin K2 on colon cancer cell lines via different types of cell death including autophagy and apoptosis. International Journal of Molecular Medicine, 23(6):709-16
Shea, M. K., Booth, S. L., Massaro, J. M., Jacques, P. F., D’Agostino, R. B. Dawson-Hughes, B. et al. (2008, February). Vitamin K and Vitamin D Status: Associations with Inflammatory Markers in the Framingham Offspring Study. American Journal of Epidemiology, 167(3): 313–320, doi: 10.1093/aje/kwm306
Vissers, L. E., Dalmeijer, G. W., Boer, J. M., Verschuren, W. M., van der Schouw, Y. T. & Beulens, J. W. (2016, September). The relationship between vitamin K and peripheral arterial disease. Atherosclerosis, 252:15-20, doi: 10.1016/j.atherosclerosis.2016.07.915
Schurgers, L. J., Uitto, J., Reutelingsperger, C. P. (2013, April). Vitamin K-dependent carboxylation of matrix Gla-protein: a crucial switch to control ectopic mineralization. Trends in Molecular Medicine, 19(4):217-26, doi: 10.1016/j.molmed.2012.12.008
Aziz, T., Biron, V. L., Ansari, K. & Flores-Mir, C. (2014, April). Measurement tools for the diagnosis of nasal septal deviation: a systematic review. Journal of Otolaryngology Head & Neck Surgery, 43(1): 11, doi: 10.1186/1916-0216-43-11
Ito, A., Hitoshi, S., Takume, N., Minegishi, Y., Ohashi, A., Howlader, Z. H. et al. (2011, September). Menaquinone-4 enhances [von Google zensierter Begriff] production in rats and testis-derived tumor cells. Lipids in Health and Disease, 10: 158, doi: 10.1186/1476-511X-10-158
Ferland, G. (2012, March). Vitamin K and the Nervous System: An Overview of its Actions. Advances in Nutrition, Volume 3, Issue 2, doi: 10.3945/an.111.001784, Verfügbar unter: [https://academic.oup.com/advances/article/3/2/204/4557944]
Choi, H. J., Yu, J., Choi, H., An, J. H., Kim, S. W., Kim, S. W. et al. (2011 August). Vitamin K2 Supplementation Improves [von Google zensierter Begriff] Sensitivity via Osteocalcin Metabolism: A Placebo-Controlled Trial. Diabetes Care, 34(9): e147, doi: 10.2337/dc11-0551
Howe, A. M., Lipson, A. H., de Silva, M., Ouvrier, R. & Webster, W. S. (1997, September). Severe cervical dysplasia and nasal cartilage calcification following prenatal [von Google zensierter Begriff] exposure. American Journal of Medical Genetics, 71(4):391-6
Presse, N., Shatenstein, B., Kergoat, M. J. & Ferland, G. (2008, December). Low vitamin K intakes in community-dwelling elders at an early stage of Alzheimer's disease. Journal of the American Dietetic Association, 108(12):2095-9, doi: 10.1016/j.jada.2008.09.013
Patti, A., Gennari, L., Merlotti, D., Dotta, F. & Nuti, R. (2013). Endocrine Actions of Osteocalcin. International Journal of Endocrinology, Volume 2013, Article ID 846480, doi: 10.1155/2013/846480, Verfügbar unter: [https://www.hindawi.com/journals/ije/2013/846480/]
Rennenbert, R. J., Kessels, A. G., Schurgers, L. J., van Engelshoven, J. M., de Leeuw, P. W. & Kroon, A. A. (2009). Vascular calcifications as a marker of increased cardiovascular risk: a meta-analysis. Vascular Health and Risk Management, 5(1):185-97
Gheduzzi, D., Boraldi, F., Annovi, G., DeVincenzi, C. P., Schurgers, L. J., Vermeer, C. et al. (2007, October). Matrix Gla protein is involved in elastic fiber calcification in the dermis of pseudoxanthoma elasticum patients. Laboratory Investigation; a Journal of Technical Methods and Pathology, 87(10):998-1008, doi: 10.1038/labinvest.3700667
Tokita, H., Tsuchida, A., Miyazawa, K., Ohyashiki, K., Katayanagi, S. Sudo, H. et al. (2006, February). Vitamin K2-induced antitumor effects via cell-cycle arrest and apoptosis in gastric cancer cell lines. International Journal of Molecular Medicine, 17(2):235-43
Cario-Toumaniantz, C., Boularan, C., Schurgers, L. J., Heymann, M. F., Le Cunff, M., Léger, J. et al. (2007). Identification of differentially expressed genes in human varicose veins: involvement of matrix gla protein in extracellular matrix remodeling. Journal of Vascular Research, 44(6):444-59, doi: 10.1159/000106189
Ferland, G. (2012, March-April). Vitamin K, an emerging nutrient in brain function. Biofactors, 38(2):151-7, doi: 10.1002/biof.1004
Nimptsch, K., Rohrmann, S. & Linseisen, J. (2008, April). Dietary intake of vitamin K and risk of prostate cancer in the Heidelberg cohort of the European Prospective Investigation into Cancer and Nutrition (EPIC-Heidelberg). American Journal of Clinical Nutrition, 87(4):985-92, doi: 10.1093/ajcn/87.4.985
Ishizuka, M., Kubota, K., Shimoda, M., Kita, J., Kato, M. Park, K H. et al. (2012, December). Effect of menatetrenone, a vitamin k2 analog, on recurrence of hepatocellular carcinoma after surgical resection: a prospective randomized controlled trial. Anticancer Research, 32(12):5415-20
Mizuta, T. & Ozaki, I. (2015, November). [Hepatocellular carcinoma and vitamin K2]. Clinical Calcium, 25(11):1645-51, doi: CliCa151116451651
Li, J., Lin, J. C., Wang, H., Peterson, J.W., Furie, B. C., Furie, B. et al. (2003, July). Novel role of vitamin k in preventing oxidative injury to developing oligodendrocytes and neurons. The Journal of Neuroscience, 23(13):5816-26
Kaneki, M. (2005). [Vitamin K2 as a protector of bone health and beyond]. Clinical Calcium, 15(4):605-10, doi: CliCa0504605610
Matsuzaka, T., Tanaka, H., Fukuda, M., Aoki, M., Tsuji, Y. & Kondoh, H. (1993, March). Relationship between vitamin K dependent coagulation factors and anticoagulants (protein C and protein S) in neonatal vitamin K deficiency. Archives of Disease in Childhood, 68(3 Spec No):297-302
Soutif-Veillon, A., Ferland, G., Rolland, Y., Presse, N., Boucher, K., Féart, C. et al. (2016, November). Increased dietary vitamin K intake is associated with less severe subjective memory complaint among older adults. Maturitas, 93:131-136, doi: 10.1016/j.maturitas.2016.02.004
DiNicolantonio, J. J., Bhutani, J. & O’Keefe, J. H. (2015, October). The health benefits of vitamin K. Open Heart, 2(1): e000300, doi: 10.1136/openhrt-2015-000300
Zhong, J. H., Mo, X. S., Xiang, B. D., Yuan, W. P., Jiang, J. F., Xie, G. S. & Li, L. Q. (2013). Postoperative use of the chemopreventive vitamin K2 analog in patients with hepatocellular carcinoma. PLoS One, 8(3):e58082, doi: 10.1371/journal.pone.0058082
Enomoto, M., Tsuchida, A., Miyazawa, K., Yokoyama, T., Kawakita, H., Tokita, H. et al. (2007, December). Vitamin K2-induced cell growth inhibition via autophagy formation in cholangiocellular carcinoma cell lines. International Journal of Molecular Medicine, 20(6):801-8
Riaz, I. B., Riaz, H., Riaz, T., Rahman, S., Amir, M., Badshah, M. B. & Kazi, A. N. (2012, November). Role of vitamin K2 in preventing the recurrence of hepatocellular carcinoma after curative treatment: A meta-analysis of randomized controlled trials. BMC Gastroenterology, 12: 170, doi: 10.1186/1471-230X-12-170
Maresz, K. (2015, February). Proper Calcium Use: Vitamin K2 as a Promoter of Bone and Cardiovascular Health. Integrative Medicine: a Clinician’s Journal (Encinitas), 14(1): 34–39
Yoshida, T., Miyazawa, K., Kasuga, I., Yokoyama, T., Minemura, K., Ustumi, K. et al. (2003, September). Apoptosis induction of vitamin K2 in lung carcinoma cell lines: the possibility of vitamin K2 therapy for lung cancer. International Journal of Oncology, 23(3):627-32
Vielen Dank für Ihr Feedback. Ihre Bewertung wird in Kürze freigegeben.
Vitamin K2 - MK7 capsules - high dose with 240µg - for strong bones and healthy blood vessels