@article{ajssm20241222,
author={{Roberts, Trevor D. and Smith, Robert W. and Arnett, Jocelyn E. and Ortega, Dolores G. and Pioske, Justin S. and Schmidt, Richard J. and Housh, Terry J.},
title={Cross-validation of Equations for Estimating Pre-training, Post-training, and Training-induced Changes in Leg Extension 1-Repetition Maximum},
journal={American Journal of Sports Science and Medicine},
volume={12},
number={2},
pages={29--35},
year={2024},
url={https://pubs.sciepub.com/ajssm/12/2/2},
issn={2333-4606},
abstract={Eight previously published equations (EQs) that estimate 1-repetition maximum (1-RM) from repetitions to failure (RTF) were cross-validated for estimating pre-training, post-training, and training-induced changes (post-training minus pre-training) in leg extension (Leg Ext) 1-RM. Thirty-one recreationally active men (age: 20.8¡À1.5 years; body mass: 81.7¡À14.6 kg) trained 3 days per week for 8 weeks with 1 bilateral Leg Ext set to failure at ~80% 1-RM. The subjects performed Leg Ext 1-RM and RTF tests at pre-training and post-training. The pre-training and post-training RTF were performed at ~80% pre-training 1-RM and the values were input into the EQs for estimating the 1-RM values. The measured changes in 1-RM and RTF from pre-training to post-training were analyzed with paired t-tests. The cross-validation statistical analyses included paired t-tests for the constant error, correlation coefficient, standard error of the estimate, and total error (TE). Training significantly increased (p < 0.001) Leg Ext 1-RM (pre-training: 126.9¡À25.2 kg; post-training: 161.6¡À24.6 kg) and RTF (pre-training: 9.8¡À2.7 repetitions; post-training: 19.9¡À7.6 repetitions) by 34.6 kg and 10.1 repetitions, respectively. The cross-validation analyses indicated that an exponential EQ (Estimated 1-RM = RTF0.1?weight lifted) exhibited the lowest TE (3.9 kg) for estimating pre-training 1-RM, however, all EQs exhibited high TE values for estimating post-training 1-RM (21.9 to 606.3 kg) and changes in 1-RM values (24.0 to 603.1 kg) relative to the mean measured values of 161.5 kg and 34.6 kg, respectively. Therefore, this exponential EQ is recommended for estimating a pre-training Leg Ext 1-RM with 4 to 17 RTF in recreationally active men, but none of the EQs in the present study are recommended for estimating post-training Leg Ext 1-RM or changes in Leg Ext 1-RM values with post-training RTF ranging from 11 to 37 RTF.},
doi={10.12691/ajssm-12-2-2}
publisher={Science and Education Publishing}
}