Applied BioPhysics, Inc.
Applied BioPhysics, Inc. applies the results of biophysical research to provide practical tools for cell research and drug discovery.
ECIS™ or Electric Cell-substrate Impedance Sensing is an impedance based method to study many of the activities of animal cells when grown in tissue culture in real-time. These include morphological changes, cell locomotion, and other behaviors directed by the cell’s cytoskeleton. ECIS™ technology was invented by Drs. Ivar Giaever and Charles R. Keese while working at General Electric Corporate Research and Development, but its commercial potential was not explored as it fell outside of GE’s core interests. In 1991, as the applications of the technology became more apparent, Drs Giaever and Keese formed Applied BioPhysics, Inc. as a private company to develop, commercialize and market ECIS™ and other biophysical technologies. Applied BioPhysics is located next to the Rensselaer Polytechnic Institute campus, where several collaborative research projects are ongoing in the academic laboratories.
All Applied BioPhysics, Inc. products
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ECIS® Z-Theta
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ECIS® 8-well Transfilter Array
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ECIS® TEERZ 24/96 Well TEER Measurement Station
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ECIS® TEERZ 24/96 Well TEER Measurement System
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16 Well Array Station for use with ECIS Z-Theta
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96 Well Array Station for use with ECIS Z-Theta
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ECIS 2 well chamber with 4 independent sets of 10 circular electrodes (0.49 sqr.mm total area) per well. Lexan substrate
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ECIS 8 well chamber with 2 independent (0.049 sqr.mm ) electrodes per well. (4 wells addressable at a time) Lexan substrate
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ECIS 8 well chamber with 2 independent (0.049 sqr.mm ) electrodes per well. (4 wells addressable at a time) PET substrate
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ECIS 8 well chamber with 2 linear electrodes (0.20 sqr.mm total area). Lexan substrate
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ECIS 8 well chamber with 2 linear electrodes (0.20 sqr.mm total area). PET substrate
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ECIS 8 well chamber with 40 circular electrodes (1.96 sqr.mm ) Lexan substrate