Skeletal muscle estimation using magnetic-resonance-imaging-based equations for dual-energy X-ray absorptiometry and bioelectrical impedance analysis

Background/Objectives Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectr...

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Published in	European journal of clinical nutrition Vol. 77; no. 12; pp. 1151 - 1159
Main Authors	Tinsley, Grant M., LaValle, Christian, Rodriguez, Christian, Siedler, Madelin R., Heymsfield, Steven B.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 01.12.2023 Nature Publishing Group
Subjects	59/57 692/700/1421 692/700/2814 Absorptiometry, Photon - methods Adolescent Adult Arm Bias Bioelectricity Body Composition Body measurements Clinical Nutrition Correlation coefficient Correlation coefficients Dual energy X-ray absorptiometry Electric Impedance Epidemiology Equivalence Humans Impedance Internal Medicine Magnetic Resonance Imaging Mathematical analysis Medicine Medicine & Public Health Metabolic Diseases Muscle, Skeletal - diagnostic imaging Muscle, Skeletal - physiology Muscles Musculoskeletal system Public Health Regression Skeletal muscle Statistical analysis Young Adult
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ISSN	0954-3007 1476-5640 1476-5640
DOI	10.1038/s41430-023-01331-6

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Abstract	Background/Objectives Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectrical impedance analysis (MFBIA), can use MRI-based equations to estimate SMM, although the agreement between these methods is unclear. Subjects/Methods Total and segmental SMM were estimated with DXA and MFBIA using MRI-based equations in 313 healthy adults (120 M, 193 F; age 30.2 ± 13.0 y; BMI 24.6 ± 4.0 kg/m 2 ). DXA total SMM was estimated using the Kim and McCarthy equations, and segmental SMM was estimated using the McCarthy equations. Relationships between DXA and MFBIA SMM were examined using Deming regression, Lin’s concordance correlation coefficient (CCC), equivalence testing, Bland-Altman analysis, and related tests. Results Strong linear relationships were observed for total (R 2 0.95, CCC 0.96–0.97), leg (R 2 0.90, CCC 0.85) and arm (R 2 0.93, CCC 0.93) SMM in the entire sample. Kim equation SMM demonstrated statistical equivalence with MFBIA for total SMM, but the Deming regression slope differed from 1 and proportional bias was present. McCarthy equation total SMM exhibited a regression slope that did not differ from 1, and no proportional bias was present in the entire sample. However, equivalence with MFBIA was not observed. Systematically higher leg and arm SMM values were observed with DXA as compared to MFBIA. Conclusions While DXA and MFBIA total SMM generally exhibited strong agreement, higher appendicular SMM by DXA highlights technical differences between methods.
AbstractList	Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectrical impedance analysis (MFBIA), can use MRI-based equations to estimate SMM, although the agreement between these methods is unclear.BACKGROUND/OBJECTIVESSkeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectrical impedance analysis (MFBIA), can use MRI-based equations to estimate SMM, although the agreement between these methods is unclear.Total and segmental SMM were estimated with DXA and MFBIA using MRI-based equations in 313 healthy adults (120 M, 193 F; age 30.2 ± 13.0 y; BMI 24.6 ± 4.0 kg/m2). DXA total SMM was estimated using the Kim and McCarthy equations, and segmental SMM was estimated using the McCarthy equations. Relationships between DXA and MFBIA SMM were examined using Deming regression, Lin's concordance correlation coefficient (CCC), equivalence testing, Bland-Altman analysis, and related tests.SUBJECTS/METHODSTotal and segmental SMM were estimated with DXA and MFBIA using MRI-based equations in 313 healthy adults (120 M, 193 F; age 30.2 ± 13.0 y; BMI 24.6 ± 4.0 kg/m2). DXA total SMM was estimated using the Kim and McCarthy equations, and segmental SMM was estimated using the McCarthy equations. Relationships between DXA and MFBIA SMM were examined using Deming regression, Lin's concordance correlation coefficient (CCC), equivalence testing, Bland-Altman analysis, and related tests.Strong linear relationships were observed for total (R2 0.95, CCC 0.96-0.97), leg (R2 0.90, CCC 0.85) and arm (R2 0.93, CCC 0.93) SMM in the entire sample. Kim equation SMM demonstrated statistical equivalence with MFBIA for total SMM, but the Deming regression slope differed from 1 and proportional bias was present. McCarthy equation total SMM exhibited a regression slope that did not differ from 1, and no proportional bias was present in the entire sample. However, equivalence with MFBIA was not observed. Systematically higher leg and arm SMM values were observed with DXA as compared to MFBIA.RESULTSStrong linear relationships were observed for total (R2 0.95, CCC 0.96-0.97), leg (R2 0.90, CCC 0.85) and arm (R2 0.93, CCC 0.93) SMM in the entire sample. Kim equation SMM demonstrated statistical equivalence with MFBIA for total SMM, but the Deming regression slope differed from 1 and proportional bias was present. McCarthy equation total SMM exhibited a regression slope that did not differ from 1, and no proportional bias was present in the entire sample. However, equivalence with MFBIA was not observed. Systematically higher leg and arm SMM values were observed with DXA as compared to MFBIA.While DXA and MFBIA total SMM generally exhibited strong agreement, higher appendicular SMM by DXA highlights technical differences between methods.CONCLUSIONSWhile DXA and MFBIA total SMM generally exhibited strong agreement, higher appendicular SMM by DXA highlights technical differences between methods. Background/ObjectivesSkeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectrical impedance analysis (MFBIA), can use MRI-based equations to estimate SMM, although the agreement between these methods is unclear.Subjects/MethodsTotal and segmental SMM were estimated with DXA and MFBIA using MRI-based equations in 313 healthy adults (120 M, 193 F; age 30.2 ± 13.0 y; BMI 24.6 ± 4.0 kg/m2). DXA total SMM was estimated using the Kim and McCarthy equations, and segmental SMM was estimated using the McCarthy equations. Relationships between DXA and MFBIA SMM were examined using Deming regression, Lin’s concordance correlation coefficient (CCC), equivalence testing, Bland-Altman analysis, and related tests.ResultsStrong linear relationships were observed for total (R2 0.95, CCC 0.96–0.97), leg (R2 0.90, CCC 0.85) and arm (R2 0.93, CCC 0.93) SMM in the entire sample. Kim equation SMM demonstrated statistical equivalence with MFBIA for total SMM, but the Deming regression slope differed from 1 and proportional bias was present. McCarthy equation total SMM exhibited a regression slope that did not differ from 1, and no proportional bias was present in the entire sample. However, equivalence with MFBIA was not observed. Systematically higher leg and arm SMM values were observed with DXA as compared to MFBIA.ConclusionsWhile DXA and MFBIA total SMM generally exhibited strong agreement, higher appendicular SMM by DXA highlights technical differences between methods. Background/Objectives Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectrical impedance analysis (MFBIA), can use MRI-based equations to estimate SMM, although the agreement between these methods is unclear. Subjects/Methods Total and segmental SMM were estimated with DXA and MFBIA using MRI-based equations in 313 healthy adults (120 M, 193 F; age 30.2 ± 13.0 y; BMI 24.6 ± 4.0 kg/m 2 ). DXA total SMM was estimated using the Kim and McCarthy equations, and segmental SMM was estimated using the McCarthy equations. Relationships between DXA and MFBIA SMM were examined using Deming regression, Lin’s concordance correlation coefficient (CCC), equivalence testing, Bland-Altman analysis, and related tests. Results Strong linear relationships were observed for total (R 2 0.95, CCC 0.96–0.97), leg (R 2 0.90, CCC 0.85) and arm (R 2 0.93, CCC 0.93) SMM in the entire sample. Kim equation SMM demonstrated statistical equivalence with MFBIA for total SMM, but the Deming regression slope differed from 1 and proportional bias was present. McCarthy equation total SMM exhibited a regression slope that did not differ from 1, and no proportional bias was present in the entire sample. However, equivalence with MFBIA was not observed. Systematically higher leg and arm SMM values were observed with DXA as compared to MFBIA. Conclusions While DXA and MFBIA total SMM generally exhibited strong agreement, higher appendicular SMM by DXA highlights technical differences between methods. Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often inaccessible. However, surrogate methods, such as dual-energy X-ray absorptiometry (DXA) and multi-frequency bioelectrical impedance analysis (MFBIA), can use MRI-based equations to estimate SMM, although the agreement between these methods is unclear. Total and segmental SMM were estimated with DXA and MFBIA using MRI-based equations in 313 healthy adults (120 M, 193 F; age 30.2 ± 13.0 y; BMI 24.6 ± 4.0 kg/m ). DXA total SMM was estimated using the Kim and McCarthy equations, and segmental SMM was estimated using the McCarthy equations. Relationships between DXA and MFBIA SMM were examined using Deming regression, Lin's concordance correlation coefficient (CCC), equivalence testing, Bland-Altman analysis, and related tests. Strong linear relationships were observed for total (R 0.95, CCC 0.96-0.97), leg (R 0.90, CCC 0.85) and arm (R 0.93, CCC 0.93) SMM in the entire sample. Kim equation SMM demonstrated statistical equivalence with MFBIA for total SMM, but the Deming regression slope differed from 1 and proportional bias was present. McCarthy equation total SMM exhibited a regression slope that did not differ from 1, and no proportional bias was present in the entire sample. However, equivalence with MFBIA was not observed. Systematically higher leg and arm SMM values were observed with DXA as compared to MFBIA. While DXA and MFBIA total SMM generally exhibited strong agreement, higher appendicular SMM by DXA highlights technical differences between methods.
Author	Siedler, Madelin R. LaValle, Christian Rodriguez, Christian Heymsfield, Steven B. Tinsley, Grant M.
Author_xml	– sequence: 1 givenname: Grant M. orcidid: 0000-0002-0230-6586 surname: Tinsley fullname: Tinsley, Grant M. email: grant.tinsley@ttu.edu organization: Energy Balance & Body Composition Laboratory, Department of Kinesiology and Sport Management, Texas Tech University – sequence: 2 givenname: Christian surname: LaValle fullname: LaValle, Christian organization: Energy Balance & Body Composition Laboratory, Department of Kinesiology and Sport Management, Texas Tech University – sequence: 3 givenname: Christian orcidid: 0000-0003-3962-7268 surname: Rodriguez fullname: Rodriguez, Christian organization: Energy Balance & Body Composition Laboratory, Department of Kinesiology and Sport Management, Texas Tech University – sequence: 4 givenname: Madelin R. surname: Siedler fullname: Siedler, Madelin R. organization: Energy Balance & Body Composition Laboratory, Department of Kinesiology and Sport Management, Texas Tech University – sequence: 5 givenname: Steven B. orcidid: 0000-0003-1127-9425 surname: Heymsfield fullname: Heymsfield, Steven B. organization: Pennington Biomedical Research Center, Louisiana State University System
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Snippet	Background/Objectives Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance... Skeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance imaging (MRI), are often... Background/ObjectivesSkeletal muscle mass (SMM) estimation is important but challenging in clinical settings. Criterion methods, such as magnetic resonance...
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SubjectTerms	59/57 692/700/1421 692/700/2814 Absorptiometry, Photon - methods Adolescent Adult Arm Bias Bioelectricity Body Composition Body measurements Clinical Nutrition Correlation coefficient Correlation coefficients Dual energy X-ray absorptiometry Electric Impedance Epidemiology Equivalence Humans Impedance Internal Medicine Magnetic Resonance Imaging Mathematical analysis Medicine Medicine & Public Health Metabolic Diseases Muscle, Skeletal - diagnostic imaging Muscle, Skeletal - physiology Muscles Musculoskeletal system Public Health Regression Skeletal muscle Statistical analysis Young Adult
Title	Skeletal muscle estimation using magnetic-resonance-imaging-based equations for dual-energy X-ray absorptiometry and bioelectrical impedance analysis
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