Vitamin D in dementia prevention.
Study Goal
The researchers aimed to explore the neurological role of vitamin D, including its regulation of calcium homeostasis and potential protective effects against cognitive decline and Alzheimer's disease.
Results Summary
The study found associations between lower vitamin D levels and cognitive decline, particularly executive dysfunction, and suggested that maintaining sufficient vitamin D levels may slow or prevent neurocognitive decline. Some nonrandomized studies reported cognitive improvements after 1-15 months of vitamin D supplementation.
Population
Older adults, with implications for dementia and Alzheimer's disease.
Effective Dosage
Not specified
Duration
1-15 months (varied across studies)
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
vitamin D | neutral | brain | - | - | exerts effects on | #1 |
vitamin D | neutral | calcium homeostasis | - | - | regulation of | #2 |
vitamin D | neutral | amyloid-β peptide | - | - | clearance of | #3 |
vitamin D | decrease | inflammation | - | - | anti-inflammatory effects | #4 |
vitamin D | neutral | neurodegenerative mechanisms associated with Alzheimer's disease (AD) | - | - | protection against | #5 |
correction of age-related hypovitaminosis D | neutral | cognitive decline | - | - | has been reported | #6 |
lower vitamin D concentrations | neutral | brain changes | - | - | associations with | #7 |
lower vitamin D concentrations | decrease | poorer cognition | - | - | associations with | #8 |
inadequate dietary intake of vitamin D | neutral | cognitive disorders | - | - | association with | #9 |
inadequate dietary intake of vitamin D | increase | greater AD risk | - | - | association with | #10 |
vitamin D supplementation | increase | cognition | older adults | 1-15 months | experienced cognitive improvements after | #11 |
maintain vitamin D concentrations at sufficiently high levels | decrease | neurocognitive decline | - | - | slow, prevent, or improve | #12 |
Beyond effects on bone health, vitamin D exerts effects on a variety of target organs, including the brain. The discussion herein presents the state of the art in research on the neurological role of vitamin D and clinical implications among older adults, including implications for dementia onset and progression. Some of the neurosteroid actions of vitamin D include regulation of calcium homeostasis, clearance of amyloid-β peptide, antioxidant and anti-inflammatory effects, and possible protection against the neurodegenerative mechanisms associated with Alzheimer's disease (AD). The correction of age-related hypovitaminosis D and cognitive decline has been reported by various cross-sectional and longitudinal studies reporting associations of lower vitamin D concentrations with brain changes and poorer cognition, specifically with respect to executive dysfunction. Epidemiological studies have consistently shown an association between inadequate dietary intake of vitamin D and cognitive disorders, including greater AD risk. Although there have not been any randomized placebo-controlled trials conducted to examine the effectiveness of vitamin D supplementation to prevent AD, several nonrandomized controlled studies have found that older adults experienced cognitive improvements after 1-15 months of vitamin D supplementation. Therefore, it appears crucial to maintain vitamin D concentrations at sufficiently high levels in order to slow, prevent, or improve neurocognitive decline.