TY - JOUR
T1 - The effect of lateral epicondylosis on upper limb mechanical parameters
AU - Chourasia, Amrish O.
AU - Buhr, Kevin A.
AU - Rabago, David P.
AU - Kijowski, Richard
AU - Sesto, Mary E.
N1 - Funding Information:
This research was partially supported by Grant 1UL1RR025011 from the Clinical and Translational Science Award (CTSA) program of the National Center for Research Resources (NCRR), National Institutes of Health (NIH) and a pilot grant from the American Academy Family Practice Foundation's Research Committee Joint Grant Awards Program .
PY - 2012/2
Y1 - 2012/2
N2 - Background: Lateral epicondylosis is a prevalent and costly musculoskeletal disorder characterized by degeneration of the common extensor tendon origin at the lateral epicondyle. Grip strength is commonly affected due to lateral epicondylosis. However, less is known about the effect of lateral epicondylosis on other functional parameters such as ability to react to rapid loading. Methods: Twenty-nine lateral epicondylosis participants and ten controls participated in a case-control study comparing mechanical parameters (mass, stiffness and damping), magnetic resonance imaging signal intensity and grip strength of injured and uninjured limbs. A mixed effects model was used to assess the effect of dominance and injury on mechanical parameters and grip strength. Findings: Significant effect of injury and dominance was observed on stiffness, damping and grip strength. An injured upper limb had, on average, 18% less stiffness (P < 0.01, 95% CI [9.8%, 26%]), 21% less damping (P < 0.01, 95% CI [11%, 31%]) and 50% less grip strength (P < 0.01, 95% CI [37%, 61%]) than an uninjured upper limb. The dominant limb had on average 15% more stiffness (P < 0.01, 95% CI [8.0%, 23%], 33% more damping (P < 0.01, 95% CI [22%, 45%]), and 24% more grip strength (P < 0.01, 95% CI [6.6%, 44%]) than the non-dominant limb. Interpretation: Lower mechanical parameters are indicative of a lower capacity to oppose rapidly rising forces and quantify an important aspect of upper limb function. For individuals engaged in manual or repetitive activities involving the upper limb, a reduction in ability to oppose these forces may result in increased risk for injury or recurrence.
AB - Background: Lateral epicondylosis is a prevalent and costly musculoskeletal disorder characterized by degeneration of the common extensor tendon origin at the lateral epicondyle. Grip strength is commonly affected due to lateral epicondylosis. However, less is known about the effect of lateral epicondylosis on other functional parameters such as ability to react to rapid loading. Methods: Twenty-nine lateral epicondylosis participants and ten controls participated in a case-control study comparing mechanical parameters (mass, stiffness and damping), magnetic resonance imaging signal intensity and grip strength of injured and uninjured limbs. A mixed effects model was used to assess the effect of dominance and injury on mechanical parameters and grip strength. Findings: Significant effect of injury and dominance was observed on stiffness, damping and grip strength. An injured upper limb had, on average, 18% less stiffness (P < 0.01, 95% CI [9.8%, 26%]), 21% less damping (P < 0.01, 95% CI [11%, 31%]) and 50% less grip strength (P < 0.01, 95% CI [37%, 61%]) than an uninjured upper limb. The dominant limb had on average 15% more stiffness (P < 0.01, 95% CI [8.0%, 23%], 33% more damping (P < 0.01, 95% CI [22%, 45%]), and 24% more grip strength (P < 0.01, 95% CI [6.6%, 44%]) than the non-dominant limb. Interpretation: Lower mechanical parameters are indicative of a lower capacity to oppose rapidly rising forces and quantify an important aspect of upper limb function. For individuals engaged in manual or repetitive activities involving the upper limb, a reduction in ability to oppose these forces may result in increased risk for injury or recurrence.
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U2 - 10.1016/j.clinbiomech.2011.08.014
DO - 10.1016/j.clinbiomech.2011.08.014
M3 - Article
C2 - 21937156
AN - SCOPUS:84856429734
SN - 0268-0033
VL - 27
SP - 124
EP - 130
JO - Clinical Biomechanics
JF - Clinical Biomechanics
IS - 2
ER -