OBJECTIVES: To determine whether Cyberknife technology can be applied to renal tissue safely and effectively. The goal was to achieve the high efficacy of a surgical treatment, with the low morbidity of a noninvasive intervention. METHODS: The Cyberknife is a frameless, image-guided radiosurgical device. This innovative extracorporeal treatment combines a linear accelerator mounted on a highly maneuverable robotic arm. The Cyberknife is unique in that it divides the high-dose radiation necessary to ablate the lesion completely into up to 1200 beams. Each one of these beams of radiation has a significantly reduced dose. Therefore, the individual dose of each beam is essentially benign to the pathway and surrounding tissue. However, at the focal point of these beams, the dose is additive, and the desired ablative dose is attained. Predetermined "lesions" in 16 kidneys were treated in vivo in the porcine model. Complete treatment was accomplished in one session per animal, with no complications. Gross and histologic evaluations were completed at 4, 6, or 8 weeks. RESULTS: The degree of radiation changes correlated with longer treatment intervals. After 8 weeks, the lesions showed complete fibrosis. The zones of complete fibrosis were characterized by dense, paucicellular connective tissue completely devoid of all normal kidney elements, including tubules and glomeruli. CONCLUSIONS: This initial preclinical evaluation of the Cyberknife for extracorporeal renal tissue ablation appears to be very promising and demonstrated its ability to ablate a targeted area precisely and completely with relative sparing of the surrounding tissue. This innovative technology introduces an exciting approach as a potential treatment option of renal masses in the future.
OBJECTIVES: To determine whether Cyberknife technology can be applied to renal tissue safely and effectively. The goal was to achieve the high efficacy of a surgical treatment, with the low morbidity of a noninvasive intervention. METHODS: The Cyberknife is a frameless, image-guided radiosurgical device. This innovative extracorporeal treatment combines a linear accelerator mounted on a highly maneuverable robotic arm. The Cyberknife is unique in that it divides the high-dose radiation necessary to ablate the lesion completely into up to 1200 beams. Each one of these beams of radiation has a significantly reduced dose. Therefore, the individual dose of each beam is essentially benign to the pathway and surrounding tissue. However, at the focal point of these beams, the dose is additive, and the desired ablative dose is attained. Predetermined "lesions" in 16 kidneys were treated in vivo in the porcine model. Complete treatment was accomplished in one session per animal, with no complications. Gross and histologic evaluations were completed at 4, 6, or 8 weeks. RESULTS: The degree of radiation changes correlated with longer treatment intervals. After 8 weeks, the lesions showed complete fibrosis. The zones of complete fibrosis were characterized by dense, paucicellular connective tissue completely devoid of all normal kidney elements, including tubules and glomeruli. CONCLUSIONS: This initial preclinical evaluation of the Cyberknife for extracorporeal renal tissue ablation appears to be very promising and demonstrated its ability to ablate a targeted area precisely and completely with relative sparing of the surrounding tissue. This innovative technology introduces an exciting approach as a potential treatment option of renal masses in the future.
Authors: Shankar Siva; Gargi Kothari; Alexander Muacevic; Alexander V Louie; Ben J Slotman; Bin S Teh; Simon S Lo Journal: Nat Rev Urol Date: 2017-06-20 Impact factor: 14.432
Authors: Maryellen R M Sun; Alexander Brook; Michael F Powell; Krithica Kaliannan; Andrew A Wagner; Irving D Kaplan; Ivan Pedrosa Journal: AJR Am J Roentgenol Date: 2016-03 Impact factor: 3.959
Authors: Price Jackson; Farshad Foroudi; Daniel Pham; Michael S Hofman; Nicholas Hardcastle; Jason Callahan; Tomas Kron; Shankar Siva Journal: Radiat Oncol Date: 2014-11-26 Impact factor: 3.481
Authors: Michael A Gorin; Vladislav Gorbatiy; Charles Glenn; Samir P Shirodkar; Scott M Castle; Merce Jorda; Raymond J Leveillee Journal: JSLS Date: 2012 Jan-Mar Impact factor: 2.172
Authors: Scott P Campbell; Daniel Y Song; Phillip M Pierorazio; Mohamad E Allaf; Michael A Gorin Journal: J Oncol Date: 2015-11-11 Impact factor: 4.375
Authors: Rohann J M Correa; Belal Ahmad; Andrew Warner; Craig Johnson; Mary J MacKenzie; Stephen E Pautler; Glenn S Bauman; George B Rodrigues; Alexander V Louie Journal: Radiat Oncol Date: 2018-03-20 Impact factor: 3.481