The Association Between Arterial Stiffness and Muscle Indices Among Healthy Subjects and Subjects With Cardiovascular Risk Factors: An Evidence-Based Review.

Amilia Aminuddin,Muhammad Fakhrurrazi Noor Hashim,Beh Ching Chu,Nur Aina Syazana Mohd Zaberi,Nur Amalina Jamaludin,Nur Aishah Che Roos,Lee Zheng Wei,Norizam Salamt,Azizah Ugusman

doi:10.3389/fphys.2021.742338

Abstract

Skeletal muscle is one of the major tissues in the body and is important for performing daily physical activity. Previous studies suggest that vascular dysfunction contributes to reduced skeletal muscle mass. However, the association between vascular dysfunction and muscle mass, muscle strength and muscle flexibility are less established. Therefore, the focus of this review was to investigate the association between arterial stiffness (AS) which is a marker of vascular function, and muscle indices among healthy and those with cardiovascular risk factors. Three databases were used to search for relevant studies. These keywords were used: “arterial stiffness” OR “vascular stiffness” OR “aortic stiffness” OR “pulse wave velocity” OR “carotid femoral pulse wave velocity” OR “pulse wave analysis” AND “muscle” OR “skeletal” OR “flexibility” OR “range of motion” OR “articular” OR “arthrometry” OR “strength” OR “hand strength” OR “pinch strength” OR “mass” OR “lean” OR “body composition.” The criteria were; (1) original, full-text articles, (2) articles written in English language, (3) human studies involving healthy adults and/or adults with cardiovascular disease (CVD) or CVD risk factors (4) articles that reported the relationship between AS (measured as carotid-femoral pulse wave velocity or brachial-ankle pulse wave velocity) and muscle indices (measured as muscle mass, muscle flexibility and muscle strength) after adjusting for relevant confounders. The search identified 2295 articles published between 1971 and June 2021. Only 17 articles fulfilled the criteria. Two studies showed an inverse association between AS and muscle strength in healthy subjects, whereas in subjects with CVD risk factors, five out of seven studies found an inverse correlation between the two parameters. Eleven studies showed an inverse association between AS and muscle mass in subjects with CVD and CVD risk factors. The association between AS and muscle flexibility was not studied in any of the articles reviewed. In conclusion, there is an inverse correlation between muscle indices and AS in healthy adults and those with CVD or CVD risk factors. However, most of the studies were cross-sectional studies, hence the need for future prospective studies to address this issue.

Highlights

Skeletal muscle comprises about 40% of the body weight and is important for performing daily physical activity (Sherwood, 2008)
The criteria used were (1) original, full-text articles, (2) articles written in English language, (3) human studies involving healthy adults and/or adults with established CVD or CVD risk factors (4) articles that reported the relationship between arterial stiffness (AS) and muscle indices after adjusting for relevant covariates or confounders
The strength of this study is that we focused on the established markers of PWV which are carotid-femoral pulse wave velocity (cfPWV) and brachial-ankle PWV (baPWV)

Summary

Introduction

Skeletal muscle comprises about 40% of the body weight and is important for performing daily physical activity (Sherwood, 2008). Muscle receives about 15% of cardiac output at rest, and the need for blood supply increases during exercise (Sherwood, 2008). A good blood supply is important for muscle to function efficiently. The role of vascular function in the development of muscle mass was addressed in a recent study by Jeon et al (2021). It was observed that poor vascular function may impair oxygen and nutrient delivery to the muscles, causing impairment of muscle protein synthesis and alteration in mitochondrial function (Groen et al, 2014; Jeon et al, 2021)

Objectives

Methods

Results

Discussion

Conclusion