Key Features
◉Precise analysis of Ca waves, transients, and E-C coupling
◉ >3000 FPS CMOS imaging with 95% QE and <1 e⁻ noise
◉ All-in-one system with dual-dye recording across 400–800 nm
◉ High-throughput Ca imaging in 10+ cells simultaneously
◉Precise sarcomere length measurement in single cells
A new video showcasing our Calcium and Contractility Mapping System on iPSC-CMs. It enables simultaneous, high-res measurement of Ca transients and contractility with advanced mapping features.
#cardiomyocyte #singlecell #mapping #calcium #electrophysiology #cardiology #ipsc
The electrical mapping system, featuring microelectrode arrays (MEAs), delivers high-resolution functional data with exceptional flexibility, making it a powerful tool for dynamic, real-time analysis of atrial fibrillation.
Demo video: youtu.be/S5gMZqp5N20
#cardiotwitter #AF
Here is a quick overview of the all-in-one turnkey Optical Mapping System for cardiac electrophysiology research.
Effortlessly record cardiac membrane potential, calcium transients, and more.
Feel free to reach out for more info!
#opticalmapping #cardiotwitter #Cardiology #arrhythmia #heart
Electrical Mapping System with microelectrode arrays (MEA) provide one of the best ways to study myocardial infarction and #arrhythmia. It can efficiently record massive electrical signals from the heart.
It works on cardiomyocytes too.
#electrophysiology #Langendorff #ipsc #heart #MappingLab
Discover how cardiac mapping techniques can be utilized for cardiac repair applications, offering powerful insights for functional studies.
Watch our case study presentation to learn more!
#electrophysiology #tissueengineering #heartrepair #regeneration #electricalmapping #opticalmapping
Always a pleasure to get back to #electrophysiology experiments!
With a pen-MEA placement on the heart, we can gather a wealth of data effortlessly - streamlining the entire process.
#electricalmapping #Langendorff #heart #ipsc #cardiotwitter #activationmap @MappingLab_EP
