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This webinar will present the cardiac slice model for examining myocardial function and showcase techniques and results from a cardiomyopathy mouse model.
IonOptix and Sarcometrics announce a new strategic partnership combining IonOptix’s industry leading research instruments with Sarcometrics’s expertise in experimental design and data acquisition, analysis, and result interpretation.
In this online demonstration, Dr. Adam Veteto shows how to successfully acquire force, resting sarcomere length, and calcium data from cardiac slices, including tips and best practices.
In this webinar, our speakers show investigations utilizing cardiac slices highlighting the Frank-Starling relationship, the relationship between microtubule network remodeling and diastolic stiffness/dysfunction, and engineered heart tissue as an alternative to the cardiac slice preparation.
In this webinar, Dr. Bradley Palmer shows how to successfully prepare cardiac slices for measurements of force and calcium, as well as work loops and stress and strain. Data analysis and interpretation will also be demonstrated.
In this webinar, Dr. Soughayer and Dr. Veteto will present tools to characterize E-C coupling in isolated adult cardiomyocytes and iPSC-/ESC-derived cardiomyocytes. They will describe how these tools work and how they quantify important functional outputs describing the speed and amplitude of calcium release and reuptake, as well as downstream myocyte shortening and relengthening. Real world examples of data collection, analysis, and interpretation will also be shown.
Join us for a live demo! We’ll show measurements through a range of pacing frequencies (1-4Hz) as well as pre- and post-isoproterenol treatment using our CytoMotion software and MultiCell system. After acquisition, we’ll show how to analyze and visualize data using our CytoSolver analysis.
During this live webinar, Michiel Helmes and Diederik Kuster will deliver a comprehensive how-to demonstration of higher throughput excitation-contraction coupling investigations with isolated cardiomyocytes.
This case study demonstrates the feasibility of simultaneous voltage, calcium, and contractility recordings in single isolated cardiomyocytes using our MultiCell system.
This case study shines a spotlight on the value of MultiCell's mark-and-find functionality. Data that used to take weeks is collected in hours.
