Submit manuscript...
Journal of
eISSN: 2379-6359

Otolaryngology-ENT Research

Opinion Volume 6 Issue 5

Vitamin D Deficiency to Ill Health Essay

Nawal B Dubey

Alrayan Hospital, Bahrain

Correspondence: Nawal Dubey Senior ENT surgeon Alrayan Hospital East Riffa Kingdom of Bahrain

Received: January 30, 2017 | Published: April 7, 2017

Citation: Dubey NB (2017) Vitamin D Deficiency to Ill Health Essay. J Otolaryngol ENT Res 6(5): 00174. DOI: 10.15406/joentr.2017.06.00174

Download PDF

Keywords

vitamin d, immune function, health, deficiency, colorectal cancer

Abbreviations

CVD, cardiovascular diseases; HF, heart failure; RHI, reactive hyperaemia index; FMD, flow mediated dilation; CRC, colorectal cancer

Introduction

During the last decade, vitamin D has been linked to a very wide range of diseases with sufficient evidence emerging for fractures, cancer, cardiovascular diseases (CVD) and from altered immune function (Scragg, 2011). Vitamin D is synthesised primarily from skin through the action of UVb sunlight on inactive precursors but can also be obtained from dietary sources. Focusing on both CVD and cancer, being in the top ten causes of death in the world (WHO, 2011), this essay summarises the findings of five papers on the relationship of vitamin D deficiency to both aspects of disease.1‒3

Cardiovascular disease

Vitamin D deficiency is a predictor of reduced survival in patients with heart failure; vitamin d supplementation improves outcome: Gotsman et al. analysed the data from years 2006 to 2010 for 49,834 members belonging to a health maintenance organisation (HMO) in Israel. Defining optimal and deficient vitamin D 25(OH)D levels as <75nmol/L and <25nmol/L respectively, the team found that the median for the whole cohort was well below optimal levels with prevalence of vitamin D deficiency higher in patients with heart failure (HF). It was also found that treatment with vitamin D supplements for patients with HF, reduced mortality. Due to the large sample size, the team was able to observe population trends of which they also found a definite seasonal variation in vitamin D levels with levels increased in summer and reduced in winter. I chose this study because it allowed 25(OH)D to be singled out as a predictor for mortality in HF.4‒9 This study is limited, however, as it did not include the mortality data nor its incidence and only used single measure of 25(OH)D.

Vitamin D deficiency is associated with increased il-17 and tnfα levels in patients with chronic heart failure: milovanovic et al. studied 40 patients to investigate how vitamin D levels affects IL-17 and TNFα status. I chose this study because it showed that even in areas with higher solar radiation, the prevalence of vitamin D deficiency does not change and furthermore, it illustrates a possibly underlying mechanism by which vitamin D deficiency may contribute to the pathogenesis of CVD. The study found significantly lower 25(OH)D with increased TNFα and IL-17 in patients with CHF secondary to hypertension when compared to patients with CHF secondary to coronary disease. Classifying insufficient and deficient 25(OH)D levels as 51 – 74 nmol/l and <50 nmol/l respectively, the study is also found out that 25(OH)D deficient patients had higher New York Heart Association (NYHA) functional classification scores (0 – 3, with 3 being severe limitations in physical acivities) being compared to patients who are 25(OH)D insufficient as shown in Figure. Error: Reference source not found Figure NYHA scores in VD deficient and insufficient CHF patients. NYHA class was determined by observing each patient at rest, dressing, walking and climbing

Vitamin D status is associated with arterial stiness and vascular dysfunction in health humans: Al Mheid et al. recruited 554 healthy participants and tested their arterial stiff ness (AIX), flow- mediated dilation (FMD) and reactive hyperaemia index (RHI) alongside with vitamin D levels. (Al Mheid et al., 2011) Similar to Gotsman et al, the mean 25(OH)D levels was well below optimal levels and 47% of the cohort has vitamin D deficiency after the study defined it as <30ng/ml. It was also seen that a the number of risk factors for CVD increases with a decreasing level of mean 25(OH)D serum levels. Lowered levels of 25(OH)D was found to be independently associated with higher AIX, lower FMD and RHI. I chose this study because it associates vitamin D status with a variety of cardiovascular risk factors and thus allowing potential insight in to the underlying mechanism vitamin D’s protective effects.10‒13 This study, however, is also limited because it did not take into account other factors such as physical activity which may account for the observations seen.

Cancer

Instrumental variable estimation of the causal eect of plasma 25-hydroxy-vitamin d on colorectal cancer risk: a mendelian randomization analysis: Theodoratou et al. aimed to ‘set out to evaluate the relationship between colorectal cancer (CRC), plasma 25(OH)D levels and genotype at 4 genetic loci tagging genes involved in vitamin D metabolism’ by ‘aiming to recruiting all incident cases of adenocarcinoma of colorectum presenting to surgical units within Scotland’ and drew randomly from a population based register for the controls. (Theodoratou et al., 2012) A total of 2001 cases and 2237 controls were recruited in this way.14 The authors found that CRC risk was inversely associated with levels of 25(OH)D even after adjustment for age and sex.15‒19 I chose this study as links vitamin D deficiency to another aspect of ill health and also the possible underlying mechanism by which vitamin D deficiency is associated with CRC. This study, however, is limited in its contribution as it has almost all white people as participants and thus may not be generalizable.

Vitamin D status at breast cancer diagnosis: correlation with tumor characteristics, disease outcome, and genetic determinants of vitamin d insuciency: Hatse et al. in 2012, analysed data on 1800 breast cancer patients from Leuven Multidisciplinary Breast Center in attempt to explore the possible relationship between relapse of breast cancer, survival and tumour characteristics between serum 25(OH)D and if genetic variation in vitamin D-related genes have an effect. The team observed that serum 25(OH)D had an inverse relationship with tumour size but no relation with other tumour characteristics. The team also found that serum 25(OH)D has a similar relationship with the survival rates especially in postmenopausal patients. It is also noteworthy that the team observed marked decrease in 25(OH)D levels with increase in age. The team, however, found that genetic variation of vitamin D pathways plays no role in the pathogenesis of breast cancer. This study was chosen because it able to accurately analyse its study population with the well documented causes of death which led to a further insight on how vitamin D deficiency affects pre and postmenopausal female breast cancer patients.

Critical summation

Coming to conclusion, all the studies agree that vitamin D deficiency is highly prevalent and contribute to a growing body of evidence towards linking vitamin D deficiency levels and ill health, which in this essay focuses on cardiovascular disease and cancer. Going back to the title, all the articles found an association between vitamin D deficiency and the disease studied though it cannot be concluded that vitamin D deficiency is indeed causative of such diseases. More research is warranted by these to uncover the exact mechanism underlying these associations. Considering the high prevalence of vitamin deficiency and the growing body of evidences that links it to diseases, it may be sufficient to form a basis for population wide intervention. Since vitamin D is mainly and easily acquired through the skin under exposure to UVb sunlight, such recommendation may yet be another reason for an active and health lifestyle.20‒29

Acknowledgments

None.

Conflict of interest

Author declares there are no conflicts of interest.

Funding

None.

References

  1. Gigineĭshvili GR, Il’in NI, Suzdal’nitskiĭ RS, et al. The use of UV irradiation to correct the immune system and decrease morbidity in athletes. Vopr Kurortol Fizioter Lech Fiz Kult. 1990;(3):30‒33.
  2. Wayse V, Yousafzai A, Mogale K, et al. Association of subclinical vitamin D deficiency with severe acute lower respiratory infection in Indian children under 5 y. 2004;58(4):563‒567.
  3. Liu PT, Stenger S, Li H, et al. Toll-like receptors triggering of a vitamin D mediated anti-microbical response. 2006;311(5768):1770‒1773.
  4. Bals R, Wilson JM. Cathelicidins - a family of multifunctional antimicrobical peptides. Cell Mol Life Sci. 2003;60(4):711‒720.
  5. Adams JS, Ren S, Liu PT, et al. Vitamin D directed rheostatic regulation of monocyte antibacterial responses.J Immunol. 2009;182(7):4289‒4295.
  6. Yuk JM, Shin DM, Lee HM, et al. Vitamin D induces autophagy in human monocytes/macrophages via cathelcid in. Cell Host Microbe. 2009;6(3):231‒243.
  7. Mansour MM, Alhadidi KM. Vitamin D deficiency in children living in Jeddah, Saudi Arabia. Indian J Endocrinol Metab. 2012;16(2):263‒269.
  8. Al-Turki H, Sadat AM, Al EH, et al. 25-Hydoxyvitamin D levels among healthy Saudi Arabian women. Saudi Med J. 2008;29(12):1765‒1768.
  9. Hashemipour S, Larijani B, Adibi H, et al. Vitamin D deficiency and causative factors in the population of Tehran. BMC Public Health. 2004;4:38.
  10.  Holick MF, Chen TC. Vitamin D deficiency: a worldwide problem with health consequences. Am J Clin Nutr. 2008;87(4):1080S‒1086S.
  11. Abuzeid WM, Akbar NA, Zacharek MA. Vitamin D and Crhronic Rhinitis. Curr Opin Allergy Clin Immunol. 2012;12(1):13‒17.
  12. Brookes GB. Vitamin D deficiency and deafness: 1984 update. Am J Otology. 1985;6(1):102‒107.
  13. Mahendra K, Vivek T. Role of ENT surgeons in the national program for prevention and control of deafness. Indian J otology. 2012;3(18):119‒121.
  14. Kamball S, Fuleihan GH, Vieth R.. Vitamin D: a growing perspective. Crit Rev Clin Lab Sci. 2008;45(4):339‒414.
  15. Moussavi M, Heidarpour R, Aminorroaya A, et al. Prevalence of vitamin D deficiency in Isfahani high school students in 2004. Horm Res 64(3): 144-148.
  16. Travera M, White JH (2007) Cell Defenses and the Sunshine Vitamin. Sci Am. 2005;297(5):62‒65.
  17. Holick MF. Sunlight and vitamin D for bone health and prevention of autoimmune disease, cancers and cardiovascular disease. Am J Clin Nutr .80(6suppl):1678 S‒1688S.
  18. Chatfield SM, Brand C, Ebeling PR, et al. Vitamin D deficiency in general medical inpatients in summer and winter. Int Med J. 2007;37(6):377‒382.
  19. Melamed ML, Muntner P, Michos ED, et al. Serum 25-Hydroxyvitamin D Levels and the Prevalence of Peripheral Arterial Disease. Results from NHANES 2001 to 2004. Arterioscler Thromb Vasc Biol. 2008;28(6):1179‒1185.
  20. Anagnostis P, Athyro VG, Adamidou F, et al. Vitamin D and cardiovascular disease: a novel agent for reducing cardiovascular risk? Curr Vasc Pharmacol. 2010;8(5):720‒730.
  21. Sasidharan PK, Rajeev E, Vijayakumari V. Tuberculosis and vitamin D deficiency. J Assoc Physicians India. 2012;20:554‒558.
  22. Lau KH, Bayblink DJ. Vitamin D therapy of osteoporosis: plain vitamin D therapy versus active vitamin D analog (D hormone) therapy. Calcified Tissue Int. 1999;65(4):295‒306.
  23. Scragg R, Jackson R, Holdaway IM,et al. Myocardial Infarction is Inversely Associated with Plasma 25-Hydroxyvitamin D3 Levels: A Community-Based Study. Int J Epidemiol . 1990;19(3):559‒563.
  24. Findings presented at the American Society of Clinical Oncology’s annual meeting in Chicago. As reported in the Sydney Morning Herald, Australia. 2008.
  25. Al Faraj S, Al Mutairi K. Vitamin D deficiency and chronic low back pain in Saudi Arabia. Spine. 2003;28(2):177‒179.
  26. Heath KM, Elovic EP. Vitamin D deficiency: Implication in the rehabilitation setting. Am J Phys Med Rehabil . 2006;85(11):916‒923.
  27. Jeong SH, Choi SH, Kim JY, et al. Osteopenia and osteoporosis in idiopathic benign positional vertigo. Neurology. 2009;72(12):1069‒1076.
  28. Ikeda K, Kobayashi T, Itoh Z, et al. Evaluation of vitamin D metabolism in patients with bilateral sensorineural hearing loss. Am J Otol. 1989;10(1):11‒13.
  29. Hosseinnezhad A, Holick MF. Optimize dietary intake of vitamin D: an epigenetic perspective. Curr Opin Clin Nutr Metab Care. 2012;15(6):567‒579.
Creative Commons Attribution License

©2017 Dubey. This is an open access article distributed under the terms of the, which permits unrestricted use, distribution, and build upon your work non-commercially.