Radiofrequency perforation of the pulmonary valve: an efficient low cost solution

Abstract

Objective The aim of the study was to assess the feasibility of using commonly available catheterization laboratory equipment for radiofrequency perforation of the pulmonary valve in patients with pulmonary atresia and intact ventricular septum.

Methods The system (off-label use for all items) is made up of a co-axial telescopic arrangement consisting of a 0.014" PT2 ™ coronary guidewire, for insulation inside a 2.7-F microcatheter which has an inner lumen of 0.021". The microcatheter was passed via a standard 4-F right coronary catheter to just below the atretic pulmonary valve. Radiofrequency (RF) energy was delivered using a standard electrosurgical system. In vitro testing had been performed and indicated that 5-10 W for 2-5 s would be sufficient for valve perforation.

Results Radiofrequency perforation was successfully performed in all (n = 5, 100%) patients at a median age of 3 days (range: 1-36) and weight 2.7 kg (range 2.3-3.0). In one patient the pericardium was entered during the initial attempt; the generator was put on coagulation mode during retrieval of the guidewire and no haemopericardium occurred. The pulmonary valve was dilated in all; in three patients (n = 3) the ductus arteriosus was stented during the same session.

Conclusion Results of the study show that it is feasible to perforate the pulmonary valve safely using this system. Availability, simplicity and cost are noteworthy benefits.

Keywords::

• Pulmonary atresia-intact septum
• radiofrequency
• perforation
• angioplasty
• guidewire

ACKNOWLEDGEMENTS

This work was supported by grants from the Eddy Merckx Research Foundation and a Sporta MonVentoux Research grant.

CONFLICT OF INTEREST

none declared.