PURPOSE: Although ablative technologies, including radio frequency (RF) ablation (RFA) and cryoablation (CA), are being used to treat renal masses, complications associated with injury to vital renal structures are not well understood. We investigated these worst case scenarios by deliberately targeting vital renal structures with CA or RFA in a porcine model. MATERIALS AND METHODS: Following surgical exposure of the right kidney in female pigs a cryoneedle or an RF probe was deliberately placed under visual and ultrasound guidance in the renal pelvis (CA in 5 pigs and RFA in 7), major calix (CA and RFA in 5 each) or subsegmental renal vessels (CA in 5 pigs and RFA in 7). Cryo-energy or RF energy was then applied to create a 3 cm lesion. After 10 days the kidneys underwent gross and histological examination for urine and blood extravasation, cell death and injury. Ex vivo retrograde pyelography was performed to evaluate for urinary fistulas. RESULTS: All pigs tolerated the treatment and no procedure related deaths occurred. No significant bleeding was noted. RFA and CA created reproducible lesions and areas of cell death and necrosis. Despite significant intentional injury to the collecting system no urinary fistulas were demonstrated in CA specimens (0 of 15). In contrast, damage to the renal pelvis (4 of 7) by dry (3 of 4) or wet (1 of 3) RFA was associated with a high likelihood of urinary extravasation. CONCLUSIONS: This short-term study demonstrates that CA is safe, effective and not associated with urinary extravasation. In contrast, RFA to the renal pelvis is associated with urinary extravasation. Further studies are needed to support these findings.
PURPOSE: Although ablative technologies, including radio frequency (RF) ablation (RFA) and cryoablation (CA), are being used to treat renal masses, complications associated with injury to vital renal structures are not well understood. We investigated these worst case scenarios by deliberately targeting vital renal structures with CA or RFA in a porcine model. MATERIALS AND METHODS: Following surgical exposure of the right kidney in female pigs a cryoneedle or an RF probe was deliberately placed under visual and ultrasound guidance in the renal pelvis (CA in 5 pigs and RFA in 7), major calix (CA and RFA in 5 each) or subsegmental renal vessels (CA in 5 pigs and RFA in 7). Cryo-energy or RF energy was then applied to create a 3 cm lesion. After 10 days the kidneys underwent gross and histological examination for urine and blood extravasation, cell death and injury. Ex vivo retrograde pyelography was performed to evaluate for urinary fistulas. RESULTS: All pigs tolerated the treatment and no procedure related deaths occurred. No significant bleeding was noted. RFA and CA created reproducible lesions and areas of cell death and necrosis. Despite significant intentional injury to the collecting system no urinary fistulas were demonstrated in CA specimens (0 of 15). In contrast, damage to the renal pelvis (4 of 7) by dry (3 of 4) or wet (1 of 3) RFA was associated with a high likelihood of urinary extravasation. CONCLUSIONS: This short-term study demonstrates that CA is safe, effective and not associated with urinary extravasation. In contrast, RFA to the renal pelvis is associated with urinary extravasation. Further studies are needed to support these findings.
Authors: Young Hwii Ko; Hoon Choi; Sung Gu Kang; Hong Seok Park; Jeong Gu Lee; Je Jong Kim; Seok Ho Kang; Jun Cheon Journal: J Laparoendosc Adv Surg Tech A Date: 2010-05 Impact factor: 1.878
Authors: Roberto Luigi Cazzato; Julien Garnon; Nitin Ramamurthy; Guillaume Koch; Georgia Tsoumakidou; Jean Caudrelier; Francesco Arrigoni; Luigi Zugaro; Antonio Barile; Carlo Masciocchi; Afshin Gangi Journal: Med Oncol Date: 2016-11-11 Impact factor: 3.064
Authors: Se Hong Park; Seok Ho Kang; Young Hwii Ko; Sung Gu Kang; Hong Seok Park; Du Geon Moon; Jeong Gu Lee; Je Jong Kim; Jun Cheon Journal: Korean J Urol Date: 2010-08-18
Authors: Young Hwii Ko; Hong Seok Park; Du Geon Moon; Jeong Gu Lee; Je Jong Kim; Duck Ki Yoon; Seok Ho Kang; Jun Cheon Journal: Cancer Res Treat Date: 2008-12-31 Impact factor: 4.679