Modified Surgical Model for Genitourinary Vascularized Composite Allotransplantations: An Anatomical Study.

Abstract

Total penile reconstruction represents a surgical challenge. Autologous reconstructions offer limited aesthetic results and variable urinary function recovery. To date, five genitourinary vascularized composite allotransplantations have been performed worldwide. However, in all cases, vascular complications have been reported. The objective of this study was to develop a modified surgical model for penile allotransplantation to limit the number of microsurgical anastomoses and ensure vascular reliability. The authors studied penile allotransplantation by performing dissections on 12 subjects. The study was carried out to ensure the vascularization of the entire penis shaft while limiting the number of anastomoses. The penis vasculature includes numerous angiosomes between its different subunits. The penile skin envelope is supplied by both external and internal pudendal vessels. The cavernous and spongy bodies are supplied by terminal branches of the internal pudendal vessels. The anterior pubic osteotomy approach allows access to the root of the cavernous bodies and to the Alcock ducts. This modified surgical model for penile allotransplantation could help future teams involved in genitourinary vascularized composite allotransplantations to improve urinary and sexual function. The authors introduce an improved surgical technique for penile transplantation that enhances vascularization and graft viability. This innovative procedure optimizes blood flow through meticulous microsurgical anastomosis, resulting in improved functional outcomes. Its potential to revolutionize penile transplantation warrants further exploration and validation within the surgical community.