A time-resolved experimental–mathematical model for predicting the response of glioma cells to single-dose radiation therapy | Zendy

Junyan Liu | Zendy; David A. Hormuth | Zendy; Tessa Davis | Zendy; Jianchen Yang | Zendy; Matthew T. McKenna | Zendy; Angela M. Jarrett | Zendy; Heiko Enderling | Zendy; Amy Brock | Zendy; Thomas E. Yankeelov | Zendy

Open Access

A time-resolved experimental–mathematical model for predicting the response of glioma cells to single-dose radiation therapy

Author(s) -

Junyan Liu,

David A. Hormuth,

Tessa Davis,

Jianchen Yang,

Matthew T. McKenna,

Angela M. Jarrett,

Heiko Enderling,

Amy Brock,

Thomas E. Yankeelov

Publication year - 2021

Publication title -

integrative biology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.853

H-Index - 70

eISSN - 1757-9708

pISSN - 1757-9694

DOI - 10.1093/intbio/zyab010

Subject(s) - concordance correlation coefficient , glioma , pearson product moment correlation coefficient , radiation therapy , biological system , correlation coefficient , standard deviation , correlation , radiation , coefficient of variation , nuclear medicine , mathematics , statistics , biology , medicine , physics , surgery , optics , geometry , cancer research

To develop and validate a mechanism-based, mathematical model that characterizes 9L and C6 glioma cells' temporal response to single-dose radiation therapy in vitro by explicitly incorporating time-dependent biological interactions with radiation.

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