Is musculoskeletal pain associated with increased muscle stiffness? ‐ Evidence map and critical appraisal of muscle measurements using Shear Wave Elastography

Summary Introduction and aims Approximately 21% of the world's population suffers from musculoskeletal conditions, often associated with sensations of stiff muscles. Targeted therapy requires knowing whether typically involved muscles are objectively stiffer compared to asymptomatic individuals. Muscle stiffness is quantified using ultrasound shear wave elastography (SWE). Publications on SWE‐based comparisons of muscle stiffness between individuals with and without musculoskeletal pain are increasing rapidly. This work reviewed and mapped the existing evidence regarding objectively measured muscle stiffness in musculoskeletal pain conditions, and surveyed current methods of applying SWE to measure muscle stiffness. Methods A systematic search was conducted in PubMed and CINAHL using the keywords “muscle stiffness”, “shear wave elastography”, “pain”, “asymptomatic controls”, and synonyms. The search was supplemented by a hand search using Google Scholar. Included articles were critically appraised with the AXIS tool, supplemented by items related to SWE methods. Results were visually mapped and narratively described. Results Thirty of 137 identified articles were included. High‐quality evidence was missing. The results comprise studies reporting lower stiffness in symptomatic participants, no differences between groups, and higher stiffness in symptomatic individuals. Results differed between pain conditions and muscles, and also between studies that examined the same muscle(s) and pathology. The methods of the application of SWE were inconsistent and the reporting was often incomplete. Conclusions Existing evidence regarding the objective stiffness of muscles in musculoskeletal pain conditions is conflicting. Methodological differences may explain most of the inconsistencies between findings. Methodological standards for SWE measurements of muscles are urgently required. This article is protected by copyright. All rights reserved.