BioMimetics: Human Physiome on a Chip (6 month review)
Fluidic multiwell bioreactors are provided as a microphysiological platform for in vitro investigation of multi-organ crosstalks for an extended period of time of at least weeks and months. The disclosed platform is featured with one or more improvements over existing bioreactors, including on-board pumping for pneumatically driven fluid flow, a redesigned spillway for self-leveling from source to sink, a non-contact built-in fluid level sensing device, precise control on fluid flow profile and partitioning, and facile reconfigurations such as daisy chaining and multilayer stacking. The platform supports the culture of multiple organs in a microphysiological, interacted systems, suitable for a wide range of biomedical applications including systemic toxicity studies and physiology-based pharmacokinetic and pharmacodynamic predictions. A process to fabricate the disclosed bioreactors is also provided.
Researchers
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modular organ microphysiological system with integrated pumping, leveling, and sensing
European Patent Convention | Published application -
modular organ microphysiological system with integrated pumping; leveling, and sensing
United States of America | Granted | 10,876,088 -
modular organ microphysiological system with integrated pumping, leveling, and sensing
China | Granted | 0 -
modular organ microphysiological system with integrated pumping, leveling, and sensing
Japan | Granted | 6,942,361 -
modular organ microphysiological system with integrated pumping; leveling, and sensing
United States of America | Granted | 11,732,229
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