Effect of vitamin D deficiency on the metabolic profile of... : Indian Journal of Medical Research (2023)

Polycystic ovarian syndrome (PCOS) is the most prevalent female endocrine disorder, which is achieving epidemic proportions in the Indian subcontinent with a reported prevalence ranging from 6.3 to 22.5 per cent1,2. Although PCOS has multifactorial aetiology, insulin resistance is one of the key drivers in the pathophysiology of PCOS, which can result in anovulation, menstrual irregularities, impaired glucose metabolism and metabolic syndrome3. The role of vitamin D in affecting the insulin sensitivity is chiefly attributed to the presence of 1,25(OH)2D3 receptors, through which it directly binds on pancreatic β-cells and improves production of insulin4. Another mechanism postulated is that 1,25-dihydroxy vitamin D improves insulin sensitivity of the liver, skeletal and adipose tissue by increasing the level of calcium inside these cells, which is essential for insulin-mediated intracellular processes, therefore reducing insulin resistance5,6.

High prevalence of vitamin D deficiency (VDD) in women with PCOS (up to 70.3%) has been reported from India7. The VDD is postulated to affect the insulin resistance which, in turn, can affect various metabolic parameters; however, the results are varied and not well studied in Indian scenario8. Hence, the association of VDD on various metabolic parameters in women with PCOS was analyzed.

A retrospective analysis of database of 175 women in the age group of 16-49 yr attending the multidisciplinary PCOS clinic organised at ICMR-National Institute for Research in Reproductive and Child Health (NIRRCH), Mumbai, India, from 2016 to 2019 was used for this study. Diagnosis of adult PCOS was done using Rotterdam criteria, which included the presence of two out of three criteria of oligo/anovulation (OD), clinical or biochemical hyperandrogenism (HA), polycystic ovaries morphology on ultrasound (PCOM)9. For adolescent diagnosis of PCOS, criteria of HA along with persistent OD or HA along with OD and PCOM or both were used for diagnosis. PCOS phenotypes were classified as per the NIH consensus statement into four types10. The 25(OH)D levels were estimated by electro-chemiluminescence immunoassay method in a College of American Pathologists-accredited laboratory along with hormonal, biochemical, lipid and glycaemic profile11. VDD was categorized as per 25(OH)D levels of ≥20 ng/ml, 19.9-10 ng/ml and less than 10 ng/ml. These categorized 25(OH)D levels were associated with various metabolic parameters used to define metabolic syndrome as per the new International Diabetes Federation (IDF) consensus statement12. The 25(OH)D levels were also associated with other parameters that were used to measure the metabolic disturbances such as Homeostatic Model Assessment (HOMA) for Insulin Resistance index, fasting insulin and lipid ratio, which included total cholesterol/high-density lipoprotein (HDL) ratio and triglyceride/HDL ratio13-15. Association was sought between VDD and metabolic parameters using ANOVA in case of normal distribution and Kruskal-Wallis test in case of skewed distribution.

The mean age of these women was 26.92±4.5 yr, and the mean body mass index (BMI) was 26.3±5.2 kg/m2. The most common phenotype was phenotype C having both HA and PCOM in 44.5 per cent (n=78) of women. This was followed by phenotype A having HA, OD and PCOM in 42.2 per cent (n=74) of women. The rest 13.14 per cent (n=23) of women constituted phenotypes B and D.

The mean 25(OH)D level was 12.9±8.1 ng/ml. Deficient levels corresponding to 10.0-19.9 ng/ml were seen in 46.2 per cent (n=81) and severe deficiency corresponding to less than 10.0 ng/dl was seen in 42.8 per cent (n=75) of PCOS women. Metabolic syndrome was diagnosed in 32 per cent (n=56). The association between metabolic parameters and categorized VDD levels is shown in the Table. The mean level of BMI was not found significant across all three groups. A significant association was found between HDL and VDD (P=0.027). No other metabolic parameter was significantly associated with VDD.

In this study, a high prevalence of metabolic syndrome was seen among women with PCOS in our study group, which was similar to another study by Chandrasekaran and Sagili16, who reported the prevalence of metabolic syndrome to be 33 per cent. Underlying insulin resistance, increased android obesity, atherogenic dyslipidaemia and hypertension are the potential contributors to develop this metabolic syndrome16.

There is inconsistent evidence in literature regarding the effect of VDD on various metabolic parameters in women with PCOS17,18. Our study revealed that though BMI, which is a well-known confounding factor to affect vitamin D levels, was not variable across groups, still a significant association was found between HDL levels and VDD, though none of the other metabolic parameter showed significance. A systematic review protocol by Shi et al19 elaborated the mechanism postulated by which 25(OH)D affects lipid profile. Further this 25(OH)D may affect the balance between the pro-inflammatory and anti-inflammatory cytokines2,7. The major limiting factor of this study was small sample size and lack of age-matched controls.

This study adds to the existing evidence of high prevalence of metabolic syndrome among women with PCOS. VDD affects the HDL levels, which is an important component of metabolic syndrome. However, more studies are required to evaluate the molecular mechanism of this association.

Acknowledgment: The authors acknowledge the encouragement and guidance received from Director, ICMR-NIRRCH and Dr Sanjay Chauhan, Head of Operational and Clinical research at ICMR-NIRRCH, Mumbai. The authors also acknowledge staff for data collection and data entry.

Financial support & sponsorship: The authors acknowledge the financial support from the ICMR-NIRRCH to run the multidisciplinary PCOS clinic.

Conflicts of Interest: None.


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