Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI

Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI

Abstract Background Chronic kidney disease (CKD) is a catabolic condition associated with muscle wasting and dysfunction, which associates with morbidity and mortality. There is a need for simple techniques capable of monitoring changes in muscle size with disease progression and in response to inte...

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Main Authors: Douglas W. Gould, Emma L. Watson, Thomas J. Wilkinson, Joanne Wormleighton, Soteris Xenophontos, Joao L. Viana, Alice C. Smith
Format: Article
Language:English
Published: Wiley 2019-08-01
Series:Journal of Cachexia, Sarcopenia and Muscle
Subjects:
Muscle wasting
Ultrasound
MRI
Measurement
Chronic kidney disease
Online Access:https://doi.org/10.1002/jcsm.12429
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spelling doaj-7ca4d8c709414e5687d6ff0da0a28c382020-11-25T02:03:14ZengWileyJournal of Cachexia, Sarcopenia and Muscle2190-59912190-60092019-08-0110474875510.1002/jcsm.12429Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRIDouglas W. Gould0Emma L. Watson1Thomas J. Wilkinson2Joanne Wormleighton3Soteris Xenophontos4Joao L. Viana5Alice C. Smith6Department of Health Sciences University of Leicester Leicester UKDepartment of Cardiovascular Sciences University of Leicester Leicester UKDepartment of Health Sciences University of Leicester Leicester UKDepartment of Imaging Glenfield Hospital Leicester UKDepartment of Respiratory Sciences University of Leicester Leicester UKResearch Center in Sports Sciences, Health Sciences and Human Development CIDESD, University Institute of Maia ISMAI Maia PortugalDepartment of Health Sciences University of Leicester Leicester UKAbstract Background Chronic kidney disease (CKD) is a catabolic condition associated with muscle wasting and dysfunction, which associates with morbidity and mortality. There is a need for simple techniques capable of monitoring changes in muscle size with disease progression and in response to interventions aiming to increase muscle mass and function. Ultrasound is one such technique; however, it is unknown how well changes in muscle cross‐sectional area (CSA) measured using ultrasound relate to changes in whole muscle volume measured using magnetic resonance imaging. We tested whether rectus femoris CSA (RF‐CSA) could be used as a valid indication of changes in quadriceps muscle volume as a single measure of muscle size and following a 12 week exercise intervention that resulted in muscle hypertrophy. Methods Secondary analysis of data was collected from the ExTra CKD study (ISRCTN 36489137). Quadriceps muscle size was assessed from 36 patients with non‐dialysis CKD before and after 12 weeks of supervised exercise that resulted in muscle hypertrophy. Results Strong positive correlations were observed between RF‐CSA and quadriceps volume at baseline (r2 = 0.815, CI 0.661 to 0.903; P < 0.001) and following 12 week exercise (r2 = 0.845, CI 0.700 to 0.923; P < 0.001). A moderate positive association was also observed between changes in RF‐CSA and quadriceps following exercise training (rho = 0.441, CI 0.085 to 0.697; P = 0.015). Bland–Altman analysis revealed a small bias (bias 0.6% ± 12.5) between the mean percentage changes in RF‐CSA and quadriceps volume but wide limits of agreement from −24 to 25. Conclusions Rectus femoris CSA appears to be a reliable index of total quadriceps volume as a simple measure of muscle size, both as a single observation and in response to exercise training in non‐dialysis CKD patients.https://doi.org/10.1002/jcsm.12429Muscle wastingUltrasoundMRIMeasurementChronic kidney disease
collection DOAJ
language English
format Article
sources DOAJ
author Douglas W. Gould
Emma L. Watson
Thomas J. Wilkinson
Joanne Wormleighton
Soteris Xenophontos
Joao L. Viana
Alice C. Smith
spellingShingle Douglas W. Gould
Emma L. Watson
Thomas J. Wilkinson
Joanne Wormleighton
Soteris Xenophontos
Joao L. Viana
Alice C. Smith
Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI
Journal of Cachexia, Sarcopenia and Muscle
Muscle wasting
Ultrasound
MRI
Measurement
Chronic kidney disease
author_facet Douglas W. Gould
Emma L. Watson
Thomas J. Wilkinson
Joanne Wormleighton
Soteris Xenophontos
Joao L. Viana
Alice C. Smith
author_sort Douglas W. Gould
title Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI
title_short Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI
title_full Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI
title_fullStr Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI
title_full_unstemmed Ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with MRI
title_sort ultrasound assessment of muscle mass in response to exercise training in chronic kidney disease: a comparison with mri
publisher Wiley
series Journal of Cachexia, Sarcopenia and Muscle
issn 2190-5991
2190-6009
publishDate 2019-08-01
description Abstract Background Chronic kidney disease (CKD) is a catabolic condition associated with muscle wasting and dysfunction, which associates with morbidity and mortality. There is a need for simple techniques capable of monitoring changes in muscle size with disease progression and in response to interventions aiming to increase muscle mass and function. Ultrasound is one such technique; however, it is unknown how well changes in muscle cross‐sectional area (CSA) measured using ultrasound relate to changes in whole muscle volume measured using magnetic resonance imaging. We tested whether rectus femoris CSA (RF‐CSA) could be used as a valid indication of changes in quadriceps muscle volume as a single measure of muscle size and following a 12 week exercise intervention that resulted in muscle hypertrophy. Methods Secondary analysis of data was collected from the ExTra CKD study (ISRCTN 36489137). Quadriceps muscle size was assessed from 36 patients with non‐dialysis CKD before and after 12 weeks of supervised exercise that resulted in muscle hypertrophy. Results Strong positive correlations were observed between RF‐CSA and quadriceps volume at baseline (r2 = 0.815, CI 0.661 to 0.903; P < 0.001) and following 12 week exercise (r2 = 0.845, CI 0.700 to 0.923; P < 0.001). A moderate positive association was also observed between changes in RF‐CSA and quadriceps following exercise training (rho = 0.441, CI 0.085 to 0.697; P = 0.015). Bland–Altman analysis revealed a small bias (bias 0.6% ± 12.5) between the mean percentage changes in RF‐CSA and quadriceps volume but wide limits of agreement from −24 to 25. Conclusions Rectus femoris CSA appears to be a reliable index of total quadriceps volume as a simple measure of muscle size, both as a single observation and in response to exercise training in non‐dialysis CKD patients.
topic Muscle wasting
Ultrasound
MRI
Measurement
Chronic kidney disease
url https://doi.org/10.1002/jcsm.12429
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