Dr. Bradley Palmer demonstrates the challenging preparation of cardiac tissue slices and measurement of force and calcium.

A video tutorial demonstrating operation of the IonOptix C-Pace EM culture stimulator.

A short video showing a mouse cardiac slice performing work loops at 4 Hz.

An example of a rat cardiac slice undergoing a force-length work loop, which is analogous to the pressure volume work loop of the whole heart.

This short video showug a rat cardiac slice muscle undergoing a work loop generated using force feedback.

A video tutorial demonstrating cardiac slice preparation.

Dr. Joe Soughayer and Dr. Adam Veteto provide an in-depth overview of excitation-contraction (E-C) coupling in cardiomyocytes and the tools to characterize this.

Patrick Schönleitner, PhD and Francisco Altamirano, PhD present their work involving simultaneous measurements of intracellular calcium, membrane voltage, and contractility of cardiomyocytes.

Understand how to acquire and analyze contractility data from iPSC-derived cardiomyocytes.

From myocyte isolation to data acquisition, analysis, and post-analysis plotting, Dr. Michiel Helmes and Dr. Diederik Kuster demonstrate best practices and new techniques in high-content, higher throughput investigations of excitation-contraction coupling in isolated cardiomyocytes.

A video tutorial demonstrating papillary muscle isolation from a rat heart.

A video tutorial highlighting murine cardiomyocyte isolation protocol and techniques.

A video tutorial highlighting experiment design in IonWizard.

A video tutorial highlighting best practices for data acquisition of calcium and contractility data.

A simple video tutorial highlighting analysis of calcium and contractility data using IonWizard.

A simple video tutorial highlighting analysis of calcium and contractility data using IonWizard.

A simple video tutorial highlighting analysis of calcium and contractility data using IonWizard.

In this Q&A video series, experts address your best questions and greatest challenges with regards to cardiomyocyte isolation, purification, culture and analysis.

New technology now provides investigators the ability to reliably attach myocytes, mechanically stretch them, make direct force measurements and control cell length intelligently. This webinar reviews best-practices and techniques for attaching, stretching, and studying isolated cells.

A special webinar for basic cardiovascular researchers interested in a novel technique for measuring work output and replicating the four phases of the cardiac cycle at the single cell level.