Litcius/Paper detail

Three-dimensional microscale hanging drop arrays with geometric control for drug screening and live tissue imaging

Anurup Ganguli, Ariana Mostafa, Carlos Saavedra, Yongdeok Kim, Phuong Le, Vahid Faramarzi, Ryan W. Feathers, Jacob Berger, Karla P. Ramos-Cruz, Olaoluwa O. Adeniba, Gustavo Diaz, Jenny Drnevich, Chris Wright, Alvaro G. Hernandez, Wen-Wei Lin, Andrew M. Smith, Farhad Kosari, George Vasmatzis, Panos Z. Anastasiadis, Rashid Bashir

2021Science Advances67 citationsDOIOpen Access PDF

Abstract

Existing three-dimensional (3D) culture techniques are limited by trade-offs between throughput, capacity for high-resolution imaging in living state, and geometric control. Here, we introduce a modular microscale hanging drop culture where simple design elements allow high replicates for drug screening, direct on-chip real-time or high-resolution confocal microscopy, and geometric control in 3D. Thousands of spheroids can be formed on our microchip in a single step and without any selective pressure from specific matrices. Microchip cultures from human LN229 glioblastoma and patient-derived mouse xenograft cells retained genomic alterations of originating tumors based on mate pair sequencing. We measured response to drugs over time with real-time microscopy on-chip. Last, by engineering droplets to form predetermined geometric shapes, we were able to manipulate the geometry of cultured cell masses. These outcomes can enable broad applications in advancing personalized medicine for cancer and drug discovery, tissue engineering, and stem cell research.

Topics & Concepts

Microscale chemistryDrop (telecommunication)ThroughputNanotechnologyMaterials scienceDrugBiomedical engineeringDrug detectionComputer scienceChemistryEngineeringBiologyChromatographyWirelessMathematicsTelecommunicationsMathematics educationPharmacology3D Printing in Biomedical ResearchMicrofluidic and Bio-sensing TechnologiesInnovative Microfluidic and Catalytic Techniques Innovation