Eicosapentaenoic acid and branched-chain amino acids fortified complete nutrition drink improved muscle strength in older individuals with inadequate protein intake

Khoonin, Watcharapol; Shantavasinkul, Prapimporn Chattranukulchai; Santivarangkna, Chalat; Praengam, Kemika; Trachootham, Dunyaporn

doi:10.3389/fnut.2023.1164469

Front. Nutr.

2023

DOI: 10.3389/fnut.2023.1164469

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Eicosapentaenoic acid and branched-chain amino acids fortified complete nutrition drink improved muscle strength in older individuals with inadequate protein intake

Watcharapol Khoonin

Prapimporn Chattranukulchai Shantavasinkul

Chalat Santivarangkna

et al.

Abstract: BackgroundElevated inflammation and negative nutritional balance contribute to sarcopenia, a progressive loss of muscle mass, strength, and function. This study investigated the effect of energy supplementation and the combination of anti-inflammatory factor (eicosapentaenoic acid; EPA) and muscle-synthesis promotor (branched-chain amino acids; BCAA) on body composition, muscle, and inflammatory biomarkers in elderly with inadequate protein intake.MethodsA randomized blinded placebo-controlled trial was conduc… Show more

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2024

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Changes in lean body mass with glucagon‐like peptide‐1‐based therapies and mitigation strategies

Neeland,

Linge,

Birkenfeld

2024

Diabetes Obesity Metabolism

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Weight loss induced by glucagon‐like peptide‐1 receptor agonists (GLP‐1RAs) and dual glucagon‐like peptide‐1 receptor (GLP‐1R)/glucose‐dependent insulinotropic polypeptide receptor agonists is coming closer to the magnitudes achieved with surgery. However, with greater weight loss there is concern about potential side effects on muscle quantity (mass), health and function. There is heterogeneity in the reported effects of GLP‐1‐based therapies on lean mass changes in clinical trials: in some studies, reductions in lean mass range between 40% and 60% as a proportion of total weight lost, while other studies show lean mass reductions of approximately 15% or less of total weight lost. There are several potential reasons underlying this heterogeneity, including population, drug‐specific/molecular, and comorbidity effects. Furthermore, changes in lean mass may not always reflect changes in muscle mass as the former measure includes not only muscle but also organs, bone, fluids, and water in fat tissue. Based on contemporary evidence with the addition of magnetic resonance imaging‐based studies, skeletal muscle changes with GLP‐1RA treatments appear to be adaptive: reductions in muscle volume seem to be commensurate with what is expected given ageing, disease status, and weight loss achieved, and the improvement in insulin sensitivity and muscle fat infiltration likely contributes to an adaptive process with improved muscle quality, lowering the probability for loss in strength and function. Nevertheless, factors such as older age and severity of disease may influence the selection of appropriate candidates for these therapies due to risk of sarcopenia. To further improve muscle health during weight loss, several pharmacological treatments to maintain or improve muscle mass designed in combination with GLP‐1‐based therapies are under development. Future research on GLP‐1‐based and other therapies designed for weight loss should focus on more accurate and meaningful assessments of muscle mass, composition, as well as function, mobility or strength, to better define their impact on muscle health for the substantial number of patients who will likely be taking these medications well into the future.

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Changes in lean body mass with glucagon‐like peptide‐1‐based therapies and mitigation strategies

Neeland,

Linge,

Birkenfeld

2024

Diabetes Obesity Metabolism

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show abstract

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Eicosapentaenoic acid and branched-chain amino acids fortified complete nutrition drink improved muscle strength in older individuals with inadequate protein intake

Cited by 1 publication

References 51 publications

Changes in lean body mass with glucagon‐like peptide‐1‐based therapies and mitigation strategies

Changes in lean body mass with glucagon‐like peptide‐1‐based therapies and mitigation strategies

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