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W1567806690 endingPage "346" @default.
W1567806690 startingPage "301" @default.
W1567806690 abstract "Mechanical forces, including gravity, tension, compression, hydrostatic pressure, and fluid shear stress, play a vital role in human physiology and pathology. They particularly influence extracellular matrix (ECM) gene expression, ECM protein synthesis, and production of inflammatory mediators of many load-sensitive adult cells such as fibroblasts, chondrocytes, smooth muscle cells, and endothelial cells. Furthermore, the mechanical forces generated by cells themselves, known as cell traction forces (CTFs), also influence many biological processes such as wound healing, angiogenesis, and metastasis. Thus, the quantitative characterization of CTFs by qualities such as magnitude and distribution is useful for understanding physiological and pathological events at the tissue and organ levels. Recently, the effects of mechanical loads on embryonic and adult stem cells in terms of self-renewal, differentiation, and matrix protein expression have been investigated. While it seems certain that mechanical loads applied to stem cells regulate their self-renewal and induce controlled cell lineage differentiation, the detailed molecular signaling mechanisms responsible for these mechano-effects remain to be elucidated. Challenges in the fields of both adult- and stem-cell mechanobiology include devising novel experimental and theoretical methodologies to examine mechano-responses more closely to various forms of mechanical forces and mechanotransduction mechanisms of these cells in a more physiologically accurate setting. Such novel methodologies will lead to better understanding of various pathological diseases, their management, and translational applications in the ever expanding field of tissue engineering." @default.
W1567806690 created "2016-06-24" @default.
W1567806690 creator A5013220519 @default.
W1567806690 creator A5046624023 @default.
W1567806690 date "2008-01-01" @default.
W1567806690 modified "2023-09-29" @default.
W1567806690 title "Chapter 7 Mechanobiology of Adult and Stem Cells" @default.
W1567806690 cites W1483273274 @default.
W1567806690 cites W1491671746 @default.
W1567806690 cites W1504223844 @default.
W1567806690 cites W1542303523 @default.
W1567806690 cites W1544751778 @default.
W1567806690 cites W1583489560 @default.
W1567806690 cites W1590619267 @default.
W1567806690 cites W1805716398 @default.
W1567806690 cites W1831347542 @default.
W1567806690 cites W1840163537 @default.
W1567806690 cites W1854871441 @default.
W1567806690 cites W1894041618 @default.
W1567806690 cites W1918459205 @default.
W1567806690 cites W1921845417 @default.
W1567806690 cites W1936770188 @default.
W1567806690 cites W1964063180 @default.
W1567806690 cites W1964195356 @default.
W1567806690 cites W1965933207 @default.
W1567806690 cites W1967894955 @default.
W1567806690 cites W1969803821 @default.
W1567806690 cites W1970460954 @default.
W1567806690 cites W1971300919 @default.
W1567806690 cites W1973523849 @default.
W1567806690 cites W1974382774 @default.
W1567806690 cites W1974489896 @default.
W1567806690 cites W1975256041 @default.
W1567806690 cites W1976498439 @default.
W1567806690 cites W1979892184 @default.
W1567806690 cites W1981157406 @default.
W1567806690 cites W1982380369 @default.
W1567806690 cites W1983281361 @default.
W1567806690 cites W1983515748 @default.
W1567806690 cites W1985356640 @default.
W1567806690 cites W1985422515 @default.
W1567806690 cites W1985785796 @default.
W1567806690 cites W1986120913 @default.
W1567806690 cites W1986766821 @default.
W1567806690 cites W1989124188 @default.
W1567806690 cites W1990574061 @default.
W1567806690 cites W1990851605 @default.
W1567806690 cites W1991096907 @default.
W1567806690 cites W1991237283 @default.
W1567806690 cites W1991505634 @default.
W1567806690 cites W1992935548 @default.
W1567806690 cites W1993212911 @default.
W1567806690 cites W1993269272 @default.
W1567806690 cites W1994076220 @default.
W1567806690 cites W1994579263 @default.
W1567806690 cites W1995527685 @default.
W1567806690 cites W1995721099 @default.
W1567806690 cites W1998559419 @default.
W1567806690 cites W1998784107 @default.
W1567806690 cites W1998785004 @default.
W1567806690 cites W2000791145 @default.
W1567806690 cites W2001108592 @default.
W1567806690 cites W2001650412 @default.
W1567806690 cites W2003374410 @default.
W1567806690 cites W2004472687 @default.
W1567806690 cites W2004730246 @default.
W1567806690 cites W2006594271 @default.
W1567806690 cites W2007101888 @default.
W1567806690 cites W2007896505 @default.
W1567806690 cites W2008400478 @default.
W1567806690 cites W2008414056 @default.
W1567806690 cites W2008893285 @default.
W1567806690 cites W2009383897 @default.
W1567806690 cites W2011810078 @default.
W1567806690 cites W2013164206 @default.
W1567806690 cites W2013770977 @default.
W1567806690 cites W2016193552 @default.
W1567806690 cites W2018128871 @default.
W1567806690 cites W2018699957 @default.
W1567806690 cites W2018865025 @default.
W1567806690 cites W2019101681 @default.
W1567806690 cites W2019166941 @default.
W1567806690 cites W2020384296 @default.
W1567806690 cites W2020501189 @default.
W1567806690 cites W2020678183 @default.
W1567806690 cites W2021159296 @default.
W1567806690 cites W2023097882 @default.
W1567806690 cites W2023136127 @default.
W1567806690 cites W2023656108 @default.
W1567806690 cites W2023944293 @default.
W1567806690 cites W2025629099 @default.
W1567806690 cites W2026420278 @default.
W1567806690 cites W2027736364 @default.
W1567806690 cites W2029026343 @default.
W1567806690 cites W2029330485 @default.
W1567806690 cites W2029991360 @default.
W1567806690 cites W2030014267 @default.
W1567806690 cites W2031843136 @default.