Current status and future perspectives on robot-assisted kidney autotransplantation: A literature review
- PMID: 38366752
- DOI: 10.1111/iju.15426
Current status and future perspectives on robot-assisted kidney autotransplantation: A literature review
Abstract
This review presents the latest insights on robot-assisted kidney autotransplantation (RAKAT). RAKAT is a minimally invasive surgical procedure and represents a promising alternative to conventional laparoscopic nephrectomy followed by open kidney transplantation for the treatment of various complex urological and vascular conditions. RAKAT can be performed either extracorporeally or intracorporeally. Additionally, a single-port approach can be performed through one small incision without the need to reposition the patient. Of 86 patients undergoing RAKAT, 8 (9.3%) developed postoperative > Grade 2 Clavien-Dindo (CD) complications. Although the feasibility of RAKAT was established in 2014, the long-term efficacy and safety along with outcomes of this surgical approach are still being evaluated, and additional studies are needed. With improvements in the technology of RAKAT and as surgeons gain more experience, RAKAT should become increasingly used and further refined, thereby leading to improved surgical outcomes and improved patients' quality of life.
Keywords: autotransplantation; kidney transplantation; laparoscopy; minimally invasive surgery; robot‐assisted surgery.
© 2024 The Japanese Urological Association.
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References
REFERENCES
-
- Hardy JD. High ureteral injuries. Management by autotransplantation of the kidney. JAMA. 1963;184:97–101.
-
- Fabrizio MD, Kavoussi LR, Jackman S, Chan DY, Tseng E, Ratner LE. Laparoscopic nephrectomy for autotransplantation. Urology. 2000;55:145.
-
- Azhar B, Patel S, Chadha P, Hakim N. Indications for renal autotransplant: an overview. Exp Clin Transplant. 2015;13:109–114.
-
- Hoznek A, Zaki SK, Samadi DB, Salomon L, Lobontiu A, Lang P, et al. Robotic assisted kidney transplantation: an initial experience. J Urol. 2002;167:1604–1606.
-
- Giulianotti P, Gorodner V, Sbrana F, Tzvetanov I, Jeon H, Bianco F, et al. Robotic transabdominal kidney transplantation in a morbidly obese patient. Am J Transplant. 2010;10:1478–1482.
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