Time, Temperature, Power, and Impedance Considerations for Radiofrequency Catheter Renal Denervation

Abstract

Radio frequency (RF) based percutaneous catheter renal denervation systems offer an additional clinical tool, along with lifestyle modification and drug therapy, to address the global epidemic of uncontrolled hypertension. The most widely applied RF system has been designed to optimize both procedural and safety and efficacy. Lesion size, shape, and depth result from a complex interaction of device design, anatomy, and tissue electrical conduction properties. Power control algorithms must be carefully designed, incorporating feedback to maximize nerve destruction while minimizing collateral damage. Physical and numerical modelling as well as analysis of sensor feedback provide insight into design performance that cannot be derived from clinical trials. This review is focused on key design and performance aspects of the most widely applied renal denervation system meant to optimize safety and efficacy of the procedure.

Keywords: Blood pressure; Computational modelling; Radio frequency; Renal denervation.