Litcius/Paper detail

A versatile pumpless multi-channel fluidics system for maintenance and real-time functional assessment of tissue and cells

Varun Kamat, Matthew K. Grumbine, Khang Bao, Kedar Mokate, Gamal Khalil, Daniel Cook, Brandon Clearwater, Richard Hirst, Jarrod C. Harman, Myriam Boeck, Zhongjie Fu, Lois E. H. Smith, Moloy T. Goswami, Thomas J. Wubben, Emily M. Walker, Jie Zhu, Scott A. Soleimanpour, Jarrad M. Scarlett, Brian M. Robbings, Daniel T. Hass, James B. Hurley, Ian R. Sweet

2023Cell Reports Methods14 citationsDOIOpen Access PDF

Abstract

To address the needs of the life sciences community and the pharmaceutical industry in pre-clinical drug development to both maintain and continuously assess tissue metabolism and function with simple and rapid systems, we improved on the initial BaroFuse to develop it into a fully functional, pumpless, scalable multi-channel fluidics instrument that continuously measures changes in oxygen consumption and other endpoints in response to test compounds. We and several other laboratories assessed it with a wide range of tissue types including retina, pancreatic islets, liver, and hypothalamus with both aqueous and gaseous test compounds. The setup time was less than an hour for all collaborating groups, and there was close agreement between data obtained from the different laboratories. This easy-to-use system reliably generates real-time metabolic and functional data from tissue and cells in response to test compounds that will address a critical need in basic and applied research.

Topics & Concepts

Computer scienceBiomedical engineeringScalabilityBiochemical engineeringFluidicsMedicineEngineeringDatabaseAerospace engineeringPancreatic function and diabetesMicrofluidic and Capillary Electrophoresis Applications3D Printing in Biomedical Research