ABOUT

CARDIOSOLV™: A NEW PARADIGM FOR VT ABLATION
VT associated with myocardial infarction is a life threatening arrhythmia that poses a challenging clinical problem.
CURRENT METHODS

Success of current VT ablation methods is modest:
-Requires extensive time-consuming point by-point sampling of voltage
-Ambiguity in correlating voltage maps with anatomy
-Patients' hemodynamic instability during VT makes accurate mapping difficult
-Complex 3D nature of reentrant circuits prevents correct identification of the optimal sites of ablation
-Incomplete understanding of the role of infarct morphology in monomorphic VT

CARDIOSOLV™
CardioSolv™ uses proprietary software and algorithms to:
-Reconstruct heart and infarct morphology using pre-operative imaging
-Conduct an analysis of VT circuits and filaments and predict locations and extent of ablation targets
-Register model geometry and predicted ablation target with the image of the heart
-Use CardioSolv's patient-specific model to guide VT ablation therapy
VT ABLATION SUCCESS

CardioSolv™ seeks to:
-Improve outcomes of patients who undergo VT ablation procedures
-Reduce procedure time and cost
IMPROVED OUTCOMES + REDUCED PROCEDURE TIMES