The Impact of Unilateral Lower Limb Amputation on Spinal Loads

Status Completed

Clinical Trial Summary

The prevalence of low back pain among persons with unilateral lower limb amputation is significantly higher than the rate experienced by the general public. Chronic pain, including low back pain, limits functional independence and negatively impacts quality of life. As such, this project will investigate the role of a biomechanical casual pathway in the development of low back pain; to do this, the investigators will explore the relationship between the adopted neuromuscular patterns post-amputation to perform activities of daily living and the risk of developing spinal tissue damage.

Clinical Trial Description

Despite the higher prevalence of low back pain (LBP) among persons with unilateral lower limb amputation (ULLA) compared to able-bodied individuals, relatively little is known about the fundamental mechanisms underlying this condition. This research represents a first step toward investigating lower back biomechanics using advanced computational modeling techniques to inform the future design of effective interventions for LBP. Specifically, the impact of trunk neuromuscular patterns adopted by persons with ULLA while performing activities of daily living on spinal loads and the risk of spinal tissue damage will be investigated. This will be achieved via secondary biomechanical analyses of a large set of high-quality kinematics data obtained from individuals with and without ULLA performing the following tasks: 1) walking at self-selected and controlled speeds, 2) sit-to-stand and stand-to-sit, and 3) stairs-up and stairs-down. The central hypothesis is that, compared to able-bodied individuals, trunk movement strategies adopted by persons with ULLA to cope with physical demands of common daily activities are associated with a complex pattern of internal muscle forces that result in larger loads on the spine and a higher probability for spinal tissue damage. Investigators' dataset draws from the Biomechanics Laboratory at Walter Reed National Military Medical Center (WRNMMC) which has unprecedented access to a large population of service members with ULLA. Using this unique database, investigators will implement their novel finite element modeling approach to estimate the internal muscle forces (i.e., adopted neuromuscular patterns) needed to perform daily physical activities on the basis of satisfying equilibrium and stability across the entire lumbar spine. Completion of this project will enable the investigators to determine differences in muscle recruitment, as well as the resultant effects on spinal loads and the risk of spinal tissue damage, between persons with and without ULLA. Hence, this pilot project is expected to establish the initial groundwork for future research involving the design of highly specific interventions aimed at trunk neuromuscular behaviors during post-amputation rehabilitation to lessen adverse effects on lower back biomechanics and the potential for LBP. ;

Study Design

Related Conditions & MeSH terms

Low Back Pain

Clinical Trial Details

NCT number	NCT02897973
Study type	Observational
Source	University of Kentucky
Contact
Status	Completed
Phase
Start date	September 2011
Completion date	October 2015

View Details

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