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Why Vitamin D?

Ultra K Vitamins and vitamin D

Vitamin D is a fat-soluble vitamin that is naturally synthesized by the skin following exposure to the ultraviolet rays of the sun.  However, exposure to the sun depends on time outside, the amount of skin exposed, use of sunscreens, geographical location, and the season, so supplementing can provide a consistent dose. 

Vitamin D can give you the ability to lift better, run better, swim better - and aid in recovery.  With most athletes testing low in Vitamin D, why not use it to your advantage?  Be the minority ready to win, give your body the competitive edge and experience less injuries!

Exposure to the sun and the important ultraviolet spectrum that produces vitamin D does not simply happen by being outside.  Exposure is diminished by clouds, the use of sun screens, by the clothing worn that covers your body or your location.  For example, from October through April, above the 45th parallel, (North Dakota in the USA, or Germany in Europe), the tilt of the earth means that the ultraviolet rays that produce vitamin D are not present. 

If you are training below the 45th parallel, the window for vitamin D production expands as you move toward the equator.  Every 5 degree change in latitude provides you an additional month of ultraviolet exposure.  For example, if you train in Kenya, you have exposure all year round between 11-1. 

Regardless of geographical location, best exposure is between 11-2.

In the US, vitamin D levels are measured in ng/ml (nano-grams per milliliter).  Outside the US, vitamin D levels are measured in nmol (nano-mols per liter).  The conversion factor between the two measurements is 2.5.  As an example, when converting 120 nmol to ng/ml you would divide by 2.5 (120 nmol/2.5= 48ng/ml).

  • Improve muscle function  

A study of NFL athletes found that 81% had levels at or below deficient and those with lower levels had more muscle injuries (Shindle et al, 2011).

Vitamin D levels predicted muscle weakness.  Males with low D levels participating in intense exercise had more weakness three and four days after exercise (Barker et al, 2013).

  • Reduce stress fractures  

A study of military recruits in Finland found that a low vitamin D level (<30 nmol or 12 ng/ml) significantly increased the risk of stress fracture (Valimaki et al, 2004; Ruohola et al, 2006).

Royal Marine recruits with a vitamin D level <50 nmol (or 20 ng/ml)  showed an increased risk of stress fractures (Davey et al, 2016)

Japanese male university soccer athletes with vitamin D levels <30 ng/ml (or 12 ng/ml) had a significantly higher risk of stress fracture (Shimaski et al 2016)
 

  • Aid in recovery

Men exercised and were given 4000 iu/day of D3 for six weeks (2 and 7 days post exercise) showed a 14% improved strength recovery (Owens et al, 2015).

Active males engaged in 30 minutes of physical activity at least 3 times per week and were given 4000 ius (100 mcg) of vitamin D for 35 days.  They showed an enhanced muscle strength recovery (Barker et al, 2013).

  • Reduce total body inflammation 

CRP (c-reactive protein) is a measure of inflammation.  A British study showed that residents with a deficient level of vitamin D had a significantly elevated CRP score, indicating more inflammation.

Irish residents with a low-deficient level of vitamin D showed higher levels of CRP, which modulates inflammation (Laird et al, 2023; Zhou & Hypponen, 2023).

  • Improve cardiac function

A study of national athletes in Qatar showed that 78% had D levels below 30 nmol or below 12 ng/ml.  Those with the lowest levels of vitamin D presented with significantly smaller hearts (Allison et al, 2015).

39 active college students, men and women were studied.  Those with the higher amounts of vitamin D levels, >35 nmol (or 14 ng/ml) had a significantly higher VO2 max than the students with low D levels (Forney et al, 2014).

Elite lightweight rowers were given 6000 iu/day (150 mcg) of vitamin D3 during an 8-week training cycle, and demonstrated a 12.1% improvement in aerobic metabolism (Jastrzebski et al, 2014).

Young soccer players were given 20,000 iu/per week ( 500mcg) of vitamin D for 8 weeks. The soccer players showed a significantly higher VO2max, compared to those receiving a placebo (Brzezia?ski' et al, 2022).

  • Improve performance

UK athletes were given 5000 ius/day (125 mcg) of vitamin D for 8 weeks, resulting in a significant increase in their 10 meter sprint times and vertical jumps (Close et al, 2013).

Elite ballet dancers were given 2000 ius/day ( 50 mcg) of vitamin D3 and showed an 18.7% increase in isometric strength and a 7.1% increase in vertical jump, while sustaining significantly few injuries (Wyon et al, 2014).

A study of adolescent Chinese students found that their vitamin D levels were associated with muscle power and force, as measured in jump velocity, height, power and force (Ward et al, 2009).

  • Strong immune system

There is mounting scientific evidence suggesting that increasing vitamin D intake decreases the risks of developing chronic diseases, including common cancers (Bodiwala et al, 2003), multiple sclerosis (Hernan et al, 1999), diabetes (Hypponen et al, 2001), rheumatoid arthritis (Merlino et al, 2004), and hypertension (Krause et al, 1998).

A prospective study revealed that, if 25(OH)D concentrations were <50 nmol/L (<20 ng/mL) then there was a 2-fold increased risk of developing colon cancer (Holick, 2004).

  • Deficiency

Vitamin D deficiency results in the impairment of calcium absorption and dysfunctional bone remodeling, leading to reduced bone density, fragile bones, and a higher risk of fracture (Bischoff-Ferrari et al, 2009; Cauley et al, 2008).

A 2011 survey of NFL players found that black players had a higher rate of vitamin D deficiency than white players, and those with higher vitamin D levels were more likely to obtain a contract position, while those who were deficient were at greater risk for bone fractures (Maroon et al, 2015).

A meta-analysis of research on athletes showed a prominent vitamin D inadequacy, with 56% of those in the review 56% being low, which varied by geographical location, and which increased for winter and spring seasons and indoor sport activities.  The prevalence of injuries cited was 43% bone related and 37.5% soft tissue related (Farrokhyar et al, 2025.

Chinese adolescent girls were tested for their vitamin D levels and 57.8% were found to be deficient and 31.2% were severely deficient, and presented with significantly lower bone mass and muscle strength (Foo et al, 2009). 


The importance of vitamin D has been highlighted in numerous studies conducted worldwide, and each year brings forth new positive findings. Nutrients work as integral parts of complex metabolic networks, and adequate intake of Vitamin D is essential for all athletes. 

Testing your vitamin D level is inexpensive and is routinely available at all labs.  It is highly recommended that all athletes assess their vitamin D levels and monitor intake to ensure that your level is coordinated with your training and workouts.

References

Allison RJ, Close GL, Farooq A, Riding NR, Salah O, Hamilton B, Wilson MG.  Severely vitamin D-deficient athletes present smaller hearts than sufficient athletes.  Eur J Prev Cardiol.  2015 Apr;22(4):535-42.

Backx EM; Tieland M; Maase K; Kies AK; Mensink M; van Loon LJ; de Groot LC; (2016, July 27). The impact of 1-year vitamin D supplementation on vitamin D status in athletes: A dose response study. European journal of clinical nutrition. https://pubmed.ncbi.nlm.nih.gov/27460266/ 

Barker T, Schneider ED, Dixon BM, Henriksen VT, Weaver LK.  Supplemental vitamin D enhances the recovery in peak isometric force shortly after intense exercise.  Nutr Metab (London).  2013 Dec 6;10(1):69.

 

Barker T, Henriksen VT, Martins TB, et al. Higher serum 25-hydroxyvitamin D concentrations associate with a faster recovery of skeletal muscle strength after muscular injury. Nutrients. 2013;5:1253–1275.

 

Bischoff-Ferrari HA, Willett WC, Wong JB et al.  Prevention of nonvertebral fractures with oral vitamin D and dose dependency:  a meta-analysis of randomized controlled trials.  Arch Intern Med.  2009;169:551-561.

 

Bodiwala D, Luscombe CJ, French ME, Liu S, Saxby MF, Jones PW, Fryer AA, Strange RC. Polymorphisms in the vitamin D receptor gene, ultraviolet radiation, and susceptibility to prostate cancer. Environ Mol Mutagen 2004; 43(2): 121-127

 

Close GL, Russell J, Cobley JN, et al. Assessment of vitamin D concentration in non-supplemented professional athletes and healthy adults during the winter months in the UK: implications for skeletal muscle function. J Sports Sci. 2013;31:344–353.

 

Cannell JJ, Hollis BW, Sorenson MB, Taft TN, Anderson JJ. Athletic performance and vitamin D. Med Sci Sports Exerc. 2009;41:1102–1110.

 

Cauley JA, LaCroix AZ, LieLing W, Horwitz M.  Serum 25-hydroxyvitamin D concentrations and risk for hip fractures.  Ann Intern Med.  2008;149:242-250.

 

Bischoff-Ferrari HA, Kiel DP, Dawson-Hughes B, et al. Dietary calcium and serum 25-hydroxyvitamin D status in relation to BMD among U.S. adults. J Bone Miner Res. 2009;24:935–42. doi: 10.1359/jbmr.081242. 

 

Brzezia?ski M, Pastuszak-Lewandoska D, Migdalska-S?k M, et al. Effect of vitamin D3 supplementation on interleukin 6 and C-reactive protein profile in athletes. J Nutr Sci Vitaminol (Tokyo). 2022;68(5):359-367.

 

Cauley JA, Lacroix AZ, Wu L, et al. Serum 25-hydroxyvitamin D concentrations and risk for hip fractures. Ann Intern Med2008;149:242–50.

 

Davey T, Lanham-New SA, Shaw AM, Hale B, Cobley R, Berry JL, et al.  Low serum 25-hydroxyvitamin D is associated with increased risk of stress fracture during Royal Marine recruit training.  Osteoporos Int.  2016 Jan;27(1):172-19.

 

Farrokhyar F, Tabasinejad R, Dao D, et al. Prevalence of vitamin D inadequacy in athletes: a systematic-review and meta-analysis. Sports Med. 2015;45(3):365-378.

 

Foo LH, Zhang Q, Zhu K, Ma G, Hu X, Greenfield H, Fraser DR.  Low vitamin D status has an adverse influence on bone mass, bone turnover, and muscle in Chinese adolescent girls.  J Nutr.  2009 May;139(5):1002-1007.

 

Forney L, Earnest CC, Henagan T, Johnson L, Castleberry T, Stewart L. Vitamin D Status, Body Composition, and Fitness Measures in College-Aged Students. J Strength Cond Res. 2014;28:814–24.

 

Holick MF. Vitamin D: Importance in the prevention of cancers, type 1 diabetes, heart disease, and osteoporosis. Am J Clin Nutr. 2004;79(3):362–71.

Hyppönen E, Läärä E, Reunanen A, Järvelin Ml-R, Virtanen SM.  Intake of vitamin D and risk of type 1 diabetes:  a birth-cohort study.  The Lancet.  2001;358(9292):1500-1503.

Jastrz?bski Z. Effect of vitamin D supplementation on the level of physical fitness and blood parameters of rowers during the 8-week high intensity training. Facicula Educ Fiz ?i Sport. 2014;2:57–67.

 

Krause R, Buhring M, Hopfenmuller W, Holick MF, Sharma AM. Ultraviolet B and blood pressure. Lancet. 1998;352(9129):709–710

 

Laird DM, O’Halloran AM, Molloy AM, Healy M, Bourke N, Kenny RA.  Vitamin D status & associations with inflammation in older adults.  PLOS One.  2023;18(6):e0287169.

 

Larson-Meyer E. Vitamin D supplementation in athletes. Nestle Nutr Inst Workshop Ser. 2013;75:109-21. doi: 10.1159/000345827. Epub 2013 Apr 16. PMID: 23765355. 

 

Maroon JC, Mathyssek, Bost JW, Amos A, Winkelman R, Yates AP, et al.  Vitamin D profile in national football league players.  Am J Sports Med.  2015;43(5): https://doi.org/10.1177/0363546514567

 

Merlino LA, Curtis J, Mikuls TR, Cerhan JR, Criswell LA, Saag KG, et al.  Vitamin D intake is inversely associated with rheumatoid arthritis:  results from the Iowa Women’s Health Study.  Arthris Rheum.  2004 Jan;50(1):72-77.

National Institute of Health. (n.d.). Office of dietary supplements - vitamin D. NIH Office of Dietary Supplements. https://ods.od.nih.gov/factsheets/VitaminD-HealthProfessional/ 

Owens DJ, Sharples AP, Polydorou I et al.  A systems based investigation into vitamin D and skeletal muscle repair, regeneration and hypertrophy.  Am J Physiol.  2015;309:E1010-E1031.

 

Ruohola J-P, Laaksi I, Ylikomi T, Haataja R, Mattila VM, Sahi T, et al.  Association between serum 25(OH)D concentrations and bone stress fractures in Finnish young men.  J Bone Miner Res.  2006 Sep;21(9):1483-8.

 

Shindle M, Voos J, Gulotta LV, Weiss L, Rodeo S, Kelly B, Lyman S et al.  Vitamin D status in a professional American football team.  Med & Sci in Sports & Exercise.  2011 May;43(5):511.

 

Va?lima?ki V-V, Alfthan H, Lehmuskallio E, Lo?yttyniemi E, Sahi T, Stenman U-H, et al.  Vitamin D status as a determinant of peak bone mass in young Finnish men.  J Clin Endo & Metab.  2004;89(1):76-80.

 

Ward KA, Das G, Berry JL, Roberts SA, Rawer R, Adams JE, Mughal Z.  Vitamin D status and muscle function in post-menarchal adolescent girls.  J Clin Endocrinol Metab.  2009 Feb;94(2):559-63.

 

Wyon MA, Wolman R, Nevill AM, Cloak R, Metsios GS, Gould D, et al.  Acute effects of Vitamin D3 supplementation on muscle strength in Judoka athletes:  a randomized placebo-controlled, double-blind trial.  Clin J Sport Med.  2016 Jul;26(4):279-84.

 

Zhang S, Miller DD, Wei L.  Non-musculoskeletal benefits of Vitamin D beyond the musculoskeletal system.  Int J Mol Sci.  2021 Feb;22(4):2128.

 

Zhou A, Hyppönen E.  Vitamin D deficiency and C-reactive protein:  a bidirectional Mendelian randomization study.  Int J Epidemio.  2023 Feb;52(1):260-271.

Carolin's Story

NCAA Track & Field

Carolin, a German athlete, joined the NCAA track and field scene, opting to compete for UW-Parkside from the fall of 2021. Following several weeks of participation in cross country, Carolin introduced vitamin K and vitamin D into her supplement routine. Through consistent effort and dedication, she successfully lowered her 800-meter personal record during that season from 2:14 to 2:09, earning her a spot at the D2 indoor nationals, where she secured an 11th-place finish nationally. Post-MBA graduation, Carolin continues her athletic journey as a member of the LG Olympia Dortmund track & field team in Germany. In the 2023 outdoor season, she qualified for the German outdoor nationals, achieving a commendable 16th place in the 800-meter event. Pursuing her fitness aspirations, Carolin remains dedicated to her goals, aided by the support of Ultra K, aligning with the brand's mission to assist athletes in realizing their genuine potential.


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