[Renal harvest. State of the art.] / Extracción renal. Situación actual.

Kidney transplantation (KT) is the best treatment for end-stage renal disease. Despite Spain isone of the leading countries in donation, the need for transplantable organs exceeds the available supply. Graft survival depends on the quality of the organ, the damage it suffers during the donation and transplantation process, as well as the risk of rejection. Among the factors that must be controlled and minimized are the ischemia-reperfusion injuries that occurs in the moments surrounding the death of the donor, the procurement and the preservation of the organ until kidney transplantation. Static cold storage is the traditional method of preservation of the organ until the moment of implantation, since it is a technique with wide availability and low cost. The use of perfusion machines in DCD and expanded criteria has shown better short-term results (primary failur delayed on set of function) without affecting recipient orgraft survival. The objective of our article is to review the current situationand the resources available to increase the pool of transplantable organs and their quality. We conducted a systematic review on kidney extraction, donor management, preservation methods and techniques to optimize cadaveric donor kidney donation.

El trasplante renal (TR) es el mejor tratamiento para la enfermedad renal crónica terminal. En España no se dispone de suficientes órganos para suplirla demanda de pacientes en lista de espera a pesar deser uno de los países líderes en donación. La supervivencia del injerto depende de la calidad delórgano, el daño que sufre durante el proceso de donacióny trasplante, así como de la posibilidad de que seproduzca rechazo. Entre los factores que debemos minimizar y optimizar se encuentran las lesiones inducidas por los mecanismos de isquemia-reperfusión, en los momentos que rodean la muerte del donante, la extracción y la preservación del órgano hasta su trasplante.Tradicionalmente la preservación del órgano hasta elmomento del implante se ha llevado a cabo mediante la conservación en frío, ya que es una técnica con amplia disponibilidad y bajo coste. El uso de máquinas de perfusiónen donaciones en asistolia y criterio expandido,ha demostrado mejores resultados a corto plazo (fallo primario, inicio retrasado de función) sin afectar a la supervivencia del receptor o del injerto. El objetivo de este trabajo es revisar la situación actual,así como los recursos disponibles para aumentar el poolde órganos trasplantables y la calidad de estos. Hemos realizado una revisión sobre la extracción renal, manejo del donante, métodos y técnicas de preservación para optimizar la donación renal de donante cadáver.

Extracción renal. Situación actual / Kidney extraction. Current situation

El trasplante renal (TR) es el mejor tratamiento para la enfermedad renal crónica terminal. EnEspaña no se dispone de suficientes órganos para suplirla demanda de pacientes en lista de espera a pesar deser uno de los países líderes en donación. La supervivencia del injerto depende de la calidad delórgano, el daño que sufre durante el proceso de donación y trasplante, así como de la posibilidad de que seproduzca rechazo. Entre los factores que debemos minimizar y optimizar se encuentran las lesiones inducidaspor los mecanismos de isquemia-reperfusión, en los momentos que rodean la muerte del donante, la extraccióny la preservación del órgano hasta su trasplante.Tradicionalmente la preservación del órgano hasta elmomento del implante se ha llevado a cabo mediante laconservación en frío, ya que es una técnica con amplia disponibilidad y bajo coste. El uso de máquinas de perfusión en donaciones en asistolia y criterio expandido,ha demostrado mejores resultados a corto plazo (falloprimario, inicio retrasado de función) sin afectar a lasupervivencia del receptor o del injerto. El objetivo de este trabajo es revisar la situación actual,así como los recursos disponibles para aumentar el poolde órganos trasplantables y la calidad de estos. Hemosrealizado una revisión sobre la extracción renal, manejodel donante, métodos y técnicas de preservación paraoptimizar la donación renal de donante cadáver.(AU)

Kidney transplantation (KT) is the besttreatment for end-stage renal disease. Despite Spain isone of the leading countries in donation, the need fortransplantable organs exceeds the available supply. Graft survival depends on the quality of the organ, thedamage it suffers during the donation and transplantation process, as well as the risk of rejection. Among the factors that must be controlled and minimized are the ischemia-reperfusion injuries that occursin the moments surrounding the death of the donor, theprocurement and the preservation of the organ until kidney transplantation.Static cold storage is the traditional method of preservation of the organ until the moment of implantation, sinceit is a technique with wide availability and low cost. Theuse of perfusion machines in DCD and expanded criteria has shown better short-term results (primary failure, delayed onset of function) without affecting recipient orgraft survival.The objective of our article is to review the current situation and the resources available to increase the pool oftransplantable organs and their quality. We conducted a systematic review on kidney extraction,donor management, preservation methods and techniques to optimize cadaveric donor kidney donation:(AU)

Cadaveric Models for Renal Transplant Surgery Education: a Comprehensive Review.

PURPOSE OF REVIEW: To evaluate the utility of cadaveric models for kidney transplant (KT) surgery training. RECENT FINDINGS: Medline® and PubMed® databases were searched for English and Spanish language articles published describing different learning models used in KT formation. We evaluated the use of cadavers preserved by Thiel's embalming method (TEM) as KT simulation models. Students were divided in groups of 4 people: four trainees mentored by an expert in KT surgery. Among the trainees were surgical residents and low-experience surgeons. A total of 39 TEM preserved bodies were used, of which 75 viable renal grafts were obtained. In each cadaver, two complete transplantation processes were performed, each consisting of en bloc nephrectomy with the trunk of aorta and inferior vena cava, bench surgery and perfusion with saline of the organ, and KT surgery. As with any surgical procedure, learning KT surgery is a stepwise process that requires years of dedication. The models available for the surgical simulation of KT surgery allow to practice and achieve dexterity in performing the procedure in a safe and reproducible way. Training on TEM-preserved corpses offers a highly realistic model for the surgical simulation of KT surgery.

Is There a New Alternative for a Safer Kidney Artery Ligation in Laparoscopic Donor Nephrectomy?

Controlled ligation and division of the renal hilum are critical steps during laparoscopic living donor nephrectomy. Major hemorrhage from technical failure, although an infrequent occurrence, can cause significant, yet preventable, morbidity or death. Polymer-secured nontransfixion clips are used worldwide for renal pedicle control during laparoscopic nephrectomy, but their use is contraindicated for renal artery ligation during laparoscopic living donor nephrectomy. Laparoscopic staplers are reliable transfixion systems for controlling kidney pedicle. However, stapler malfunction is not negligible, reaching up to 1.7%. A new double shank (DS) titanium-secured nontransfixion clip can dodge legal concerns on polymer-secured clips, while maintaining most of their advantages, without technical failures that may be seen in laparoscopic staplers. New alternatives must be proposed and explored to reach an agreement of the urological community. The new DS-titanium-secured clips could be a step forward toward a safer surgery for kidney donors, at least equivalent to hand ties to occlude the renal artery.

An experimental model for training in renal transplantation surgery with human cadavers preserved using W. Thiel's embalming technique.

OBJECTIVE: To describe a novel cadaver-based model for practicing renal transplant (RT) surgery. DESIGN: A simulating model using cadavers preserved by Thiel's method is developed to teach surgical anatomy and operative skills in RT surgery. Participants were asked to complete a voluntary, anonymous survey evaluating perceptions of the model and comparing cadaver sessions to other types of learning (rating questions from 0-10). SETTING: Large university teaching hospital. PARTICIPANTS: A total of 28 residents, junior transplant surgeons, and faculty members were participants in the cadaver simulation. RESULTS: Overall, 9 cadavers were used with 17 grafts transplanted. Kidney procurement in human cadavers preserved using Thiel's embalming technique was performed following the conventional protocol; en bloc nephrectomy with the trunk of aorta and inferior vena cava. Bench surgery was performed, perfusing artery with saline and checking vascular permeability. Once suitability is established, RT was performed as is done in clinical practice. This embalming method enables tissue dissection that is comparable to the living body and provides suitable conditions for realistic RT simulation; handling human tissues and vessels in the same surgical field as the clinical scenario. This experimental model approximates to in vivo RT, providing a realistic and interesting learning to inexperienced surgeons. Overall, participants held a positive view of the cadaver sessions, believed them to be useful in their daily practice, and felt that the proposed model was similar to the clinical setting. Trainees believed that these practices improved skills and confidence in performing an RT. CONCLUSIONS: The proposed method of kidney procurement and RT in human cadavers preserved by Thiel's embalming technique is a promising, realistic, and reproducible method of practicing RT surgery.