Size or Strength? how components of muscle relate to behavioral and neuroelectric measures of executive function independent of aerobic fitness

•Strength and mass are related to executive functions independent of aerobic fitness.•Strength predicted P3 latency during working memory independent of muscle mass.•Muscle mass predicted N2 latency during inhibitory control independent of strength. While previous research has linked cognitive funct...

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Veröffentlicht in:	Brain and cognition 2024-03, Vol.175, p.106139-106139, Article 106139
Hauptverfasser:	Baumgartner, Nicholas W., Kao, Shih-Chun
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Sprache:	eng
Schlagworte:	Adult Cognition - physiology Event-Related Potentials (ERPs) Evoked Potentials - physiology Executive Function - physiology Exercise - physiology Humans Inhibitory Control Muscle Mass Muscle Strength Muscles Physical Fitness - physiology Physical Fitness - psychology Processing Speed Reaction Time - physiology Working Memory
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description	•Strength and mass are related to executive functions independent of aerobic fitness.•Strength predicted P3 latency during working memory independent of muscle mass.•Muscle mass predicted N2 latency during inhibitory control independent of strength. While previous research has linked cognitive function with resistance exercise, the nuanced links between muscle strength, mass, and neuroelectric function are less understood. Therefore, this study investigated the association of muscle strength and mass with inhibitory control (IC), working memory (WM), and related neuroelectric activity. A total of 123 18–50-year-old adults completed maximal aerobic capacity and strength tests, a body composition scan, and IC and WM tasks while the N2 and P3 components of event-related potentials were recorded. Bivariate correlations revealed aerobic fitness, strength, and mass were associated with behavioral and neuroelectric outcomes. After accounting for age, sex, and aerobic fitness, strength was associated with intra-individual response time variability, accuracy, and P3 latency during WM. Muscle mass was associated with N2 latency during IC. While relationships with behavioral outcomes did not persist after controlling for the opposite muscle outcome, greater strength and mass were related to shorter P3 latency during WM and shorter N2 latency during IC, respectively. These results provide initial evidence that muscle outcomes are associated with executive function and neuroelectric processing speed, suggesting distinct contributions of strength and mass to cognition. This work highlights the significance of maintaining muscle strength and mass alongside aerobic fitness for optimal cognitive health.
doi_str_mv	10.1016/j.bandc.2024.106139
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While previous research has linked cognitive function with resistance exercise, the nuanced links between muscle strength, mass, and neuroelectric function are less understood. Therefore, this study investigated the association of muscle strength and mass with inhibitory control (IC), working memory (WM), and related neuroelectric activity. A total of 123 18–50-year-old adults completed maximal aerobic capacity and strength tests, a body composition scan, and IC and WM tasks while the N2 and P3 components of event-related potentials were recorded. Bivariate correlations revealed aerobic fitness, strength, and mass were associated with behavioral and neuroelectric outcomes. After accounting for age, sex, and aerobic fitness, strength was associated with intra-individual response time variability, accuracy, and P3 latency during WM. Muscle mass was associated with N2 latency during IC. While relationships with behavioral outcomes did not persist after controlling for the opposite muscle outcome, greater strength and mass were related to shorter P3 latency during WM and shorter N2 latency during IC, respectively. These results provide initial evidence that muscle outcomes are associated with executive function and neuroelectric processing speed, suggesting distinct contributions of strength and mass to cognition. 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While previous research has linked cognitive function with resistance exercise, the nuanced links between muscle strength, mass, and neuroelectric function are less understood. Therefore, this study investigated the association of muscle strength and mass with inhibitory control (IC), working memory (WM), and related neuroelectric activity. A total of 123 18–50-year-old adults completed maximal aerobic capacity and strength tests, a body composition scan, and IC and WM tasks while the N2 and P3 components of event-related potentials were recorded. Bivariate correlations revealed aerobic fitness, strength, and mass were associated with behavioral and neuroelectric outcomes. After accounting for age, sex, and aerobic fitness, strength was associated with intra-individual response time variability, accuracy, and P3 latency during WM. Muscle mass was associated with N2 latency during IC. While relationships with behavioral outcomes did not persist after controlling for the opposite muscle outcome, greater strength and mass were related to shorter P3 latency during WM and shorter N2 latency during IC, respectively. These results provide initial evidence that muscle outcomes are associated with executive function and neuroelectric processing speed, suggesting distinct contributions of strength and mass to cognition. 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subjects	Adult Cognition - physiology Event-Related Potentials (ERPs) Evoked Potentials - physiology Executive Function - physiology Exercise - physiology Humans Inhibitory Control Muscle Mass Muscle Strength Muscles Physical Fitness - physiology Physical Fitness - psychology Processing Speed Reaction Time - physiology Working Memory
title	Size or Strength? how components of muscle relate to behavioral and neuroelectric measures of executive function independent of aerobic fitness
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