Haemostatic partial nephrectomy using bipolar radiofrequency ablation
Article first published online: 13 OCT 2005
Volume 96, Issue 7, pages 1101–1104, November 2005
How to Cite
Pareek, G., Wilkinson, E. R., Schutt, D., Will, J. A., Warner, T. F., Haemmerich, D., Mahvi, D. and Nakada, S. Y. (2005), Haemostatic partial nephrectomy using bipolar radiofrequency ablation. BJU International, 96: 1101–1104. doi: 10.1111/j.1464-410X.2005.05743.x
- Issue published online: 13 OCT 2005
- Article first published online: 13 OCT 2005
- Accepted for publication 5 June 2005
- radiofrequency ablation;
- partial nephrectomy;
To determine whether an electrode array with a bipolar radiofrequency ablation (RFA) energy source can be used to perform a haemostatic partial nephrectomy by simultaneously ablating and coagulating renal tissue.
MATERIALS AND METHODS
Lower-pole partial nephrectomy was performed in 12 porcine kidneys using a bipolar RFA system. Intraoperative ultrasonography was used to identify and avoid the collecting system. Tissues were positioned between opposing electrodes and tissue impedance monitored using a proprietary feedback and control algorithm. Ablation time and power, lesion width and length, and tissue thickness were recorded. The kidneys were assessed in vivo to show haemostasis of the remaining renal unit. Collecting system integrity was assessed with methylene blue injection, and the resected tissue analysed histologically.
Partial nephrectomies were successful in all 12 porcine kidneys; the mean nephrectomy specimen was 3.2 × 2.6 cm. The total ablation time (sem) per lesion was 211 (15) s and the mean power was 23 W. Methylene blue injection showed an intact collecting system in 11 of the 12 kidneys, and haematoxylin and eosin staining showed a mean zone of necrosis of 9 mm at the resection margin. Ultrasonography revealed flow to the remaining kidneys after RFA and the in vivo assessment of haemostasis revealed no abnormal bleeding or haemorrhage from the kidneys.
Applying bipolar RF energy to an electrode array can enable transmural excision of renal parenchyma in vivo in a bloodless fashion without collecting system injury.