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Bo Lu
Researcher at California Institute of Technology
Publications - 33
Citations - 1500
Bo Lu is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Circulating tumor cell & Membrane. The author has an hindex of 16, co-authored 33 publications receiving 1404 citations. Previous affiliations of Bo Lu include University of Southern California.
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Journal ArticleDOI
3D microfilter device for viable circulating tumor cell (CTC) enrichment from blood
TL;DR: The paper presents and validates this new 3D microfiltration concept for circulation tumor cell enrichment application and provides a highly valuable tool for assessing and characterizing viable enriched circulating tumor cells in both research and clinical settings.
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A Cancer Detection Platform Which Measures Telomerase Activity from Live Circulating Tumor Cells Captured on a Microfilter
TL;DR: A novel cancer detection platform which measures telomerase activity from live CTCs captured on a parylene-C slot microfilter, capable of cell capture from 1 mL of whole blood in less than 5 minutes, achieving 90% capture efficiency, 90% cell viability, and 200-fold sample enrichment.
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CORRIGENDUM: Separable Bilayer Microfiltration Device for Viable Label-free Enrichment of Circulating Tumour Cells.
Ming Da Zhou,Sijie Hao,Anthony Williams,Ramdane Harouaka,Brett Schrand,Siddarth Rawal,Zheng Ao,Randall Brenneman,Eli Gilboa,Bo Lu,Shuwen Wang,Jiyue Zhu,Ram H. Datar,Richard J. Cote,Yu-Chong Tai,Siyang Zheng +15 more
TL;DR: In this paper, a separable Bilayer Microfiltration Device for Viable Label-free Enrichment of Circulating Tumour Cells was proposed for transplanting cancer cells.
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Mesh-supported submicron parylene-C membranes for culturing retinal pigment epithelial cells
TL;DR: The potential of the MSPM as an artificial Bruch’s membrane for RPE cell transplantation is demonstrated and it is found that parylene-C membranes with submicron thickness are semipermeable to macromolecules.
Journal ArticleDOI
A novel approach for subretinal implantation of ultrathin substrates containing stem cell-derived retinal pigment epithelium monolayer.
Yuntao Hu,Laura Liu,Bo Lu,Danhong Zhu,Ramiro Ribeiro,Bruno Diniz,Padmaja B. Thomas,Ashish Ahuja,David R. Hinton,Yu-Chong Tai,Sherry T. Hikita,Lincoln V. Johnson,Dennis O. Clegg,Biju B. Thomas,Mark S. Humayun +14 more
TL;DR: It is possible to implant ultrathin substrates containing an RPE monolayer into the rat’s subretinal space and this technique can be a useful approach for stem cell-based tissue bioengineering techniques in retinal transplantation research.