Functional Assessment for Prediction of Lifting Capacity
Document Type
Article
Publication Date
5-1994
Publication Title
Spine
Keywords
Isometric physiology / isometric contraction, low back pain / rehabilitation, occupational diseases / rehabilitation
Abstract
Objective This study investigated the ability to predict maximal functional lifting capacity from peak isometric lumbar extension torque and submaximal lifting mechanics.
Methods Peak isometric lumbar extension torques were measured on 26 healthy men and women, ages 18 to 39 years. In addition, their lifting mechanics were evaluated while they lifted a submaximal load. Each subject's maximal lifting capacity (kg) then was predicted from the peak torque and submaximal kinetic analysis using a linear regression model.
Results Mean values for the predicted and actual maximum weight the subjects lifted were not significantly different (50.3 ± 15.6 kg and 48.5 ± 17.0 kg, respectively, P ≥ 0.05). The correlation between predicted and criterion values was high (r=0.96), and the total error of the prediction was 5.1 kg, Which represented 10.5% of the actual maximum value.
Conclusions This multi-faceted functional assessment model involving biomechanical analysis of a submaximal lift and maximal isometric lumbar extension strength accurately predicted a subject's maximum functional lifting capacity.
Recommended Citation
Wheeler, Donna; Graves, James PhD; Miller, Gary J.; O'Connor, Pat; and McMillan, Michael, "Functional Assessment for Prediction of Lifting Capacity" (1994). Department of Exercise, Health and Sport Science. 63.
https://digitalcommons.usm.maine.edu/sportscience/63
Comments
© Lippincott-Raven Publishers.