Century Erwin van Vliet Johns Hopkins University / /
IndustryTerm
throughput technologies / gene imaging / chemical space / test systems / biotechnology / in vivo imaging data / explore in vitro bioluminescence imaging applications / differentiation protocols / pharmaceutical industry / industrial chemicals / important technology / biological systems / large chemical space / content imaging approaches / throughput systems / data mining / optical-based molecular imaging / fluorescence imaging / media suspensions / chemical exposure / untested chemicals / imaging / chemical and toxicological properties / trans20 port systems / pluripotent stem cell applications / embryonic and adult human stem cell applications / main biological systems / test chemicals / stem cell applications / target site / chemical-induced effects / chemical toxicity / consumer products / human stem cell applications / knock-out technologies / environmental chemicals / environmental chemicals ranges / in vitro systems / bioluminescence imaging / content imaging applications / non-mammalian model systems / drug discovery applications / cellular response networks / cell applications / chemical / well-characterized chemicals / differentiation protocol / flow cytometric technology / chemical exposures / throughput applications / chemicals / in vitro test systems / /
MedicalCondition
neurodegenerative disease / human skin irritation / central necrosis / rabbit skin irritation / ventricular arrhythmia / disease / /
Organization
National Research Council / Center for Alternatives / U.S. Environmental Protection Agency / Johns Hopkins University / National Academy of Sciences / Bloomberg School of Public Health / /
Person
Truman / Erwin van Vliet / Fernandez-Suarez / /
Position
Walker / suitable model for high throughput screening / relevant model for testing genotoxicity / messenger / Fisher / reporter / /