Role of vitamin D in the pathophysiology and treatment of type 2 diabetes.
Study Goal
The researchers aimed to evaluate the potential association between vitamin D (which plays a role in calcium regulation) and type 2 diabetes, focusing on its effects on insulin resistance and beta-cell dysfunction.
Results Summary
The study found mixed evidence linking vitamin D insufficiency to insulin resistance and beta-cell dysfunction, with conflicting results and methodological limitations preventing definitive conclusions. Clinical data and interventional studies suggest a potential relationship but remain inconclusive.
Population
General population with a focus on vitamin D insufficiency and type 2 diabetes.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
vitamin D | neutral | a variety of physiologic processes, including those relating to glucose homeostasis | - | - | has previously-unrecognized effects on | #1 |
vitamin D insufficiency | neutral | type 2 diabetes (T2DM) | - | - | has been linked with | #2 |
vitamin D insufficiency | increase | insulin resistance | - | - | contributes to | #3 |
vitamin D insufficiency | increase | beta-cell dysfunction | - | - | contributes to | #4 |
vitamin D | neutral | these metabolic defects and dysglycemia | - | - | linked with | #5 |
vitamin D supplementation | neutral | glucose homeostasis | - | - | effect of | #6 |
The secosteroid vitamin D is best known for its role in calcium regulation and bone metabolism. Recently, however, an emerging body of evidence has suggested that vitamin D may have previously-unrecognized effects on a variety of physiologic processes, including those relating to glucose homeostasis. Indeed, vitamin D insufficiency has been linked with type 2 diabetes (T2DM). In this review, the potential association between vitamin D and T2DM will be evaluated from both a pathophysiologic and clinical perspective. We consider the biologic evidence in support of a mechanistic contribution of vitamin D insufficiency to insulin resistance and beta-cell dysfunction, the two main pathophysiologic defects underlying T2DM. We also evaluate the clinical data linking vitamin D with these metabolic defects and dysglycemia. Finally, interventional studies addressing the effect of vitamin D supplementation on glucose homeostasis are considered. At present, this evolving literature is marked by many conflicting results and methodologic limitations, such that definitive conclusion on the role of vitamin D in T2DM remains elusive. Nevertheless, in light of the widespread prevalence of both vitamin D insufficiency and T2DM, this potential relationship could hold enormous public health implications and hence demands further study to address its unresolved questions.