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Effects of vitamin D in skeletal muscle: falls, strength, athletic performance and insulin sensitivity.

Clinical endocrinology
February 1, 2014
Christian M Girgis et al. (5 authors)
Journal ArticleReviewHuman Study
Study Details

Study Goal

The researchers aimed to evaluate the roles of vitamin D and associated minerals, including calcium, in muscle function and metabolic processes.

Results Summary

The study found that vitamin D and calcium play roles in muscle function, with observational studies linking deficiencies to muscle weakness and sarcopenia, and trials supporting supplementation for fall prevention in older populations. Mechanistic studies identified pathways by which vitamin D and calcium regulate muscle cell signaling and gene expression.

Population

Older or institutionalized patients, athletes, and general populations in observational and clinical studies.

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (14)
InterventionDirectionEndpointPopulationDosageImpactClaim #
vitamin D
neutral
physiological functions
-
-
exert extra-skeletal actions
#1
vitamin D deficiency
neutral
muscle weakness
-
-
link with
#2
vitamin D deficiency
neutral
sarcopaenia
-
-
link with
#3
vitamin D supplementation
decrease
prevention of falls
older or institutionalized patients
-
support an effect of
#4
vitamin D
neutral
athletic performance
-
-
examined the effect of
#5
UV radiation
neutral
athletic performance
-
-
examined the effect inferentially
#6
vitamin D supplementation
neutral
athletic performance
-
-
examined the effect directly
#7
vitamin D
neutral
muscle metabolic function
-
-
addressed
#8
vitamin D
neutral
insulin sensitivity
-
-
addressed
#9
vitamin D
neutral
muscle function
animal studies
-
evaluated the roles of
#10
calcium
neutral
muscle function
animal studies
-
evaluated the roles of
#11
phosphate
neutral
muscle function
animal studies
-
evaluated the roles of
#12
vitamin D
neutral
muscle cell signalling
in vitro studies
-
regulates
#13
vitamin D
neutral
gene expression
in vitro studies
-
regulates
#14
Abstract

Accompanying the high rates of vitamin D deficiency observed in many countries, there is increasing interest in the physiological functions of vitamin D. Vitamin D is recognized to exert extra-skeletal actions in addition to its classic roles in bone and mineral homeostasis. Here, we review the evidence for vitamin D's actions in muscle on the basis of observational studies, clinical trials and basic research. Numerous observational studies link vitamin D deficiency with muscle weakness and sarcopaenia. Randomized trials predominantly support an effect of vitamin D supplementation and the prevention of falls in older or institutionalized patients. Studies have also examined the effect of vitamin D in athletic performance, both inferentially by UV radiation and directly by vitamin D supplementation. Effects of vitamin D in muscle metabolic function, specifically insulin sensitivity, are also addressed in this review. At a mechanistic level, animal studies have evaluated the roles of vitamin D and associated minerals, calcium and phosphate, in muscle function. In vitro studies have identified molecular pathways by which vitamin D regulates muscle cell signalling and gene expression. This review evaluates evidence for the various roles of vitamin D in skeletal muscle and discusses controversies that have made this a dynamic field of research.

Medical Subject Headings (MeSH)
Accidental FallsAthletic PerformanceHumansInsulin ResistanceMuscle StrengthMuscle, SkeletalPolymorphism, GeneticReceptors, CalcitriolVitamin DVitamins
Study Links
Quality Scores
SafetyNot Assessed
Efficacy75/10
Quality85/10
Citation Metrics
Total Citations82
Citations/Year7.5
Relative Citation Ratio3.52
NIH Percentile88.1%
Research Impact Scores
APT Score0.95
Weight Score1.87
Normalized Score0.67
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