Craig V. Smith

In situ splitting of the cadaveric liver for transplantation

BACKGROUND The shortage of cadaveric donor livers is the rate-limiting step in clinical liver transplantation. Split liver transplantation provides a means to expand the cadaveric donor pool. However, this concept has not reached its full potential because of inferior patient and graft survival and high complication rates when traditional ex vivo split techniques are used. Therefore we sought to evaluate the safety, applicability, and effectiveness of a new technique for split liver transplantation. METHODS This study consists of 15 in situ split liver procurements, which resulted in 28 liver transplants. In situ splitting of selected livers from hemodynamically stable cadaveric donors was performed at the donor hospital without any additional work-up or equipment being needed. In situ liver splitting is accomplished in a manner identical to the living-donor procurement. This technique for liver splitting results in a left lateral segment graft (segments 2 and 3) and a right trisegmental graft (segments 1 and 4-8). This procedure required the use of the donor hospital operating room for an additional 1.5-2.5 hr and did not interfere with the procurement of 30 kidneys, 12 hearts, 7 lungs, and 9 pancreata from these same donors. RESULTS The 6-month and 1-year actuarial patient survival rates were 92% and 92%, respectively, while the 6-month and 1-year actuarial graft survival rates were 86% and 86%, respectively. The 6-month and 1-year actuarial patient survival rate of patients who received a left lateral segment graft was 100% and 100%, respectively, while those who received a right trisegmental graft had 6-month and 1-year rates of 86% and 86%, respectively. The actuarial death-censored graft survival rates at 6 months and 1 year were 80% and 80%, respectively, for the left lateral segment grafts, and 93% and 93%, respectively, for the right trisegmental grafts. Alograft and patient survival was independent of United Network for Organ Sharing status at the time of liver transplantation. No patient developed a biliary stricture, required re-exploration for intra-abdominal hemorrhage, or suffered from portal vein, hepatic vein, or hepatic artery thrombosis CONCLUSIONS In situ split liver transplantation can be accomplished without complications and provides results that are superior to those obtained previously with ex vivo methods. It abolishes ex vivo benching and prolonged ischemia times and provides two optimal grafts with hemostasis accomplished. This technique decreases pediatric waiting time and allows adult recipients to receive right-sided grafts safely. In situ splitting is the method of choice for expanding the cadaveric liver donor pool.

Induction of specific tolerance to class I-disparate renal allografts in miniature swine with cyclosporine

Previous studies in miniature swine have suggested that the mechanism underlying the spontaneous development of tolerance in one third of one-haplotype class I disparate renal allografts (i.e., ag→ad) involves a relative T cell help deficit at the time of first exposure to antigen. If this hypothesis were correct, then one might expect the administration of an immunosuppressive agent capable of inhibiting lymphokine production during this period to lead to the induction of tolerance to class I MHC antigens in two-haplotype class I mismatched renal allografts (i.e., gg→dd), which are otherwise uniformly and acutely rejected. This hypothesis was tested in eight two-haplotype class I disparate, class II matched donor-recipient pairs, in which recipients were treated with cyclosporine 10 mg/kg, i.v. q.d. for 12 days. This protocol led to the induction of long-term (>100 days) specific tolerance in 100% of recipients, as compared with control animals that rejected grafts in 13.7 ± 0.9 days (P<0.0001). The specificity of tolerance was assessed both in vivo

Urgent revascularization of liver allografts after early hepatic artery thrombosis

Between April 1993 and May 1995, 17 adult orthotopic liver transplant recipients were found to have early hepatic artery thrombosis (HAT) after a median of 7 postoperative days (mean, 11). The HAT was diagnosed in all cases by duplex ultrasound. Thrombectomy was performed with urgent revascularization (UR), using an interposition arterial graft procured from the cadaveric liver donor, and arterial patency was verified with intraoperative angiography. In seven cases, intra-arterial urokinase was administered after the thrombectomy. Fifteen (88%) of the livers remained arterialized throughout the follow-up period (median, 15 months); the remaining two patients developed recurrent HAT after 6 and 8 months. Although there was a high rate of subsequent complications, 11 (65%) of the patients are alive without retransplantation, with a mean follow-up of 17 months. Despite having a patent hepatic artery, the remaining six patients (35%) died from infectious complications that usually were present before the UR. Thus, UR effectively restored arterial inflow in 88% of the patients with early HAT. The ultimate outcome was determined mainly by the presence of intra-abdominal complications at the time of UR. In conclusion, UR, rather than retransplantation, should be considered the prime treatment option for patients who develop early posttransplant HAT.

Inhibition of p38 Pathway Suppresses Human Islet Production of Pro-Inflammatory Cytokines and Improves Islet Graft Function

Nonspecific inflammation is associated with primary graft nonfunction (PNF). Inflammatory islet damage is mediated at least partially by pro‐inflammatory cytokines, such as interleukin‐1β (IL‐1β) and tumor necrosis factor‐α (TNF‐α) produced by resident islet macrophages. The p38 pathway is known to be involved in cytokine production in the cells of the monocyte–macrophage lineage. Therefore, inhibition of the p38 pathway may prevent pro‐inflammatory cytokine production by resident islet macrophages and possibly reduce the incidence of PNF. Our present study has demonstrated that inhibition of the p38 pathway by a chemical p38 inhibitor, SB203580, suppresses IL‐1β and TNF‐α production in human islets exposed to lipopolysaccharide (LPS) and/or inflammatory cytokines. Although IL‐1β is predominantly produced by resident macrophages, ductal cells and islet vascular endothelial cells were found to be another cellular source of IL‐1β in isolated human islets. SB203580 also inhibited the expression of inducible nitric oxide synthase (iNOS) and cyclooxygenase‐2 (COX‐2) in the treated islets. Furthermore, human islets treated with SB203580 for 1 h prior to transplantation showed significantly improved graft function. These results suggest that inhibition of the p38 pathway may become a new therapeutic strategy to improve graft survival in clinical islet transplantation.

Local Blockade of Allergic Airway Hyperreactivity and Inflammation by the Poxvirus-Derived Pan-CC-Chemokine Inhibitor vCCI

Allergen-induced asthma is characterized by chronic pulmonary inflammation, reversible bronchoconstriction, and airway hyperreactivity to provocative stimuli. Multiple CC-chemokines, which are produced by pulmonary tissue in response to local allergen challenge of asthmatic patients or experimentally sensitized rodents, chemoattract leukocytes from the circulation into the lung parenchyma and airway, and may also modify nonchemotactic function. To determine the therapeutic potential of local intrapulmonary CC-chemokine blockade to modify asthma, a recombinant poxvirus-derived viral CC-chemokine inhibitor protein (vCCI), which binds with high affinity to rodent and human CC-chemokines in vitro and neutralizes their biological activity, was administered by the intranasal route. Administration of vCCI to the respiratory tract resulted in dramatically improved pulmonary physiological function and decreased inflammation of the airway and the lung parenchyma. In contrast, vCCI had no significant effect on the circulating levels of total or allergen-specific IgE, allergen-specific cytokine production by peripheral lymph node T cells, or peritoneal inflammation after local allergen challenge, indicating that vCCI did not alter systemic Ag-specific immunity or chemoattraction at extrapulmonary sites. Together, these findings emphasize the importance of intrapulmonary CC-chemokines in the pathogenesis of asthma, and the therapeutic potential of generic and local CC-chemokine blockade for this and other chronic diseases in which CC-chemokines are locally produced.

The importance of nonimmune factors in reconstitution by discordant xenogeneic hematopoietic cells.

Bone marrow transplantation has been shown to induce donor-specific tolerance in rodent models. This approach could potentially be applied to xenotrans- plantation across discordant species barriers. To evaluate host factors resisting hematopoietic cell engraftment, we have developed two model systems utilizing the combination of swine into severe combined immunodeficient (SCID) mice. SCID mice lack functional B and T lymphocytes, and can therefore be used to evaluate nonimmune factors resisting marrow en-graftment, and for adoptive transfer studies to test the role of immune cells and antibodies. First we transplanted swine bone marrow cells into SCID mice conditioned with whole-body irradiation (4 Gy). For nine weeks following the intravenous administration of 108 swine bone marrow cells, up to 3.8% of peripheral blood leukocytes were of swine origin, as determined by flow cytometry (FCM). These cells were all of the myeloid lineage. Swine IgG was also detectable in the serum for up to 14 weeks. The bone marrow of the reconstituted mice contained low percentages of swine myeloid cells, and swine myeloid progenitors

Generation of human islets through expansion and differentiation of non-islet pancreatic cells discarded (pancreatic discard) after islet isolation.

Objectives: Islet transplantation is hampered by the shortage of donor tissues. Our objective was to generate islet-like cell clusters (ICCs) from cultures of non-islet pancreatic cells. Methods: The starting cultured cells came from the non-islet fractions of human pancreases after enzymatic digestion and purification for the purpose of islet isolation. Initially, these cells expanded in monolayer cultures and became confluent on collagen-coated flasks. After trypsination and suspension of these cells in a defined islet differentiation medium, the cells aggregated to form ICCs. Results: The initial cell population consisted of less than 1% of insulin-positive cells, 44% amylase-positive cells, and 41% cytokeratin (CK) 7-positive, or CK19+ cells, but PDX-1+ cells were absent. Cells from later stages of the monolayer cultures showed signs of dedifferentiation/transdifferentiation. At the time of harvesting, more than 90% of the cells were positive for CK 7/19 and PDX-1, but less than 1% of the cells were insulin-positive. After aggregation, the ICCs appeared redifferentiated, and contained glucose-responsive, insulin-secreting cells with an insulin content measuring 20% of that found in freshly isolated islets isolated from the same pancreas. ICCs transplanted into athymic mice and removed after 4 months did acquire the morphology of mature islets, indicating further maturation of the ICCs in vivo after transplantation. Human C-peptide was detected in recipient animal sera. Conclusion: Using the specified culture methods, non-islet pancreas cells can generate cell clusters resembling islets. These ICCs, obtained from fractions of the pancreas that are otherwise discarded, continue to differentiate after transplantation to become mature islets.

Prospective, randomized, multi-center trial of antibody induction therapy in simultaneous pancreas-kidney transplantation.

A randomized, multicenter, prospective study was conducted at 18 pancreas transplant centers in the United States to determine the role of induction therapy in simultaneous pancreas‐kidney (SPK) transplantation. One hundred and 74 recipients were enrolled: 87 recipients each in the induction and noninduction treatment arms. Maintenance immunosuppression consisted of tacrolimus, mycophenolate mofetil, and corticosteroids. There were no statistically significant differences between treatment groups for patient, kidney, and pancreas graft survival at 1‐year. The 1‐year cumulative incidence of any treated biopsy‐confirmed or presumptive rejection episodes (kidney or pancreas) in the induction and noninduction treatment arms was 24.6% and 31.2% (p = 0.28), respectively. The 1‐year cumulative incidence of biopsy‐confirmed, treated, acute kidney allograft rejection in the induction and noninduction treatment arms was 13.1% and 23.0% (p = 0.08), respectively. Biopsy‐confirmed kidney allograft rejection occurred later post‐transplant and appeared to be less severe among recipients that received induction therapy. The highest rate of Cytomegalovirus (CMV) viremia/syndrome was observed in the subgroup of recipients who received T‐cell depleting antibody induction and received organs from CMV serologically positive donors. Decisions regarding the routine use of induction therapy in SPK transplantation must take into consideration its differential effects on risk of rejection and infection.

Prevention of primary nonfunction of canine islet autografts by treatment with pravastatin.

BACKGROUND Nonspecific inflammation is the primary cause of early islet graft loss. We have shown in mice that pravastatin, a 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitor, prevents primary nonfunction of islet isografts by reducing inflammatory reactions at the graft site. This study was designed to test the effectiveness of this agent in a large animal model, dogs, by transplanting autologous islets. METHODS After total pancreatectomy, islets were isolated by using a two-step digestion method, followed by discontinuous gradient centrifugation on EuroFicoll. A known number of freshly isolated islets were immediately transplanted back into the same dog via the portal vein. RESULTS First, we determined the minimal islet number required to reverse diabetes by transplanting 3,000-10,000 IEQ/kg with no additional treatment. The number was found to be 4,000 IEQ/kg, and islets less than 4,000 IEQ/kg consistently failed. To test the effect of pravastatin, 3,000 IEQ/kg were transplanted into dogs that either received no further treatment or were treated daily with 20 mg/kg of pravastatin from days -2 to 14. Without pravastatin, this number of islets lowered blood glucose only transiently, and all four of these dogs became hyperglycemic within 1 week. In contrast, four of the five dogs treated with pravastatin became normoglycemic (<150 mg/dL) and maintained this level during the observation period of 12 weeks (P<0.05). Postprandial plasma glucose and insulin levels returned to normal, and K values of intravenous glucose tolerance tests were significantly higher in pravastatin-treated dogs than in controls (P<0.04 at week 2 and P<0.01 at week 4). CONCLUSION Peritransplant pravastatin treatment reduced the number of autologous islets required to reverse diabetes in totally pancreatectomized dogs. These results suggest that pravastatin may also facilitate better islet graft survival and function in clinical transplantation.

Development of tolerance to class II-mismatched renal transplants after a short course of cyclosporine therapy in miniature swine.

Our laboratory has reported previously spontaneous acceptance of class II-matched, single haplotype (but not 2 haplotype), class I-mismatched renal allografts in miniature swine. All class II-mismatched animals rejected acutely regardless of class I matching. We have also demonstrated recently that a short course of high dose (10 mg/kg/day for 12 days) CsA uniformly induces donor-specific tolerance to 2-haplotype, class I-mismatched renal allografts. The survival of 2-haplotype, fully MHC mismatched renal allografts was prolonged by the same treatment, but tolerance was not induced, as all animals rejected eventually. We have now tested this short course of immunosuppressive therapy for its effect on renal allografts mismatched selectively for 2 haplotypes at class II. We have observed long-term graft survival in 5 of 7 animals under these conditions. Each of the 5 acceptor animals was demonstrated to be specifically tolerant by its response either to donor-matched skin grafts or to a second donor-matched kidney transplant without further immunosuppression. These data suggest the existence of a common pathway for induction of specific transplantation tolerance to MHC antigens when these antigens are recognized on vascular endothelium under conditions of altered cytokine production. They also suggest that tolerance induction under these conditions requires matching for either class I or class II antigens, which may have implications for the mechanism by which peripheral tolerance is induced, as well as practical implications for the extension of these results to potential clinical practice.