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Nutritional strategies for maintaining muscle mass and strength from middle age to later life: A narrative review.

Maturitas
February 1, 2020
Alfonso J Cruz-Jentoft et al. (5 authors)
Journal ArticleReviewHuman Study
Study Details

Study Goal

The researchers aimed to evaluate the role of dairy and other nutritional interventions in maintaining muscle mass and strength, particularly from midlife through old age.

Results Summary

The study found that dairy products, containing bioactive compounds like protein and leucine, can enhance muscle protein synthesis, especially when combined with resistance exercise. However, effects independent of exercise were not consistently demonstrated.

Population

Midlife through old age individuals, particularly those at risk of sarcopenia.

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (10)
InterventionDirectionEndpointPopulationDosageImpactClaim #
Protein and amino acid (particularly leucine) intake
increase
maintaining muscle mass and strength
those not meeting recommended intakes
-
should be considered, and supplementation may be warranted
#1
vitamin D
increase
muscle strength
-
-
benefits
#2
milk and other dairy products containing different bioactive compounds (i.e. protein, leucine)
increase
muscle protein synthesis
-
-
can enhance
#3
Omega-3
increase
muscle mass and strength
-
-
can improve
#4
Low-dose antioxidants (e.g. vitamins C and E)
increase
muscle tissue from oxidative damage
-
-
can protect
#5
Magnesium
increase
muscle strength
-
-
benefits
#6
Acidogenic diets
increase
muscle protein breakdown
-
-
increase
#7
Alkalizing compounds (e.g. bicarbonates)
increase
muscle strength
-
-
can promote
#8
dietary and supplemental interventions
increase
muscle mass and strength
-
-
may add to the benefits
#9
dietary and supplemental interventions
no change
muscle mass and strength
-
-
effects independent of exercise have not been consistently shown
#10
Abstract

Progressive age-related reductions in muscle mass and strength (sarcopenia) can cause substantial morbidity. This narrative review summarizes evidence of nutritional interventions for maintaining muscle mass and strength from midlife through old age. PubMed and Cochrane databases were searched to identify studies of dietary intake and nutritional interventions for sustaining muscle mass and strength. The benefits of progressive resistance training with and without dietary interventions are well documented. Protein and amino acid (particularly leucine) intake should be considered, and supplementation may be warranted for those not meeting recommended intakes. Vitamin D receptors are expressed in muscle tissue; meta-analyses have shown that vitamin D benefits muscle strength. Data suggest that milk and other dairy products containing different bioactive compounds (i.e. protein, leucine) can enhance muscle protein synthesis, particularly when combined with resistance exercise. Omega-3 s can improve muscle mass and strength by mediating cell signaling and inflammation-related oxidative damage; no studies were specifically conducted in sarcopenia. Low-dose antioxidants (e.g. vitamins C and E) can protect muscle tissue from oxidative damage, but relevant studies are limited. Magnesium is involved with muscle contraction processes, and data have shown benefits to muscle strength. Acidogenic diets increase muscle protein breakdown, which is exacerbated by aging. Alkalizing compounds (e.g. bicarbonates) can promote muscle strength. Small studies of probiotics and plant extracts have generated interest, but few large studies have been conducted. Based on available data, dietary and supplemental interventions may add to the benefits of exercise on muscle mass and strength; effects independent of exercise have not been consistently shown.

Medical Subject Headings (MeSH)
AgedAmino AcidsAntioxidantsDietDietary ProteinsDietary SupplementsFatty Acids, Omega-3HumansMiddle AgedMuscle ProteinsMuscle StrengthMuscle, SkeletalPhytochemicalsProbioticsSarcopeniaVitamin D
Study Links
Quality Scores
SafetyNot Assessed
Efficacy75/10
Quality80/10
Citation Metrics
Total Citations81
Citations/Year16.2
Relative Citation Ratio6.56
NIH Percentile95.5%
Research Impact Scores
APT Score0.95
Weight Score2.68
Normalized Score0.66
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