Pancreas transplantation is a form of pancreatic beta-cell replacement that can restore normoglycemia in diabetic patients. (See also Overview of Transplantation Overview of Transplantation Transplants may be The patient’s own tissue (autografts; eg, bone, bone marrow, and skin grafts) Genetically identical (syngeneic [between monozygotic twins]) donor tissue (isografts) Genetically... read more .)
Because the recipient exchanges risks of insulin injection for risks of immunosuppression, eligibility is limited mostly to
Patients who have type 1 diabetes with renal failure and who are thus candidates for kidney transplantation Kidney Transplantation Kidney transplantation is the most common type of solid organ transplantation. (See also Overview of Transplantation.) The primary indication for kidney transplantation is End-stage renal failure... read more
More than 90% of pancreas transplantations include transplantation of a kidney.
At many centers, repeated failure to control glycemia with standard treatment and episodes of hypoglycemic unawareness are also eligibility criteria.
Relative contraindications include age > 55 and significant atherosclerotic cardiovascular disease, defined as a previous myocardial infarction, coronary artery bypass graft surgery, percutaneous coronary intervention, or a positive stress test; these factors dramatically increase perioperative risk.
Simultaneous pancreas-kidney (SPK) transplantation
Pancreas-after-kidney (PAK) transplantation
The advantages of simultaneous pancreas-kidney transplantation are one-time exposure to induction immunosuppression, potential protection of the newly transplanted kidney from adverse effects of hyperglycemia, and the ability to monitor rejection in the kidney; the kidney is more prone to rejection than the pancreas, where rejection is difficult to detect.
The advantage of pancreas-after-kidney transplantation is the ability to optimize human leukocyte antigen (HLA) matching and timing of kidney transplantation using a living donor.
Pancreas-alone transplantation offers an advantage to patients who do not have end-stage renal disease but have other severe diabetic complications, including labile glucose control.
Donors are usually recently deceased patients who are aged 10 to 55 and have no history of glucose intolerance or alcohol abuse.
For simultaneous pancreas-kidney transplantation, the pancreas and kidney come from the same donor, and the same restrictions for kidney donation Kidney Transplantation Kidney transplantation is the most common type of solid organ transplantation. (See also Overview of Transplantation.) The primary indication for kidney transplantation is End-stage renal failure... read more apply.
A few (< 1%) segmental transplantations from living donors have been done, but this procedure has substantial risks for the donor (eg, splenic infarction, abscess, pancreatitis, pancreatic leak and pseudocyst, secondary diabetes), which limit its widespread use.
The donor is anticoagulated, and a cold preservation solution is flushed into the celiac artery. The pancreas is cooled in situ with iced saline slush, then removed en bloc with the liver (for transplantation into a different recipient) and the 2nd portion of the duodenum containing the ampulla of Vater. The iliac artery is also removed.
The donor pancreas is positioned intraperitoneally and laterally in the lower abdomen.
In simultaneous pancreas-kidney transplantation, the pancreas is placed into the right middle area of the recipient’s abdomen and the kidney into the left lower quadrant. The native pancreas is left in place. The donor iliac artery is used for reconstruction on the back table to reconstruct the splenic artery and superior mesenteric artery of the pancreas graft. This technique results in one artery for connection to the recipient blood vessels. The final anastomoses are made between the donor iliac artery and one of the recipient's iliac arteries and between the donor portal vein and recipient iliac vein. Thus, endocrine secretions drain systemically, causing hyperinsulinemia; sometimes the donor pancreatic venous system is anastomosed to a portal vein tributary to re-create physiologic conditions, although this procedure is more demanding and its benefits are unclear. The duodenum is sewn to the bladder dome or to the jejunum for drainage of exocrine secretions.
Immunosuppression regimens vary but typically include immunosuppressive immunoglobulins, a calcineurin inhibitor, a purine synthesis inhibitor, and corticosteroids, which can be slowly tapered over 12 months (see table Immunosuppressants Used to Treat Transplant Rejection Immunosuppressants Used to Treat Transplant Rejection ).
Complications of Pancreas Transplantation
(See also Posttransplantation Complications Posttransplantation Complications Transplants may be The patient’s own tissue (autografts; eg, bone, bone marrow, and skin grafts) Genetically identical (syngeneic [between monozygotic twins]) donor tissue (isografts) Genetically... read more .)
Despite adequate immunosuppression, acute rejection Rejection Transplants may be The patient’s own tissue (autografts; eg, bone, bone marrow, and skin grafts) Genetically identical (syngeneic [between monozygotic twins]) donor tissue (isografts) Genetically... read more develops in 20 to 40% of patients, primarily affecting exocrine, not endocrine, components.
Compared with kidney transplantation alone, simultaneous pancreas-kidney transplantation has a greater risk of rejection, and rejection episodes tend to occur later, to recur more often, and to be corticosteroid-resistant. Symptoms and signs are nonspecific (see table Manifestations of Pancreas Transplant Rejection by Category Manifestations of Pancreas Transplant Rejection by Category ).
After simultaneous pancreas-kidney transplantation and pancreas-after-kidney transplantation, pancreas rejection is best detected by an increase in serum creatinine because pancreas rejection almost always accompanies kidney rejection. After pancreas-alone transplantation, a stable urinary amylase concentration in patients with urinary drainage excludes rejection; a decrease suggests some form of graft dysfunction but is not specific to rejection. Early detection is therefore difficult.
Diagnosis is confirmed by ultrasound-guided percutaneous or cystoscopic transduodenal biopsy.
Treatment is with antithymocyte globulin.
Early complications affect 10 to 15% of patients and include wound infection and dehiscence, gross hematuria, intra-abdominal urinary leak, reflux pancreatitis, recurrent urinary tract infection, small-bowel obstruction, abdominal abscess, and graft thrombosis.
Late complications relate to urinary loss of pancreatic sodium bicarbonate (NaHCO3–), causing volume depletion and non-anion gap metabolic acidosis. Hyperinsulinemia does not appear to adversely affect glucose or lipid metabolism.
Prognosis for Pancreas Transplantation
Overall, 1-year survival rates are
Patients: > 95%
Grafts: ≥ 85%
Whether survival is higher than that of patients without transplantation is unclear; however, the primary benefits of the procedure are freedom from insulin therapy and stabilization or some amelioration of many diabetic complications (eg, nephropathy, neuropathy).
The rate of immunologic graft loss for pancreas-after-kidney transplantation and pancreas-alone transplants is higher, possibly because such a transplanted pancreas lacks a reliable monitor of rejection; in contrast, rejection after simultaneous pancreas-kidney transplantation can be monitored using established indicators of rejection for the transplanted kidney.