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W2016205146 endingPage "891" @default.
W2016205146 startingPage "884" @default.
W2016205146 abstract "The extracellular matrix (ECM) of skeletal muscle and tendon is composed of different types of collagen molecules that play important roles in the transmission of forces throughout the body, and in the repair and regeneration of injured tissues. Fibroblasts are the primary cells in muscle and tendon that maintain, repair, and modify the ECM in response to mechanical loading, injury, and inactivity. Matrix metalloproteinases (MMPs) are enzymes that digest collagen and other structural molecules, which are synthesized and excreted by fibroblasts. MMPs are required for baseline ECM homeostasis, but disruption of MMP regulation due to injury or disease can alter the normal ECM architecture and prevent proper force transmission. Chronic injuries and diseases of muscles and tendons can be severely debilitating, and current therapeutic modalities to enhance healing are quite limited. This review will discuss the mechanobiology of MMPs, and the potential use of MMP inhibitors to improve the treatment of injured and diseased skeletal muscle and tendon tissue." @default.
W2016205146 created "2016-06-24" @default.
W2016205146 creator A5021403266 @default.
W2016205146 creator A5027580707 @default.
W2016205146 creator A5030290479 @default.
W2016205146 creator A5053612238 @default.
W2016205146 creator A5063528708 @default.
W2016205146 date "2013-09-15" @default.
W2016205146 modified "2023-09-27" @default.
W2016205146 title "MMP inhibition as a potential method to augment the healing of skeletal muscle and tendon extracellular matrix" @default.
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W2016205146 doi "https://doi.org/10.1152/japplphysiol.00137.2013" @default.