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Aging contributes to inflammation in upper extremity tendons and declines in forelimb agility in a rat model of upper extremity overuse.
Kietrys-DM; Barr-Gillespie-AE; Amin-M; Wade-CK; Popoff-SN; Barbe-MF
PLoS One 2012 Oct; 7(10):e46954
We sought to determine if tendon inflammatory and histopathological responses increase in aged rats compared to young rats performing a voluntary upper extremity repetitive task, and if these changes are associated with motor declines. Ninety-six female Sprague-Dawley rats were used in the rat model of upper extremity overuse: 67 aged and 29 young adult rats. After a training period of 4 weeks, task rats performed a voluntary high repetition low force (HRLF) handle-pulling task for 2 hrs/day, 3 days/wk for up to 12 weeks. Upper extremity motor function was assessed, as were inflammatory and histomorphological changes in flexor digitorum and supraspinatus tendons. The percentage of successful reaches improved in young adult HRLF rats, but not in aged HRLF rats. Forelimb agility decreased transiently in young adult HRLF rats, but persistently in aged HRLF rats. HRLF task performance for 12 weeks lead to increased IL-1beta and IL-6 in flexor digitorum tendons of aged HRLF rats, compared to aged normal control (NC) as well as young adult HRLF rats. In contrast, TNF-alpha increased more in flexor digitorum tendons of young adult 12-week HRLF rats than in aged HRLF rats. Vascularity and collagen fibril organization were not affected by task performance in flexor digitorum tendons of either age group, although cellularity increased in both. By week 12 of HRLF task performance, vascularity and cellularity increased in the supraspinatus tendons of only aged rats. The increased cellularity was due to increased macrophages and connective tissue growth factor (CTGF)-immunoreactive fibroblasts in the peritendon. In conclusion, aged rat tendons were overall more affected by the HRLF task than young adult tendons, particularly supraspinatus tendons. Greater inflammatory changes in aged HRLF rat tendons were observed, increases associated temporally with decreased forelimb agility and lack of improvement in task success.
Animal-studies; Cumulative-trauma; Histopathology; Laboratory-animals; Musculoskeletal-system; Musculoskeletal-system-disorders; Repetitive-work; Age-factors; Immune-reaction; Dose-response; Extremities; Neuromotor-function; Sex-factors; Histomorphology; Task-performance; Overloading; Physical-capacity; Cellular-function; Cellular-reactions; Muscle-tissue; Body-regions; Biomechanics; Physiopathology; Connective-tissue; Metabolism
Mary F. Barbe, Department of Anatomy & Cell Biology, Temple University School of Medicine, 3500 North Broad Street, Philadelphia, PA 19140
Issue of Publication
Public Library of Science One
NJ; OR; PA
Page last reviewed: March 11, 2019
Content source: National Institute for Occupational Safety and Health Education and Information Division