Liver transplantation techniques
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Mohammed Abdelwahed M.D[2]
Liver trasnsplantation Microchapters |
Overview
Liver transplantation techniques
Left lobe transplantation
- The left and middle hepatic veins, left hepatic artery, and left portal vein are dissected.[1]
- Small portal vein branches are ligated. The left bile duct is divided
- Vascular and biliary structures entering segment 4 are divided or left intact.
- The parenchyma is transected and then the left hepatic artery and left portal vein are divided, releasing the graft.
- The middle hepatic vein is removed with the graft when a full lobectomy is performed.
Right lobe transplantation
- The right lobe fits correctly into the right subphrenic space, making the vascular anastomoses easier to perform.[2]
- Right lobe grafts are prone to a variety of technical complications.
- After cholecystectomy, intraoperative ultrasound may be used to delineate the position of the hepatic veins and portal branches.
- The right hepatic artery and right portal vein are dissected, followed by the retrohepatic vena cava, isolating the origin of the right hepatic vein.
- The right bile duct is isolated, completing mobilization of the right lobe.[3]
- The liver parenchyma is transected using an ultrasonic scalpel.
- A portoportal anastomosis is then made between the donor right portal vein and the portal vein of the recipient.
Split-liver transplantation
- Splitting donor livers into left lateral and extended right grafts for transplantation into a pediatric and an adult recipient.[4]
- Splitting livers into right and left lobes for transplantation has been investigated as a way to increase the supply of donor organs.
- Approximately 20 percent of donors could be split.
- Five-year survival rates were 77 percent, with graft survival rates of 76 percent.
- For children, 5-year survival rates were 75 percent, with graft survival rates of 63 percent.
MARGINAL LIVER GRAFT OUTCOMES
Marginal liver grafts included those with any of the following characteristics:[5]
- Liver donor age >70 years
- Livers discarded regionally and shared nationally
- Livers from hepatitis C positive donors
- Livers with cold ischemia time >12 hours
- Livers from donation after cardiac death donors
- Livers with >30 percent steatosis
- Livers split between two recipients
- ↑ Broelsch CE, Whitington PF, Emond JC, Heffron TG, Thistlethwaite JR, Stevens L; et al. (1991). "Liver transplantation in children from living related donors. Surgical techniques and results". Ann Surg. 214 (4): 428–37, discussion 437-9. PMC 1358542. PMID 1953097.
- ↑ Marcos A, Fisher RA, Ham JM, Shiffman ML, Sanyal AJ, Luketic VA; et al. (1999). "Right lobe living donor liver transplantation". Transplantation. 68 (6): 798–803. PMID 10515380.
- ↑ Wachs ME, Bak TE, Karrer FM, Everson GT, Shrestha R, Trouillot TE; et al. (1998). "Adult living donor liver transplantation using a right hepatic lobe". Transplantation. 66 (10): 1313–6. PMID 9846514.
- ↑ Emond JC, Freeman RB, Renz JF, Yersiz H, Rogiers X, Busuttil RW (2002). "Optimizing the use of donated cadaver livers: analysis and policy development to increase the application of split-liver transplantation". Liver Transpl. 8 (10): 863–72. doi:10.1053/jlts.2002.34639. PMID 12360426.
- ↑ Halazun KJ, Quillin RC, Rosenblatt R, Bongu A, Griesemer AD, Kato T; et al. (2017). "Expanding the Margins: High Volume Utilization of Marginal Liver Grafts Among >2000 Liver Transplants at a Single Institution". Ann Surg. 266 (3): 441–449. doi:10.1097/SLA.0000000000002383. PMID 28657945.