? Work-related musculoskeletal disorders (WMSD) account for 1 in 3 lost work time illnesses. In spite of epidemiological evidence for a positive relationship between exposures to repetitive and/or forceful motion and the prevalence and incidence of WMSD, the mechanisms of pathophysiology are incompletely understood. In our previous grant, we explored the short-term effects (3-12 weeks) of such tasks on inflammation and motor behavior, and found that higher demand tasks lead to a cyclical inflammation response with motor declines. Our goal in this competitive renewal is to use our highly innovative and unique animal model of WMSD to identify and characterize cellular mechanisms underlying inflammatory tissue changes associated with long-term performance (18 and 24 weeks) of repetitive and/or forceful reaching.
SPECIFIC AIM 1) To determine the extent to which long-term exposure to 2 task regimens, low repetition-low force (LRLF), and high repetition-low force (HRLF) causes tissue changes indicative of inflammation.
Specific Aim 2) To determine the extent to which long-term exposure to 2 task regimens (LRLF and HRLF) causes motor behavior changes indicative of inflammation. These proposed experiments are vital for full understanding of the effects of long-term exposure to combinations of risk factors on tissue and motor function, as well as immune cellular mechanisms underlying the inflammatory tissue responses. The data generated by these studies will ultimately contribute to the development of new strategies for effective prevention and management of WMSD.

Agency
National Institute of Health (NIH)
Institute
National Institute for Occupational Safety and Health (NIOSH)
Type
Research Project (R01)
Project #
5R01OH003970-07
Application #
7277248
Study Section
Safety and Occupational Health Study Section (SOH)
Program Officer
Frederick, Linda J
Project Start
2000-06-01
Project End
2011-07-31
Budget Start
2007-08-01
Budget End
2008-07-31
Support Year
7
Fiscal Year
2007
Total Cost
$150,000
Indirect Cost
Name
Temple University
Department
Other Health Professions
Type
Schools of Allied Health Profes
DUNS #
057123192
City
Philadelphia
State
PA
Country
United States
Zip Code
19122
Barbe, Mary F; Gallagher, Sean; Massicotte, Vicky S et al. (2013) The interaction of force and repetition on musculoskeletal and neural tissue responses and sensorimotor behavior in a rat model of work-related musculoskeletal disorders. BMC Musculoskelet Disord 14:303
Kietrys, David M; Barr-Gillespie, Ann E; Amin, Mamta et al. (2012) Aging contributes to inflammation in upper extremity tendons and declines in forelimb agility in a rat model of upper extremity overuse. PLoS One 7:e46954
Kietrys, David M; Barr, Ann E; Barbe, Mary F (2011) Exposure to repetitive tasks induces motor changes related to skill acquisition and inflammation in rats. J Mot Behav 43:465-76
Xin, Dong L; Harris, Michelle Y; Wade, Christine K et al. (2011) Aging enhances serum cytokine response but not task-induced grip strength declines in a rat model of work-related musculoskeletal disorders. BMC Musculoskelet Disord 12:63
Driban, Jeffrey B; Barr, Ann E; Amin, Mamta et al. (2011) Joint inflammation and early degeneration induced by high-force reaching are attenuated by ibuprofen in an animal model of work-related musculoskeletal disorder. J Biomed Biotechnol 2011:691412
Fedorczyk, Jane M; Barr, Ann E; Rani, Shobha et al. (2010) Exposure-dependent increases in IL-1beta, substance P, CTGF, and tendinosis in flexor digitorum tendons with upper extremity repetitive strain injury. J Orthop Res 28:298-307
Coq, Jacques-Olivier; Barr, Ann E; Strata, Fabrizio et al. (2009) Peripheral and central changes combine to induce motor behavioral deficits in a moderate repetition task. Exp Neurol 220:234-45
Elliott, M B; Barr, A E; Clark, B D et al. (2009) High force reaching task induces widespread inflammation, increased spinal cord neurochemicals and neuropathic pain. Neuroscience 158:922-31
Elliott, Melanie B; Barr, Ann E; Kietrys, David M et al. (2008) Peripheral neuritis and increased spinal cord neurochemicals are induced in a model of repetitive motion injury with low force and repetition exposure. Brain Res 1218:103-13
Barbe, Mary F; Elliott, Melanie B; Abdelmagid, Samir M et al. (2008) Serum and tissue cytokines and chemokines increase with repetitive upper extremity tasks. J Orthop Res 26:1320-6

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