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W2123258306 startingPage "721" @default.
W2123258306 abstract "Embryonic stem cells and induced pluripotent stem cells have the potential to be a renewable source of cardiomyocytes for use in myocardial cell replacement strategies. Although progress has been made towards differentiating stem cells to specific cell lineages, the efficiency is often poor and the number of cells generated is not suitable for therapeutic usage. Recent studies demonstrated that controlling the stem cell microenvironment can influence differentiation. Components of the extracellular matrix are important physiological regulators and can provide mechanical cues, direct differentiation and improve cell engraftment into damaged tissue. Bioreactors are used to control the microenvironment and produce large numbers of desired cells. This article describes recent methods to achieve cardiomyocyte differentiation by engineering the stem cell microenvironment. Successful translation of stem cell research to therapeutic applications will need to address large-scale cardiomyocyte differentiation and purification, assessment of cardiac function and synchronization, and safety concerns." @default.
W2123258306 created "2016-06-24" @default.
W2123258306 creator A5006444990 @default.
W2123258306 creator A5021940310 @default.
W2123258306 creator A5050107201 @default.
W2123258306 creator A5089838124 @default.
W2123258306 date "2009-09-01" @default.
W2123258306 modified "2023-09-27" @default.
W2123258306 title "Engineering microenvironments for embryonic stem cell differentiation to cardiomyocytes" @default.
W2123258306 cites W1483273274 @default.
W2123258306 cites W1603508604 @default.
W2123258306 cites W1964083927 @default.
W2123258306 cites W1966127544 @default.
W2123258306 cites W1971265729 @default.
W2123258306 cites W1979342340 @default.
W2123258306 cites W1979608640 @default.
W2123258306 cites W1982220375 @default.
W2123258306 cites W1983352401 @default.
W2123258306 cites W1986142580 @default.
W2123258306 cites W1991817888 @default.
W2123258306 cites W1995734429 @default.
W2123258306 cites W1996150537 @default.
W2123258306 cites W1998827276 @default.
W2123258306 cites W1999175819 @default.
W2123258306 cites W2010353459 @default.
W2123258306 cites W2013392344 @default.
W2123258306 cites W2016473774 @default.
W2123258306 cites W2016576487 @default.
W2123258306 cites W2020416370 @default.
W2123258306 cites W2023341510 @default.
W2123258306 cites W2031725294 @default.
W2123258306 cites W2032707537 @default.
W2123258306 cites W2033926629 @default.
W2123258306 cites W2041485503 @default.
W2123258306 cites W2042485268 @default.
W2123258306 cites W2043048630 @default.
W2123258306 cites W2044193480 @default.
W2123258306 cites W2048332300 @default.
W2123258306 cites W2048410503 @default.
W2123258306 cites W2048722591 @default.
W2123258306 cites W2057702258 @default.
W2123258306 cites W2064124462 @default.
W2123258306 cites W2067190714 @default.
W2123258306 cites W2068406769 @default.
W2123258306 cites W2069019884 @default.
W2123258306 cites W2070211958 @default.
W2123258306 cites W2075351073 @default.
W2123258306 cites W2076994662 @default.
W2123258306 cites W2080720938 @default.
W2123258306 cites W2086943348 @default.
W2123258306 cites W2089430287 @default.
W2123258306 cites W2091723974 @default.
W2123258306 cites W2094995166 @default.
W2123258306 cites W2098972920 @default.
W2123258306 cites W2099474957 @default.
W2123258306 cites W2101228997 @default.
W2123258306 cites W2101950619 @default.
W2123258306 cites W2104953790 @default.
W2123258306 cites W2108350650 @default.
W2123258306 cites W2109707676 @default.
W2123258306 cites W2115579253 @default.
W2123258306 cites W2116695601 @default.
W2123258306 cites W2116953529 @default.
W2123258306 cites W2117336213 @default.
W2123258306 cites W2119288897 @default.
W2123258306 cites W2121968259 @default.
W2123258306 cites W2124066511 @default.
W2123258306 cites W2128085444 @default.
W2123258306 cites W2136071912 @default.
W2123258306 cites W2137331183 @default.
W2123258306 cites W2138803549 @default.
W2123258306 cites W2155089048 @default.
W2123258306 cites W2155291572 @default.
W2123258306 cites W2157023104 @default.
W2123258306 cites W2165673443 @default.
W2123258306 cites W2169859308 @default.
W2123258306 cites W2171547034 @default.
W2123258306 cites W2768019923 @default.
W2123258306 cites W3099528961 @default.
W2123258306 doi "https://doi.org/10.2217/rme.09.48" @default.
W2123258306 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19761397" @default.
W2123258306 hasPublicationYear "2009" @default.
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