The effect of load on biomechanics of the back and upper limb in a bench to shoulder lift during the WorkHab Functional Capacity Evaluation

West, Nathanael; Snodgrass, Suzanne J.; James, Carole

Title: The effect of load on biomechanics of the back and upper limb in a bench to shoulder lift during the WorkHab Functional Capacity Evaluation
Creator: West, Nathanael; Snodgrass, Suzanne J.; James, Carole
Relation: Work Vol. 59, Issue 2, p. 201-210
Publisher Link: http://dx.doi.org/10.3233/WOR-172677
Publisher: IOS Press
Resource Type: journal article
Date: 2018
Description: Background: Limited literature exists investigating biomechanical changes during a Functional Capacity Evaluation (FCE). Objective: To determine change in joint angle measurement between minimum load to safe maximum load in the bench to shoulder lift of the WorkHab FCE. Methods: Dartfish ProSuite was used to analyse bench to shoulder lift video from 28 subjects. Measurements of joint angle at lumbar spine, thoracic spine, elbow and shoulder at four points in the ascending and descending lift phases (0/3, 1/3, 2/3, 3/3) in the minimum load and safe maximum lift were collected. Paired t-tests were used to analyse differences in joint angles between lifts. RESULTS: Significant differences in joint angles were identified in the thoracic spine, elbow and shoulder at maximal weight. Increased extension occurred: Thoracic spine at 3/3 ascending [2.922, 95% CI 0.8, 3.8, p=0.004]. Increased flexion occurred: elbow ascending [1/3:6.405, 95% CI -11.8, 1.8, p=0.008],[3/3:15.575, 95% CI 4.2, 27.0, p=0.009]; elbow descending [0/3:18.446, 95% CI 9.5, 27.4, p=0.000]; shoulder ascending [3/3:16.785, 95% CI 11.8, 21.8, p<0.001]; shoulder descending [0/3:16.647, 95% CI 10.6, 22.7, p<0.001]. Conclusions: This study provides insight into the biomechanical changes during a bench to shoulder lift and support observations and clinical reasoning used in determining the safe maximal lift.
Subject: functional capacity evaluation; manual handling; bench to shoulder lift; magnitude of load
Identifier: http://hdl.handle.net/1959.13/1466423
Identifier: uon:47529
Identifier: ISSN:1051-9815
Language: eng
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