SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2260219453> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W2260219453 endingPage "694" @default.
W2260219453 startingPage "687" @default.
W2260219453 abstract "Unexpected toxicity in areas such as cardiotoxicity, hepatotoxicity, and neurotoxicity is a serious complication of clinical therapy and one of the key causes for failure of promising drug candidates in development. Animal studies have been widely used for toxicology research to provide preclinical security evaluation of various therapeutic agents under development. Species differences in drug penetration of the blood–brain barrier, drug metabolism, and related toxicity contribute to failure of drug trials from animal models to human. The existing system for drug discovery has relied on immortalized cell lines, animal models of human disease, and clinical trials in humans. Moreover, drug candidates that are passed as being safe in the preclinical stage often show toxic effects during the clinical stage. Only around 16% drugs are approved for human use. Research on induced pluripotent stem cells (iPSCs) promises to enhance drug discovery and development by providing simple, reproducible, and economically effective tools for drug toxicity screening under development and, on the other hand, for studying the disease mechanism and pathways. In this review, we provide an overview of basic information about iPSCs, and discuss efforts aimed at the use of iPSC-derived hepatocytes, cardiomyocytes, and neural cells in drug discovery and toxicity testing." @default.
W2260219453 created "2016-06-24" @default.
W2260219453 creator A5002592093 @default.
W2260219453 creator A5023598617 @default.
W2260219453 creator A5049900497 @default.
W2260219453 date "2016-07-01" @default.
W2260219453 modified "2023-10-16" @default.
W2260219453 title "Toxicity testing and drug screening using iPSC-derived hepatocytes, cardiomyocytes, and neural cells" @default.
W2260219453 cites W1055875683 @default.
W2260219453 cites W1480639515 @default.
W2260219453 cites W1485893307 @default.
W2260219453 cites W1967302087 @default.
W2260219453 cites W1971544555 @default.
W2260219453 cites W1975083584 @default.
W2260219453 cites W1975396117 @default.
W2260219453 cites W1978173381 @default.
W2260219453 cites W1978261848 @default.
W2260219453 cites W1979904726 @default.
W2260219453 cites W1981809048 @default.
W2260219453 cites W1983189453 @default.
W2260219453 cites W1987296030 @default.
W2260219453 cites W1988627620 @default.
W2260219453 cites W1992438574 @default.
W2260219453 cites W1992989851 @default.
W2260219453 cites W1995864831 @default.
W2260219453 cites W2002708055 @default.
W2260219453 cites W2006798950 @default.
W2260219453 cites W2007334806 @default.
W2260219453 cites W2008446011 @default.
W2260219453 cites W2009108898 @default.
W2260219453 cites W2013205740 @default.
W2260219453 cites W2020755558 @default.
W2260219453 cites W2021320070 @default.
W2260219453 cites W2027195009 @default.
W2260219453 cites W2033247361 @default.
W2260219453 cites W2034879573 @default.
W2260219453 cites W2035121417 @default.
W2260219453 cites W2045081995 @default.
W2260219453 cites W2050610125 @default.
W2260219453 cites W2059269436 @default.
W2260219453 cites W2060244901 @default.
W2260219453 cites W2067361851 @default.
W2260219453 cites W2077127699 @default.
W2260219453 cites W2077748688 @default.
W2260219453 cites W2082829275 @default.
W2260219453 cites W2084629315 @default.
W2260219453 cites W2086486740 @default.
W2260219453 cites W2088606003 @default.
W2260219453 cites W2091557317 @default.
W2260219453 cites W2092565861 @default.
W2260219453 cites W2094987419 @default.
W2260219453 cites W2100217179 @default.
W2260219453 cites W2101569447 @default.
W2260219453 cites W2102421987 @default.
W2260219453 cites W2102424187 @default.
W2260219453 cites W2102993514 @default.
W2260219453 cites W2104996733 @default.
W2260219453 cites W2108614024 @default.
W2260219453 cites W2110335719 @default.
W2260219453 cites W2115609745 @default.
W2260219453 cites W2115644752 @default.
W2260219453 cites W2119413567 @default.
W2260219453 cites W2120633445 @default.
W2260219453 cites W2121262376 @default.
W2260219453 cites W2125987139 @default.
W2260219453 cites W2134319051 @default.
W2260219453 cites W2136607014 @default.
W2260219453 cites W2138977668 @default.
W2260219453 cites W2139658905 @default.
W2260219453 cites W2146106215 @default.
W2260219453 cites W2147802916 @default.
W2260219453 cites W2148240831 @default.
W2260219453 cites W2156402178 @default.
W2260219453 cites W2157073241 @default.
W2260219453 cites W2159873771 @default.
W2260219453 cites W2165311122 @default.
W2260219453 cites W2166736855 @default.
W2260219453 cites W2168235673 @default.
W2260219453 cites W2169114436 @default.
W2260219453 cites W2407220173 @default.
W2260219453 cites W2421145636 @default.
W2260219453 cites W370246874 @default.
W2260219453 cites W4293084779 @default.
W2260219453 doi "https://doi.org/10.1139/cjpp-2015-0459" @default.
W2260219453 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27128322" @default.
W2260219453 hasPublicationYear "2016" @default.
W2260219453 type Work @default.
W2260219453 sameAs 2260219453 @default.
W2260219453 citedByCount "35" @default.
W2260219453 countsByYear W22602194532016 @default.
W2260219453 countsByYear W22602194532017 @default.
W2260219453 countsByYear W22602194532018 @default.
W2260219453 countsByYear W22602194532019 @default.
W2260219453 countsByYear W22602194532020 @default.
W2260219453 countsByYear W22602194532021 @default.
W2260219453 countsByYear W22602194532022 @default.
W2260219453 countsByYear W22602194532023 @default.
W2260219453 crossrefType "journal-article" @default.