Regulating temperature and relative humidity in air–liquid interface in vitro systems eliminates cytotoxicity resulting from control air exposures | Zendy

Jose Zavala | Zendy; Rebecca Greenan | Zendy; Q. Todd Krantz | Zendy; David M. DeMarini | Zendy; Mark Higuchi | Zendy; M. Ian Gilmour | Zendy; Paul A. White | Zendy

Open Access

Regulating temperature and relative humidity in air–liquid interface in vitro systems eliminates cytotoxicity resulting from control air exposures

Author(s) -

Jose Zavala,

Rebecca Greenan,

Q. Todd Krantz,

David M. DeMarini,

Mark Higuchi,

M. Ian Gilmour,

Paul A. White

Publication year - 2017

Publication title -

toxicology research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.709

H-Index - 31

eISSN - 2045-4538

pISSN - 2045-452X

DOI - 10.1039/c7tx00109f

Subject(s) - relative humidity , humidity , cytotoxicity , in vitro , air temperature , interface (matter) , environmental science , materials science , chemistry , composite material , atmospheric sciences , meteorology , biochemistry , physics , capillary number , capillary action

Modifications to a VITROCELL exposure system were required to mitigate cytotoxicity caused by the absence of temperature and humidity control.

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