Abstract

The aim of the study was to describe and correlate the skin, subcutaneous tissue, and superficial fascia thickness assessed by ultrasonography (US) with the lumbar erector spinae muscles contractile properties evaluated by tensiomyography (TMG). A cross-sectional descriptive study with 50 healthy participants was performed. The point of maximum lordosis in the lumbar region of the right erector spinae was evaluated by US and TMG. First, the skin, subcutaneous tissue, and superficial fascia thicknesses (cm) were assessed by US. Second, the five contractile TMG parameters were analyzed from the right erector spinae muscles belly displacement-time curves: maximal radial displacement (Dm), contraction time (Tc), sustain time (Ts), delay time (Td), and half-relaxation time (Tr). Finally, correlation analyses using Pearson (r for parametric data) and Spearman (rs for non-parametric data) coefficients were performed. A strong negative correlation was shown between Dm and subcutaneous tissue thickness (rs=-0.668; P<.001). Furthermore, moderate negative correlations were observed between Dm and skin thickness (r=-0.329; P=0.020) as well as Tr and subcutaneous tissue thickness (rs=-0.369; P=0.008). The rest of the parameters did not show statistically significant correlations (P >.05). Therefore, the lumbar erector spinae contractile properties during TMG assessments, especially Dm and Tr, may be widely correlated by the skin and subcutaneous tissue thickness.

Highlights

  • The structural properties, such as deformation, thickness and hardness, of the skin, subcutaneous tissue, and superficial fascia may influence the sensory system.[1]

  • Skin and subcutaneous tissue ultrasonography (US) features may be altered by postural changes in healthy subjects and different patient conditions, such as lymphedema.[1,2]

  • The aim of this study was to describe and correlate the skin, subcutaneous tissue, and superficial fascia thickness assessed by US in the erector spinae muscles contractile properties evaluated by TMG

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Summary

Introduction

The structural properties, such as deformation, thickness and hardness, of the skin, subcutaneous tissue, and superficial fascia may influence the sensory system.[1]. Tensiomyography (TMG) appears as a new technological device for evaluating the contractile properties of skeletal muscles and has recently been applied to assess musculoskeletal conditions in the lumbar erector spinae muscles.[3] skin thickness distributions, as well as the local hypodermal/subcutaneous fat, and fascia distributions may REV ASSOC MED BRAS 2018; 64(6):[549-553]. RELATIONSHIP OF THE SKIN AND SUBCUTANEOUS TISSUE THICKNESS IN THE TENSIOMYOGRAPHY RESPONSE: A NOVEL ULTRASOUND OBSERVATIONAL STUDY disturb the trunk dorsum sensitivity and should be investigated through future work.[1]. The aim of this study was to describe and correlate the skin, subcutaneous tissue, and superficial fascia thickness assessed by US in the erector spinae muscles contractile properties evaluated by TMG

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