Renal transplant-recipient surgery

Real-time kidney graft perfusion monitoring using infrared imaging during pediatric kidney transplantation

INTRODUCTION

Ischemia times in kidney transplantation have shown to be predictive for future graft function. Preservation solutions and anticoagulation protocols have improved the management of pediatric kidney transplantation. Nonetheless, there is no current tool for intra-operative graft monitoring. The aim of this project is to present a novel technique for intra-operative real-time assessment of graft perfusion using a non-invasive infrared camera.

METHODS

Prospectively, the authors included 10 pediatric patients. Surgical procedure followed their institutional protocol. Infrared imaging was captured at graft preparation, vascular anastomosis, unclamping, and at 30 s, 1, 5, and 10 min after unclamping. Analyzed variables included type of transplant, ischemia and procedure times, type of anastomosis, and results of doppler/ultrasound. Postoperative variables included creatinine levels during first 72 h. Any complications were also recorded. Delta analysis was calculated to establish the variation of temperature after unclamping.

RESULTS

Average age at transplant was 9.9 years. Five cases were living donor transplants. Mean overall ischemia time was 395.6 (SD 64.4 min). Two patients had poor graft perfusion after unclamping. Of those, one had torsion of the arterial anastomosis and the other was a graft from a donor that required cardiopulmonary resuscitation for 45 min. Thermal imaging showed a correlation of 0.318 between graft temperature change and creatinine decrease. Cut-off delta for temperature for good reperfusion was above 0.2 at 1 min CONCLUSION: Real-time infrared imaging shows to be a promising option for non-invasive graft perfusion monitoring. Initial results show good correlation between intra-operative temperature changes, graft perfusion, and postoperative graft function.

Ex vivo excision of retroperitoneal soft tissue tumors: A case report

Ganglioneuromas are slow growing, clinically silent benign tumors for which surgery is considered to be the standard treatment. However, surgical excision in cases where surrounding structures are involved can be challenging. The present study reports a novel technique of ex vivo excision for the management of a retroperitoneal ganglioneuroma in a 21-year old patient, that appeared to be inoperable using standard surgical resection. Preoperative investigations revealed a large tumor with encasement of the origins of the superior mesenteric artery (SMA) and bilateral renal arteries. Initially, to prevent the need to explant the liver, the distal SMA (with takeoff of the replaced common hepatic artery) was anastomosed to the splenic artery. The bulk of the tumor along with the bilateral kidneys was mobilized from the retroperitoneum, and the aorta and inferior vena cava (IVC) were cross-clamped above and below the tumor and divided. The two kidneys were dissected free of the tumor at the back-table and were auto-transplanted in a standard technique following the reconstruction of the aorta and IVC. The patient tolerated surgery well and a one-year postoperative follow-up did not show any sign of tumor recurrence. Although technically demanding, ex vivo resection and auto-transplantation of the involved organs can be introduced as a final option for the treatment of tumors that are un-resectable using standard surgical techniques.