fKoch Institute / Massachusetts Institute of Technology / Johns Hopkins University / Harvard University / /
IndustryTerm
microfluidic device / similar power law dependence / power law relationship / microvortex-generating herringbone-chip / culture media / piranha solution / imaging / power law dependence / law dependence / microchip technology / power law coefficient / power law viscosity model / blank media / power law viscosity / distant site / scottm@media.mit.edu / cell solution / laser tool / /
MedicalCondition
ovarian cancer / both human lung adenocarcinoma cell lines / invasive cancer / lung cancer metastasis / metastasis / patient tumor / nonmetastatic and metastatic primary mouse lung adenocarcinomas / cultured murine tumor / epithelial lung cancer / hematologic diseases / adherent mouse lung cancer / mouse lung cancer / lung adenocarcinoma progression / non-small cell lung cancer / intratracheal lentiviral-Cre infection / head and neck cancer / breast cancer / CELL BIOLOGY Metastasis / mouse lymphoblastic leukemia / tumor / cancer / tumors / human lung cancer / human cancer / tumour / HCC827 human lung cancer / human lung adenocarcinoma cell line / EGFR mutant lung cancer / lung cancer / tumor cells / Stand Up to Cancer / pulmonary capillaries / Mouse lung cancer cells / /
Organization
The Johns Hopkins University / Harvard University / Stanford University School of Medicine / Massachusetts Institute of Technology / Systems Biology Initiative / ePhysics / hBiology / and fKoch Institute for Integrative Cancer Research / Stanford / /
Person
Scott R. Manalisa / Josephine Shawa / Parag Mallickc / Nathan Cermakd / Dario Amodeic / Vivian C. Hechta / Monte M. Winslowf / Joon Ho Kange / Sungmin Sonb / Tyler Jacksf / /
Position
Butler / Fisher / pg Author / /
Product
penicillin / /
ProvinceOrState
Vermont / North Carolina / California / Massachusetts / /