Donor robotic-assisted laparoscopy for uterus transplantation.

OBJECTIVE: Uterine transplantation has proven to be a viable solution in cases of absolute uterine factor infertility. Performing uterine explant surgery is one of the most difficult gynecologic surgical challenges owing to the complexity of the uterine vascular system. The goal of this video is to demonstrate uterine explant surgery and highlight the critical anatomy involved in this procedure. DESIGN: In this video, we display, narrate, and illustrate key portions of right pelvic dissection, which was subsequently performed bilaterally to achieve hysterectomy from a living donor for the purpose of uterine transplantation. SETTING: University hospital. PATIENT(S): The donor was a 39-year-old woman, and the receptor sister suffers from Rokitansky syndrome. A careful right site pelvic dissection was visualized in this operation during a hysterectomy with the aim of performing a uterine graft implantation in a living donor (Research Ethics Committee and the Assistance Ethics Committee of Hospital Clínic de Barcelona [HCB/2016/0111] and Bioethics Committee of Catalunya Study included in ClinicalTrials.org registry [NCT04314869]). INTERVENTION(S): The donor's surgery was performed entirely using robotic surgery (DaVinci Xi, Intuitive Survival Inc.). MAIN OUTCOME MEASURE(S): Assessment of uterine graft transplant viability. RESULT(S): Good quality arterial and venous pedicles were obtained during the surgery. The difficulty of this procedure is the extensive vascular dissection that has to be done to isolate the veins that drain the uterus until the hypogastric vein. CONCLUSION(S): Pelvic anatomy dissection for obtaining the graft from the donor in uterus transplantation is complex, and robotic-assisted laparoscopic surgery may help to provide a clear and more precise visualization.

Role of the three-dimensional printing technology incomplex laparoscopic renal surgery: a renal tumor in a horseshoe kidney.

PURPOSE: To report our initial experience using a patient-specific 3D-printed renal tumor model for the surgical planning of a complex heminephrectomy in a horseshoe kidney. MATERIALS AND METHODS: We selected a clinical case for a complex laparoscopic surgery consisting in a 53 year-old male presenting a local recurrence of a renal tumor in a horseshoe kidney with aberrant vascularisation previously treated with a laparoscopic partial nephrectomy. He is now proposed for a laparoscopic left heminephrectomy. Along with conventional imaging, a real-size 3D-printed renal model was used to plan de surgical approach. The perioperative experience of the surgical team was recorded. RESULTS: The surgical team found the patient-specifi c 3D printed model useful for a better understanding of the anatomy and an easier surgical planning. CONCLUSION: The use of patient-specifi c 3D-printed renal models seem to be helpful for the surgical planning in complex renal tumors.

Role of the three-dimensional printing technology in complex laparoscopic renal surgery: a renal tumor in a horseshoe kidney

ABSTRACT Purpose: To report our initial experience using a patient-specific 3D-printed renal tumor model for the surgical planning of a complex heminephrectomy in a horseshoe kidney. Materials and Methods: We selected a clinical case for a complex laparoscopic surgery consisting in a 53 year-old male presenting a local recurrence of a renal tumor in a horseshoe kidney with aberrant vascularisation previously treated with a laparoscopic partial nephrectomy. He is now proposed for a laparoscopic left heminephrectomy. Along with conventional imaging, a real-size 3D-printed renal model was used to plan de surgical approach. The perioperative experience of the surgical team was recorded. Results: The surgical team found the patient-specific 3D printed model useful for a better understanding of the anatomy and an easier surgical planning. Conclusion: The use of patient-specific 3D-printed renal models seem to be helpful for the surgical planning in complex renal tumors.