Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study

Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study

The aim of this study was to perform a reliability and agreement analysis and to compare lateral abdominal muscles (LAMs) thickness and elasticity results obtained by an experienced operator, by a non-experienced operator, and in an ultrasound imaging probe compression controlled (PCC) condition wit...

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Main Authors: Grzegorz Mikołajowski, Małgorzata Pałac, Tomasz Wolny, Paweł Linek
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Sensors
Subjects:
elasticity
ultrasound imaging
adolescence
abdominal muscles
reliability
validity
Online Access:https://www.mdpi.com/1424-8220/21/12/4036
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spelling doaj-f731d7dfbea04882a6c561cebfff6e862021-06-30T23:56:54ZengMDPI AGSensors1424-82202021-06-01214036403610.3390/s21124036Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability StudyGrzegorz Mikołajowski0Małgorzata Pałac1Tomasz Wolny2Paweł Linek3Musculoskeletal Elastography and Ultrasonography Laboratory, Institute of Physiotherapy and Health Sciences, The Jerzy Kukuczka Academy of Physical Education, 40-065 Katowice, PolandMusculoskeletal Elastography and Ultrasonography Laboratory, Institute of Physiotherapy and Health Sciences, The Jerzy Kukuczka Academy of Physical Education, 40-065 Katowice, PolandMusculoskeletal Elastography and Ultrasonography Laboratory, Institute of Physiotherapy and Health Sciences, The Jerzy Kukuczka Academy of Physical Education, 40-065 Katowice, PolandMusculoskeletal Elastography and Ultrasonography Laboratory, Institute of Physiotherapy and Health Sciences, The Jerzy Kukuczka Academy of Physical Education, 40-065 Katowice, PolandThe aim of this study was to perform a reliability and agreement analysis and to compare lateral abdominal muscles (LAMs) thickness and elasticity results obtained by an experienced operator, by a non-experienced operator, and in an ultrasound imaging probe compression controlled (PCC) condition with minimal force necessary to obtain a proper ultrasound image. The sample consisted of 39 adolescents. An Aixplorer ultrasound scanner was used to evaluate the LAM. The probe in PCC condition was positioned in a prepared probe holder coupled with a pressure sensor. The LAM thickness and elasticity measurements were significantly (<i>p</i> < 0.05) different in the ultrasound PCC condition, compared to results obtained by both examiners. The abdominal oblique external and internal muscle thickness measurements were underestimated and all LAM shear moduli were overestimated during measurements without controlling the probe compression by an external sensor. The intra-class correlation coefficient was excellent in all conditions, but the smallest detectable differences were approximately 43–60% lower during the measurements collected in PCC condition. Differences in LAM measurements between PCC and ‘on-hand’ conditions may be clinically irrelevant when the force applied by the probe is consciously controlled by the examiner. However, during ultrasound measurements of the LAM morphology, the potential under/over estimation should always be considered when measurements are performed without controlling probe compression by an external sensor.https://www.mdpi.com/1424-8220/21/12/4036elasticityultrasound imagingadolescenceabdominal musclesreliabilityvalidity
collection DOAJ
language English
format Article
sources DOAJ
author Grzegorz Mikołajowski
Małgorzata Pałac
Tomasz Wolny
Paweł Linek
spellingShingle Grzegorz Mikołajowski
Małgorzata Pałac
Tomasz Wolny
Paweł Linek
Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study
Sensors
elasticity
ultrasound imaging
adolescence
abdominal muscles
reliability
validity
author_facet Grzegorz Mikołajowski
Małgorzata Pałac
Tomasz Wolny
Paweł Linek
author_sort Grzegorz Mikołajowski
title Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study
title_short Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study
title_full Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study
title_fullStr Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study
title_full_unstemmed Lateral Abdominal Muscles Shear Modulus and Thickness Measurements under Controlled Ultrasound Probe Compression by External Force Sensor: A Comparison and Reliability Study
title_sort lateral abdominal muscles shear modulus and thickness measurements under controlled ultrasound probe compression by external force sensor: a comparison and reliability study
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2021-06-01
description The aim of this study was to perform a reliability and agreement analysis and to compare lateral abdominal muscles (LAMs) thickness and elasticity results obtained by an experienced operator, by a non-experienced operator, and in an ultrasound imaging probe compression controlled (PCC) condition with minimal force necessary to obtain a proper ultrasound image. The sample consisted of 39 adolescents. An Aixplorer ultrasound scanner was used to evaluate the LAM. The probe in PCC condition was positioned in a prepared probe holder coupled with a pressure sensor. The LAM thickness and elasticity measurements were significantly (<i>p</i> < 0.05) different in the ultrasound PCC condition, compared to results obtained by both examiners. The abdominal oblique external and internal muscle thickness measurements were underestimated and all LAM shear moduli were overestimated during measurements without controlling the probe compression by an external sensor. The intra-class correlation coefficient was excellent in all conditions, but the smallest detectable differences were approximately 43–60% lower during the measurements collected in PCC condition. Differences in LAM measurements between PCC and ‘on-hand’ conditions may be clinically irrelevant when the force applied by the probe is consciously controlled by the examiner. However, during ultrasound measurements of the LAM morphology, the potential under/over estimation should always be considered when measurements are performed without controlling probe compression by an external sensor.
topic elasticity
ultrasound imaging
adolescence
abdominal muscles
reliability
validity
url https://www.mdpi.com/1424-8220/21/12/4036
work_keys_str_mv AT grzegorzmikołajowski lateralabdominalmusclesshearmodulusandthicknessmeasurementsundercontrolledultrasoundprobecompressionbyexternalforcesensoracomparisonandreliabilitystudy
AT małgorzatapałac lateralabdominalmusclesshearmodulusandthicknessmeasurementsundercontrolledultrasoundprobecompressionbyexternalforcesensoracomparisonandreliabilitystudy
AT tomaszwolny lateralabdominalmusclesshearmodulusandthicknessmeasurementsundercontrolledultrasoundprobecompressionbyexternalforcesensoracomparisonandreliabilitystudy
AT pawełlinek lateralabdominalmusclesshearmodulusandthicknessmeasurementsundercontrolledultrasoundprobecompressionbyexternalforcesensoracomparisonandreliabilitystudy
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