Diabetes and vitamin D: The effect of insulin sensitivity and gut microbial health.
Study Goal
The researchers aimed to explore the potential associations between vitamin D and the risks and pathogenesis of all forms of diabetes (type 1, type 2, and gestational diabetes).
Results Summary
The study suggests an inverse association between vitamin D and diabetes risks, with potential mechanisms involving pancreatic beta cell function and gut microbiota. However, evidence on the effectiveness of vitamin D supplementation remains inconclusive.
Population
Adults worldwide, with a focus on diabetes risk and pathogenesis.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
vitamin D | decrease | risks and pathogenesis of all forms of diabetes (type 1, type 2 and gestational diabetes) | - | - | inverse associations | #1 |
vitamin D deficiency | decrease | blood glucose control | - | - | may impair | #2 |
vitamin D deficiency | decrease | insulin sensitivity | - | - | decrease | #3 |
vitamin D deficiency | decrease | insulin secretion from beta cells | - | - | reducing | #4 |
vitamin D intervention | neutral | - | - | - | may be beneficial | #5 |
vitamin D supplementation | decrease | reducing the risks or managing the pathogenesis of all forms of diabetes | - | - | inconclusive evidence of the effectiveness | #6 |
vitamin D | neutral | gut microbiota profile | - | - | impact on | #7 |
Current global estimation suggests that about 10% of adults worldwide have diabetes, thus, various strategies are needed to address the issue, including dietary factors such as vitamin D. Various studies have suggested an inverse associations between vitamin D and the risks and pathogenesis of all forms of diabetes (type 1, type 2 and gestational diabetes). The underlying mechanism is not fully understood; however, the expression of vitamin D receptors in pancreatic beta cells suggests an important physiological role for vitamin D in beta cell function. Vitamin D deficiency may impair blood glucose control and decrease insulin sensitivity by reducing insulin secretion from beta cells. Many studies suggest that vitamin D intervention may be beneficial; however, there is inconclusive evidence of the effectiveness of vitamin D supplementation on reducing the risks or managing the pathogenesis of all forms of diabetes. Part of the pathogenesis of vitamin D for reducing diabetes is thought to be related to its impact on gut microbiota profile, via the suggested prebiotic properties of vitamin D.