Comparisons between skeletal muscle imaging techniques and histology in tracking midthigh hypertrophic adaptations following 10 wk of resistance training

This is the first study to comprehensively examine how different midthigh muscle imaging techniques and histology compare with one another in participants that performed 10 weeks of resistance training. Our study suggests that histology results show poor agreement with results yielded from other com...

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Published in:Journal of applied physiology (1985) 2022-08, Vol.133 (2), p.416-425
Main Authors: Ruple, Bradley A., Smith, Morgan A., Osburn, Shelby C., Sexton, Casey L., Godwin, Joshua S., Edison, Joseph L., Poole, Christopher N., Stock, Matt S., Fruge, Andrew D., Young, Kaelin C., Roberts, Michael D.
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Language:English
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Summary:This is the first study to comprehensively examine how different midthigh muscle imaging techniques and histology compare with one another in participants that performed 10 weeks of resistance training. Our study suggests that histology results show poor agreement with results yielded from other common muscle imaging techniques, and researchers should be aware of this limitation. This study had two aims. Aim1 was to determine the agreement between midthigh vastus lateralis (VL) cross-sectional area measured by ultrasound (mCSA US ) versus magnetic resonance imaging (mCSA MRI ) at a single time point, and the ability of each to detect hypertrophic changes. Aim2 was to assess the relationships between pre- and posttraining changes in thigh lean mass determined by dual-energy X-ray absorptiometry (DXA), VL mCSA US , ultrasound-determined VL thickness (VL Thick ), and VL mean myofiber cross-sectional area (fCSA) with changes in VL mCSA MRI . Twelve untrained males (age: 20 ± 1 yr, BMI: 26.9 ± 5.4 kg/m 2 ; n = 12) engaged in a 10-wk resistance training program (2×/week) where right midthigh images and VL biopsies were obtained before and 72 h following the last training bout. Participants’ VL mCSA MRI ( P = 0.005), DXA thigh lean mass ( P = 0.015), and VL Thick ( P = 0.001) increased following training, whereas VL mCSA US and fCSA did not. For Aim1, mCSA US demonstrated excellent concordance [concordance correlation coefficients (CCC) = 0.830] with mCSA MRI , albeit mCSA US values were systematically lower compared with mCSA MRI (mean bias: −2.29 cm 2 ). In addition, PRE-to-POST VL mCSA changes between techniques exhibited good agreement (CCC = 0.700; mean bias: −1.08 cm 2 ). For Aim2, moderate, positive correlations existed for pre-to-post changes in VL mCSA MRI and DXA thigh lean mass ( r = 0.580, P = 0.048), mCSA US ( r = 0.622, P = 0.031), and VL Thick ( r = 0.520, P = 0.080). A moderate, negative correlation existed between mCSA MRI and fCSA ( r = −0.569, P = 0.054). Our findings have multiple implications: 1) resistance training-induced hypertrophy was dependent on the quantification method, 2) ultrasound-determined mCSA shows good agreement with MRI, and 3) tissue-level changes poorly agreed with mean fCSA changes and this requires further research. NEW & NOTEWORTHY This is the first study to comprehensively examine how different midthigh muscle imaging techniques and histology compare with one another in participants that performed 10 weeks of resistanc
ISSN:8750-7587
1522-1601
DOI:10.1152/japplphysiol.00219.2022