Protocol for high throughput 3D drug screening of patient derived melanoma and renal cell carcinoma
Author:
Publisher
Elsevier BV
Subject
Molecular Medicine,Biochemistry,Analytical Chemistry,Biotechnology
Reference23 articles.
1. Advanced development of primary pancreatic organoid tumor models for high-throughput phenotypic drug screening;Hou;SLAS Discov,2018
2. Application of cancer organoid model for drug screening and personalized therapy;Kondo;Cells,2019
3. Development of a miniaturized 3D organoid culture platform for ultra-high-throughput screening;Du;J Mol Cell Biol,2020
4. In vitro and in vivo drug-response profiling using patient-derived high-grade Glioma;Rajan;Cancers,2023
5. Automating a magnetic 3D spheroid model technology for high-throughput screening;Baillargeon;SLAS Technol,2019
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