Structural organization and functional analysis of compound responses in 3D human iPSC-derived cardiac tri-culture microtissues
Learn more3D models for cardiotoxicity
Learn moreToxicity studies of iPSC-derived cardiomyocytes and neuronal spheroids
Learn moreCiPA initiative and validation of high-throughput methods to characterize compound effects in human iPSC-derived cardiomyocytes on the FLIPR Penta system
Learn more(On-demand webinar) FLIPR in drug discovery: Ion channel screening and cardiac safety testing
Learn moreHigh-throughput screening for in vitro potency evaluation of cardiac ion channel inhibitors on the FLIPR Tetra® System
Learn moreInnovative GPCR and Ion Channel Assays for the FLIPR Tetra System
Learn moreOptogenetics and the FLIPR: How to Use Light to Set up a Cav1.3 High-Throughput Screening Assay
Learn moreInnovative Assays for the FLIPR Tetra System
Learn moreStemoniX microBrain 3D Assay Ready Plates for HTS
Learn moreNew FLIPR® Penta High-Throughput Cellular Screening System allows you to measure and analyze peaks of human-derived induced pluripotent stem cells (hiPSCs), differentiated into cardiomyocytes and neurons, up to 100 times per second and quickly cherry pick events such as Early Afterdepolarization-like events (EAD-like events), fibrillation, and irregular beating.
Learn moreCiPA initiative & validation of high-throughput methods to characterize compound effects
Implementing 3D Neural Spheroids in Drug Discovery
Optogenetics and the FLIPR: How to Use Light to Set up a Cav1.3 High-Throughput Screening Assay
Latest Advances in Calcium Flux Assays