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W2050323177 endingPage "46" @default.
W2050323177 startingPage "32" @default.
W2050323177 abstract "Given the hazardous nature of many materials and substances, ocular toxicity testing is required to evaluate the dangers associated with these substances after their exposure to the eye. Historically, animal tests such as the Draize test were exclusively used to determine the level of ocular toxicity by applying a test substance to a live rabbit’s eye and evaluating the biological response. In recent years, legislation in many developed countries has been introduced to try to reduce animal testing and promote alternative techniques. These techniques include ex vivo tests on deceased animal tissue, computational models that use algorithms to apply existing data to new chemicals and in vitro assays based on two dimensional (2D) and three dimensional (3D) cell culture models. Here we provide a comprehensive overview of the latest advances in ocular toxicity testing techniques, and discuss the regulatory framework used to evaluate their suitability." @default.
W2050323177 created "2016-06-24" @default.
W2050323177 creator A5067634797 @default.
W2050323177 creator A5081350248 @default.
W2050323177 creator A5085641393 @default.
W2050323177 date "2015-01-01" @default.
W2050323177 modified "2023-10-11" @default.
W2050323177 title "An overview of current techniques for ocular toxicity testing" @default.
W2050323177 cites W1251710288 @default.
W2050323177 cites W131608565 @default.
W2050323177 cites W138521902 @default.
W2050323177 cites W1495550300 @default.
W2050323177 cites W160357853 @default.
W2050323177 cites W1964066906 @default.
W2050323177 cites W1965763927 @default.
W2050323177 cites W1966084369 @default.
W2050323177 cites W1968302891 @default.
W2050323177 cites W1970861836 @default.
W2050323177 cites W1972136007 @default.
W2050323177 cites W1972786380 @default.
W2050323177 cites W1975469945 @default.
W2050323177 cites W1978761477 @default.
W2050323177 cites W1979143933 @default.
W2050323177 cites W1980830273 @default.
W2050323177 cites W1981013532 @default.
W2050323177 cites W1983195942 @default.
W2050323177 cites W1984788884 @default.
W2050323177 cites W1989608005 @default.
W2050323177 cites W1994674706 @default.
W2050323177 cites W2000902592 @default.
W2050323177 cites W2002280961 @default.
W2050323177 cites W2002344544 @default.
W2050323177 cites W2003411526 @default.
W2050323177 cites W2004488008 @default.
W2050323177 cites W2008171426 @default.
W2050323177 cites W2008622106 @default.
W2050323177 cites W2009451101 @default.
W2050323177 cites W2014579944 @default.
W2050323177 cites W2014628254 @default.
W2050323177 cites W201582412 @default.
W2050323177 cites W2020106098 @default.
W2050323177 cites W2021512887 @default.
W2050323177 cites W2022775247 @default.
W2050323177 cites W2025389714 @default.
W2050323177 cites W2026393983 @default.
W2050323177 cites W2028395209 @default.
W2050323177 cites W2033989818 @default.
W2050323177 cites W2034451386 @default.
W2050323177 cites W2034604922 @default.
W2050323177 cites W2035603658 @default.
W2050323177 cites W2036170607 @default.
W2050323177 cites W2040107117 @default.
W2050323177 cites W2042478318 @default.
W2050323177 cites W2048336201 @default.
W2050323177 cites W2048387222 @default.
W2050323177 cites W2050485636 @default.
W2050323177 cites W2051229968 @default.
W2050323177 cites W2051663024 @default.
W2050323177 cites W2053583565 @default.
W2050323177 cites W2055139893 @default.
W2050323177 cites W2055718658 @default.
W2050323177 cites W2057085040 @default.
W2050323177 cites W2061076031 @default.
W2050323177 cites W2063321046 @default.
W2050323177 cites W2063784938 @default.
W2050323177 cites W2063859424 @default.
W2050323177 cites W2066687101 @default.
W2050323177 cites W206940052 @default.
W2050323177 cites W2072754176 @default.
W2050323177 cites W2076111934 @default.
W2050323177 cites W2078022305 @default.
W2050323177 cites W2078256709 @default.
W2050323177 cites W2079544843 @default.
W2050323177 cites W2086034476 @default.
W2050323177 cites W2086523668 @default.
W2050323177 cites W2088060002 @default.
W2050323177 cites W2088686339 @default.
W2050323177 cites W2091161813 @default.
W2050323177 cites W2091190702 @default.
W2050323177 cites W2091678462 @default.
W2050323177 cites W2093750187 @default.
W2050323177 cites W2093808180 @default.
W2050323177 cites W2094882235 @default.
W2050323177 cites W2095247301 @default.
W2050323177 cites W2095507569 @default.
W2050323177 cites W2111225402 @default.
W2050323177 cites W2132197432 @default.
W2050323177 cites W2149565435 @default.
W2050323177 cites W2153043774 @default.
W2050323177 cites W2159141432 @default.
W2050323177 cites W2164561539 @default.
W2050323177 cites W2166595819 @default.
W2050323177 cites W2172177595 @default.
W2050323177 cites W2740226760 @default.
W2050323177 cites W2936070105 @default.
W2050323177 cites W4255789809 @default.
W2050323177 cites W47472157 @default.
W2050323177 doi "https://doi.org/10.1016/j.tox.2014.11.003" @default.