SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017027901> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W2017027901 endingPage "743" @default.
W2017027901 startingPage "736" @default.
W2017027901 abstract "The ability to use progenitor cells for regenerative medicine remains an evolving but elusive clinical goal. A serious obstacle towards widespread use of stem cells for tissue regeneration is the challenges that face these cells when they are placed in vivo into a wound for therapy. These environments are hypoxic, acidic, and have an upregulation of inflammatory mediators creating a region that is hostile towards cellular survival. Within this environment, the majority of progenitor cells undergo apoptosis prior to participating in lineage differentiation and cellular integration. In order to maximize the clinical utility of stem cells, strategies must be employed to increase the cell's ability to survive in vivo through manipulation of both the stem cell and the surrounding environment. This review focuses on current advances and techniques being used to increase in vivo stem cell survival for the purpose of tissue regeneration." @default.
W2017027901 created "2016-06-24" @default.
W2017027901 creator A5005174685 @default.
W2017027901 creator A5005728573 @default.
W2017027901 creator A5034629035 @default.
W2017027901 creator A5038063552 @default.
W2017027901 creator A5043346644 @default.
W2017027901 creator A5046925887 @default.
W2017027901 creator A5082290226 @default.
W2017027901 creator A5086692185 @default.
W2017027901 date "2013-09-01" @default.
W2017027901 modified "2023-09-29" @default.
W2017027901 title "Enhancing stem cell survival in vivo for tissue repair" @default.
W2017027901 cites W1487964544 @default.
W2017027901 cites W1529566020 @default.
W2017027901 cites W1686409300 @default.
W2017027901 cites W1967582830 @default.
W2017027901 cites W1972584214 @default.
W2017027901 cites W1974736062 @default.
W2017027901 cites W1977608305 @default.
W2017027901 cites W1978706879 @default.
W2017027901 cites W1980495613 @default.
W2017027901 cites W1982738871 @default.
W2017027901 cites W1987739903 @default.
W2017027901 cites W1991720187 @default.
W2017027901 cites W1995765796 @default.
W2017027901 cites W1996795547 @default.
W2017027901 cites W1998390580 @default.
W2017027901 cites W2000292756 @default.
W2017027901 cites W2000540654 @default.
W2017027901 cites W2001668394 @default.
W2017027901 cites W2011403734 @default.
W2017027901 cites W2013476279 @default.
W2017027901 cites W2014505844 @default.
W2017027901 cites W2015164426 @default.
W2017027901 cites W2019293837 @default.
W2017027901 cites W2021146940 @default.
W2017027901 cites W2021916724 @default.
W2017027901 cites W2022507430 @default.
W2017027901 cites W2023296392 @default.
W2017027901 cites W2028993817 @default.
W2017027901 cites W2033474014 @default.
W2017027901 cites W2036177306 @default.
W2017027901 cites W2036817069 @default.
W2017027901 cites W2047266588 @default.
W2017027901 cites W2050689355 @default.
W2017027901 cites W2052993628 @default.
W2017027901 cites W2067755505 @default.
W2017027901 cites W2077806591 @default.
W2017027901 cites W2079870118 @default.
W2017027901 cites W2080333440 @default.
W2017027901 cites W2080940742 @default.
W2017027901 cites W2081245002 @default.
W2017027901 cites W2085050235 @default.
W2017027901 cites W2086943348 @default.
W2017027901 cites W2087214757 @default.
W2017027901 cites W2089306073 @default.
W2017027901 cites W2090852445 @default.
W2017027901 cites W2093888082 @default.
W2017027901 cites W2094457676 @default.
W2017027901 cites W2100417606 @default.
W2017027901 cites W2101771613 @default.
W2017027901 cites W2102718460 @default.
W2017027901 cites W2103612759 @default.
W2017027901 cites W2104708641 @default.
W2017027901 cites W2104978512 @default.
W2017027901 cites W2105300288 @default.
W2017027901 cites W2111068169 @default.
W2017027901 cites W2112485709 @default.
W2017027901 cites W2115110568 @default.
W2017027901 cites W2115855791 @default.
W2017027901 cites W2119845005 @default.
W2017027901 cites W2124812176 @default.
W2017027901 cites W2125987139 @default.
W2017027901 cites W2126774748 @default.
W2017027901 cites W2127905517 @default.
W2017027901 cites W2133502832 @default.
W2017027901 cites W2135196225 @default.
W2017027901 cites W2138442302 @default.
W2017027901 cites W2142046859 @default.
W2017027901 cites W2145492799 @default.
W2017027901 cites W2150332104 @default.
W2017027901 cites W2155291988 @default.
W2017027901 cites W2157645703 @default.
W2017027901 cites W2165269428 @default.
W2017027901 cites W2169413134 @default.
W2017027901 cites W2169746118 @default.
W2017027901 cites W2169859308 @default.
W2017027901 cites W2325727928 @default.
W2017027901 cites W2415581815 @default.
W2017027901 cites W2078245806 @default.
W2017027901 doi "https://doi.org/10.1016/j.biotechadv.2012.11.003" @default.
W2017027901 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23153460" @default.
W2017027901 hasPublicationYear "2013" @default.
W2017027901 type Work @default.
W2017027901 sameAs 2017027901 @default.
W2017027901 citedByCount "52" @default.
W2017027901 countsByYear W20170279012014 @default.