The improving utility of renal transplantation in the management of end-stage renal disease

Causes of renal allograft loss. Progress in the 1980s, challenges for the 1990s

A variety of refinements in the care of kidney transplant recipients have been instituted over the past decade. The authors studied the overall impact of these refinements on kidney allograft losses at a single institution. To do this they compared the causes and rates of graft loss for primary kidney transplants in the 1970s (January 1, 1970 to December 31, 1979; n = 1012; 657 nondiabetics, 355 diabetics; 617 living donors, 395 cadaver donors) versus the 1980s (January 1, 1980 to December 31, 1989; n = 1,384; 756 nondiabetics, 628 diabetics; 740 living donors, 644 cadaver donors). Overall patient survival improved significantly, with rates at 1, 5, and 10 years of 94%, 84%, and 68% for the 1980s, compared with 86%, 69%, and 57% for the 1970s (p less than 0.001). Actuarial graft survival also improved significantly, with rates at 1, 5, and 10 years of 86%, 71%, and 52% for the 1980s, compared with 73%, 58%, and 43% for the 1970s (p less than 0.001). This improvement occurred even though there were proportionately more cadaver donors and diabetic recipients in the 1980s. For both decades combined, 24% of the lost grafts were due to chronic rejection, 18% to cardiovascular causes of death with function, 13% to infectious causes of death with function, and 11% to acute rejection. The overall gain in graft survival rates in the 1980s was principally due to fewer cases of acute rejection and fewer infectious deaths. Improvement in graft survival due to the two leading causes--chronic rejection and cardiovascular causes of death--was relatively small, if any. These data indicate that future kidney transplantation research should emphasize prevention of chronic rejection and cardiovascular death.

A prospective, randomized, double-blind study of trimethoprim-sulfamethoxazole for prophylaxis of infection in renal transplantation: clinical efficacy, absorption of trimethoprim-sulfamethoxazole, effects on the microflora, and the cost-benefit of prophylaxis

PURPOSE

To determine the efficacy of long-term prophylaxis with trimethoprim-sulfamethoxazole (TMP-SMZ) for prevention of bacterial infection following renal transplantation, the absorption of TMP-SMZ in transplant patients, the effects of prophylaxis on the microflora, and the cost-benefit of prophylaxis.

PATIENTS AND METHODS

One hundred thirty-two adult patients selected to undergo renal transplantation participated in a randomized, double-blind, placebo-controlled trial.

RESULTS

Patients randomized to receive TMP-SMZ experienced fewer hospital days with fever (3.3% versus 7.7%, p less than 0.001) and significantly fewer bacterial infections during the transplant hospitalization after removal of a urethral catheter (0.76 versus 1.88 per 100 days, p less than 0.005) and following discharge from the hospital (0.08 versus 0.30 per 100 days, p less than 0.001). During the transplant hospitalization, a daily dose of 320/1,600 mg was highly effective for prophylaxis whereas 160/800 mg daily gave unexpectedly low blood levels and was effective only for prevention of urinary tract infections after catheter removal. Prophylaxis was most effective in prevention of infections of the urinary tract (24 versus 54, p less than 0.005) and bloodstream (one versus nine, p less than 0.01) and infections caused by enteric gram-negative bacilli (four versus 46, p less than 0.001), enterococci (six versus 22, p = 0.006), or Staphylococcus aureus (one versus nine, p = 0.01). Prophylaxis did not prevent urinary tract infection associated with urethral catheters in the early posttransplant period, but after catheter removal, reduced the risk of urinary tract infection threefold (p less than 0.001). No significant differences in colonization by TMP-SMZ-resistant gram-negative bacilli were identified between the two groups; patients given TMP-SMZ were, paradoxically, less likely to become colonized by candida, probably because of less exposure to antibiotics for treatment of infection. Recipients of prophylaxis did not have a higher rate of infection caused by TMP-SMZ-resistant bacteria or Candida; however, their infections were more likely to be caused by resistant bacteria than infections in patients in the placebo group (62% versus 18%, p less than 0.001).

CONCLUSIONS

Prophylaxis with TMP-SMZ, which is well tolerated, significantly reduces the incidence of bacterial infection following renal transplantation, especially infection of the urinary tract and bloodstream, can provide protection against Pneumocystis carinii pneumonia, and is cost-beneficial. Subnormal absorption of TMP-SMZ in the early posttransplant period mandates 320/1,600 mg daily for optimal benefit. Prophylaxis has little discernible effect on the microflora.

The influence of HLA matching on renal allograft survival at a single pediatric center

Between January 1, 1969, and February 2, 1988, 331 pediatric renal transplants were performed at a single pediatric center. Of these 225 were first cadaveric allografts. Graft allocation was independent of the outcome of human lymphocyte antigen (HLA) matching. The results of class I antigen matching were analyzed in 224 transplants, and actuarial graft survivals were calculated. Class II antigen matching was analyzed in 80 patients from January 1, 1982, and submitted to the same analysis. HLA matching could not be demonstrated to be beneficial. It is proposed that any matching benefit is small and obscured in our series by the dominance of other factors.

Hematologic aspects of renal insufficiency

Renal dysfunction gives rise to a variety of hematologic disturbances, including anemia, leukocyte dysfunction, and coagulopathy. The anemia of renal failure has been attributed to a relative deficiency of erythropoietin, but contributing factors include an absolute deficiency of iron or folate. Other contributing factors include heavy metal toxicity, blood loss, and hemolysis. The treatment of the anemia of renal disease has advanced with the development of recombinant human erythropoietin. At doses from 15-500 micrograms/kg triweekly in selected patients, normalization of hemoglobin is presently possible. Transfusion may still have a role in patients with renal disease, although more as preconditioning for renal transplantation. In non-HLA matched transplantation, donor-specific transfusion, as well as immunosuppressives, may exert some benefit in graft survival. The coagulopathy of renal disease consists of an acquired qualitative platelet defect best remedied by dialysis but also treated successfully by cryoprecipitate or DDAVP. Infectious complications of uremia include diminished leukocyte chemotaxis, phagocytosis, and bactericidal activity. Cell-mediated immune defects and hypogammaglobulinemia have also been described. The pathophysiology involved in the protean hematologic manifestations of uremia are discussed; additionally, we describe therapeutic recommendations to deal with anemia, bleeding and infectious complications of renal failure.

The donor's decision in renal transplantation: a cost-benefit analysis

We previously suggested that a fully informed competent potential donor be allowed to donate his/her kidney as long as society will not suffer from the proposed transplant, even if there is added risk for the donor. To help make this sometimes difficult determination, we have constructed a benefit equation that calculates the benefit to society (either positive or negative) of any proposed living-related transplant. We believe that as long as the benefit calculated is positive, the prospective donor should generally be allowed to donate his kidney, since society will not be injured. It is emphasized that the benefit equation should be viewed as a guide to be used in difficult situations where the donor may be at added risk of renal death, and is not meant to supplant the entire complex decision-making process regarding living-related kidney donation.

HLA-A,B and DR matching in corneal transplantation

One hundred eighty-five consecutive corneal transplants were performed in recipients selected on the basis of the best available HLA-A,B and DR match. Endothelial rejection-free transplant survival in this group was compared to a retrospective historical control group of 199 consecutive transplants performed in recipients selected on the basis of age and longest wait criteria. The two groups were comparable with regards to primary diagnosis, preoperative corneal vascularization, donor and recipient age, and operative techniques. Thirty-eight transplants in the study group and 28 transplants in the control group were at high risk for endothelial transplant rejection. At 12 months, the estimated rejection-free survival (Kaplan-Meier method) of the high-risk study group transplants was 87% compared to 74% for the high-risk historical control group and transplants. This difference did not reach the significant level of 0.05 with the log-rank test. The 12-month estimated rejection-free survival of low-risk study group and historical control group transplants were similar. In the study group, the 12-month estimated rejection-free survival of well-matched transplants was 95% compared to 83% for poorly matched transplants (log rank, P less than 0.02). These findings suggest that a relationship exists between HLA-A,B and DR compatibility of donor and recipient and the corneal rejection-free transplant survival.

Infection in renal transplant recipients. Current approaches to diagnosis, therapy, and prevention

Despite dramatic improvements in patient and renal allograft survival, infections continue to be an important cause of post-transplantation morbidity and mortality. Most serious infections manifest clinically as febrile diseases, and immunosuppression-induced compromised cell-mediated immunity is the basis for the predominance of infections due to opportunistic intracellular microorganisms. Diagnostic evaluation is guided by the timing of fever after transplantation, epidemiologic factors, and evidence of specific organ system involvement. Although current therapy of bacterial and parasitic infections is usually effective, the management of deep-seated fungal infections remains highly unsatisfactory. Cytomegalovirus disease, the single most important infection in some transplant centers, frequently presents as a self-limited viral syndrome; however, multiple organs may be affected. New measures for the rapid diagnosis and treatment of this viral infection hold promise. A number of recommendations have been proposed to prevent infections in renal transplant recipients; however, continued progress will depend primarily upon further refinements in immunosuppressive therapy.

Pediatric renal transplantation

This article outlines the current status of pediatric renal transplantation and emphasizes a practical approach to patient management. It discusses two areas of renal transplantation in children in which results differ significantly between children and adults. These areas are renal transplantation in the very young child and transplantation in children with renal failure secondary to urologic disease.

Organ transplantation and the immune response gene. Clinical correlations and donor requirements

Major gains have been made in the area of clinical organ transplantations due to recent studies concerning the human histocompatibility locus (HLA). These basic science findings, along with developments in clinical pharmacology have allowed for a much broader use of donor sources, and a significant prolongation in clinical life span for these transplantation recipients.

Acute pyelonephritis as a cause of late transplant dysfunction

In a renal transplant recipient, acute pyelonephritis of the allograft developed in association with acute deterioration of renal function. No other cause of renal dysfunction was delineated, and the serum creatinine level promptly returned to baseline with antimicrobial therapy. Acute pyelonephritis is an important cause of late transplant dysfunction, and prompt diagnosis and treatment result in complete recovery of renal function.

Importance of cytotoxic lymphocytes during cytomegalovirus infection in renal transplant recipients

Thirty renal transplant recipients were studied prospectively to evaluate the relationship of cytomegalovirus-specific cytotoxic lymphocyte responses to clinical outcome during cytomegalovirus infection. Cytomegalovirus infection developed in 20 patients; of these 20, 14 had cytomegalovirus-specific cytotoxic lymphocyte responses whereas six did not. Clinical findings (fever, leukopenia, thrombocytopenia, or elevations in serum transaminase levels) were significantly more frequent among patients without responses than among patients with responses (p less than 0.001), and prolonged viremia and complications of infection including superinfection, interstitial pneumonitis, pancreatitis, and death occurred exclusively among patients without responses. Acute allograft dysfunction during infection was experienced by four patients without responses but by only one patient with response (p = 0.02), indicating that the virus-specific cytotoxic response did not result in a renal immunopathologic condition, and may have protected against virus-induced injury to the graft. In seven of nine patients with responses who shed virus, cytotoxic responses occurred within one week of detection of activation of virus shedding. Absence of cytotoxic responses correlated with prior high-dose, intravenous methylprednisolone treatment, and apparently resulted from inhibition of cytotoxic T cell precursors. Immunosuppressive treatment to inhibit graft rejection should be minimized, and methods should be developed that do not inhibit cytomegalovirus-specific cytotoxic T cell responses.