Peak Torque Prediction Using Handgrip and Strength Predictors in Men and Women With Motor Complete Spinal Cord Injury

To establish predictive equations for peak torque of muscle groups with totally and partially preserved innervation in individuals with motor complete spinal cord injury (SCI), based on hand dynamometry and strength predictor variables. The cross-sectional study conducted at a rehabilitation hospita...

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Bibliographic Details
Published in:Topics in spinal cord injury rehabilitation 2021-09, Vol.27 (3), p.49-59
Main Authors: Neto, Frederico Ribeiro, Dorneles, Jefferson Rodrigues, Carneiro Leão Veloso, João Henrique, Gonçalves, Carlos Wellington, Gomes Costa, Rodrigo Rodrigues
Format: Article
Language:English
Subjects:
Adult
Bone surgery
Cross-Sectional Studies
Exercise
Female
Hand Strength - physiology
Hands
Humans
Male
Mens health
Muscle strength
Muscle Strength - physiology
Muscle Strength Dynamometer
Paralysis
Physical fitness
Predictive Value of Tests
Rehabilitation
Spinal cord injuries
Spinal Cord Injuries - physiopathology
Sports training
Strength training
Torque
Wheelchairs
Women
Womens health
Young Adult
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Summary:To establish predictive equations for peak torque of muscle groups with totally and partially preserved innervation in individuals with motor complete spinal cord injury (SCI), based on hand dynamometry and strength predictor variables. The cross-sectional study conducted at a rehabilitation hospital consecutively recruited 108 men and women with SCI. All participants performed maximum peak torque tests for shoulder abduction/adduction (isokinetic), trunk flexion/extension (isometric), and handgrip strength testing (hand dynamometer) to establish predictive peak torque equations. The primary outcomes were peak torque variables. Handgrip strength, age, injury level, time since injury, age at injury, body mass, height, body mass index, and physical activity level were the secondary outcomes used as strength predictor variables. Handgrip strength was a predictor variable for shoulder abduction/adduction peak torque. The best predictive models for shoulder abduction/adduction peak torque exhibited = 0.57 and = 0.60, respectively ( ≤ .05). Injury level showed the highest significant predictive capacity for trunk flexion/extension peak torque models ( = 0.38 and = 0.29; ≤ .05). Shoulder abduction/adduction peak torque predictive equations may be an alternative for use in an accessible strength tool (hand dynamometry) to evaluate training and rehabilitation programs. Trunk flexion/extension peak torque equations exhibited moderate correlations and high standard error of the estimates and should be used with caution.
ISSN:1082-0744
1945-5763
DOI:10.46292/sci20-00027