Karen L. Heim-Duthoy

The Adverse Impact of Cyclosporine on Serum Lipids in Renal Transplant Recipients

The extent to which cyclosporine (CsA) directly, or indirectly, influences serum lipid levels in renal transplant patients treated with multiple-drug immunosuppression protocols is unclear. Indeed, patients treated with CsA have reduced corticosteroid requirements, fewer acute rejection episodes, and other differences from patients receiving conventional immunosuppression that may reduce serum lipid levels. We studied patients treated with low-dose CsA, corticosteroids, azathioprine, and Minnesota antilymphocyte globulin ([ALG] n = 205) versus conventional (three-drug) immunosuppression (n = 368) and evaluated the impact of CsA, acute rejection episodes, and other clinical parameters on serum lipids. Fasting serum lipid levels from stable patients transplanted between 1976 to 1989 were studied at 3 (n = 573), 12 (n = 565), 26 (n = 55), and 52 (n = 521) weeks posttransplant using multivariate, linear regression analysis. The incidence of acute rejection episodes was reduced by CsA, but patients with fewer acute rejection episodes in the early posttransplant period had higher serum total cholesterol (increased by .33 +/- .12 mmol/L [13 +/- 5 mg/dL] and .27 +/- .12 mmol/L [10 +/- 5 mg/dL], P less than 0.05, at 3 and 12 weeks, respectively) and low-density lipoprotein (LDL) (increased by .23 +/- .11 mmol/L [9 +/- 4 mg/dL] and .23 +/- .11 mmol/L [9 +/- 4 mg/dL], P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)

The relationship between cyclosporine pharmacokinetic parameters and subsequent acute rejection in renal transplant recipients

The best approach to determining the optimal dose of cyclosporine in renal transplant recipients is unclear. In this prospective investigation, CsA pharmacokinetic studies were performed in 45 patients 1, 4, and 12 weeks after the initiation of CsA. Data from 104 studies were then combined to analyze the relationship between CsA kinetic parameters and posttransplant clinical events. Random trough levels, used in the day-to-day adjustment of CsA dose, were examined separately in 19 of the 45 study patients. All CsA levels were measured with high-performance liquid chromatography. Results showed: (1) trough CsA levels, obtained by random sampling, or from the kinetic studies, correlated poorly with dose; however, there was a good correlation between CsA dose and maximum concentration (Cmax, r = .39, P less than .001), area under the concentration-time curve (AUC, r = .45, P less than .001), and terminal elimination half-life (r = .43, P less than .001); (2) several pharmacokinetic parameters correlated with subsequent rejection episodes; patients with acute rejection within 2 or 4 weeks after study had 15-31% lower Cmax (P less than .05) and 13-19% lower AUC (P less than .05) compared to those who were rejection-free; and (3) levels of blood constituents known to bind CsA also correlated with rejection, and this correlation was independent of the impact of kinetic parameters on rejection. Altogether, these results suggested that a limited number of CsA pharmacokinetic studies may be more useful than multiple, random trough levels in monitoring CsA therapy.

The effects of lipid-lowering agents on acute renal allograft rejection

Background. Preliminary results from clinical trials suggest that 3-hydroxy-3-methylglutaryl co-enzyme A reductase inhibitors may help prevent acute renal allograft rejection. However, the mechanism for this putative effect of 3-hydroxy-3-methylglutaryl co-enzyme A reductase inhibitors, and whether it is independent of lipid-lowering per SE are unknown. Methods. Immediately after renal transplantation we randomly allocated (proportioned 2:1:2) patients to: 1) simvastatin (10 mg/day, n=53), 2) simvastatin placebo plus gemfibrozil (dose adjusted for renal function, n=36), and 3) simvastatin placebo (n=52). Results. Simvastatin, but not gemfibrozil, reduced total and low density lipoprotein cholesterol during the first 90 days posttransplant. There were no major adverse effects of therapy. However, there were no effects of treatment on acute rejection. Indeed, survival free of acute rejection at 90 days was 72% in the simvastatin group, 72% in the gemfibrozil group, and 77% in the placebo control group (P =0.771). A post hoc power analysis suggested that there was only a 7.5% chance that a true effect of simvastatin on acute rejection (versus placebo) was not detected, and a 2.5% chance that an effect of gemfibrozil on acute rejection (versus placebo) was not detected in this study. Conclusion. Lipid-lowering agents may not reduce the incidence of acute renal allograft rejection. However, additional studies are needed to confirm this observation. In the mean time, many if not most renal transplant recipients should be treated with HMG-CoA reductase inhibitors starting early posttransplant to prevent cardiovascular disease complications. The results of this study suggest that starting lipid-lowering therapy immediately after renal transplantation is both safe and effective in lowering total and low density lipoprotein cholesterol.

The variable nature of chronic declines in renal allograft function

Despite having important implications for the design of therapeutic trials, the clinical setting, time of onset, and rate of progression for chronic declines in renal allograft function have not been well characterized. In the present investigation, monthly estimates of glomerular filtration rate (E-GFR) were made using creatinine clearance and interim serum creatinine levels. There were 200 patients transplanted from 1978 to 1982 (precyclosporine) who survived at least 12 months with a functioning allograft. Of these, 25 had irreversible declines in E-GFR (greater than 30%) attributable to acute rejection, 50 had gradual, chronic declines in E-GFR, and 125 maintained stable function. Patients with chronic declines in E-GFR more often returned to dialysis (56%, P less than 0.001) than those with irreversible, acute reductions (24%), or stable function (2%). Chronic declines in allograft function were modeled by one or two least-squares-fitted regression lines. In most cases, the onset was early, but in 26% chronic declines in E-GFR began 2.2 +/- 1.2 (mean +/- SD) years after transplantation. Among those with chronic declines in E-GFR, 20/50 (40%) had spontaneous improvements in the rate of progression after 2.7 +/- 1.1 years and survived 8.4 +/- 2.6 years with functioning grafts, while 30/50 (60%) continued to have progressive declines in E-GFR and survived 6.1 +/- 2.5 years (P less than 0.01). Although chronic declines in E-GFR were evident 3.2 +/- 1.7 years before graft failure, routinely measured clinical and laboratory parameters from the early posttransplant period failed to predict patients who developed chronic declines in E-GFR. Altogether these data suggest that chronic declines in allograft function have an unpredictable onset and variable clinical course.

The pharmacokinetics of a single oral dose of mycophenolate mofetil in patients with varying degrees of renal function

The purpose of this study was to determine the effect of renal function on the elimination and disposition of mycophenolic acid and its glucuronide metabolite (MPAG) after oral administration of the pro‐drug mycophenolate mofetil. In addition, this study sought to examine hemodialysis removal of mycophenolic acid and its MPAG.

Apparent biliary pseudolithiasis during ceftriaxone therapy.

Biliary pseudolithiasis has been reported in patients who received ceftriaxone therapy. To examine this phenomenon further, serial gallbladder sonograms were evaluated in 44 adult patients who received intravenous ceftriaxone at 2 g or a placebo daily for 14 days in a double-blind controlled study. Ultrasound examinations of gallbladders were performed on days 1 and 14 of therapy and 2 weeks posttherapy if abnormalities were observed on day 14. Eight patients were unevaluable because of abnormal base-line gallbladder sonograms. Thirty-six patients (ceftriaxone, n = 28; placebo, n = 8) demonstrated normal baseline gallbladder sonograms and were evaluated for the development of change. A total of 6 of 28 (21.4%) ceftriaxone-treated patients and 1 of 8 (12.5%) patients who received the placebo demonstrated abnormal gallbladder sonograms on day 14 (P = 0.491). Four of the six ceftriaxone-treated patients demonstrating abnormal sonograms were clinically asymptomatic, while two patients reported vomiting. The abnormal sonograms of gallbladders of patients treated with ceftriaxone returned to normal between 9 and 26 days posttherapy. These data suggest an association between ceftriaxone treatment and the development of gallbladder abnormalities on ultrasound examination which resolve spontaneously on discontinuation of ceftriaxone therapy. Images

Patients With a Low Income Have Reduced Renal Allograft Survival

The impact of socioeconomic factors on long-term outcome after renal transplantation is unknown. We examined the effects of family income among 202 patients transplanted between 1976 and 1982 who had an allograft that functioned for at least 1 year. Compared with patients with an adequate income, recipients of medical assistance at the time of transplantation were more likely to return to dialysis after 1 year (16/45 [36%] v 26/157 [17%], P less than 0.01), or after 5 years of graft function (10/38 [26%] v 12/116 [10%], P less than 0.01). Patients who complied with fewer than 85% of visits during the first 2 years were also more likely to return to dialysis after 1 year (17/49 [35%] v 25/153 [16%], P less than 0.01), or after 5 years (8/31 [26%] v 14/123 [11%], P less than 0.05) than were more compliant patients. However, noncompliance was not different in patients with and without a low income (37/157 [24%] v 12/45 [27%], P greater than 0.05). The relative risk for returning to dialysis after 5 years was 2.4 (P less than 0.05) for low income and 3.0 (P less than 0.05) for less than 85% compliance using a Cox proportional hazards model. These effects were independent of prior transplantation, mismatches, pre-formed antibodies, delayed graft function, age, sex, diabetes, alcohol or drug abuse, education, race, distance from the transplant center, and living in an urban environment (relative risk = 2.5, P less than 0.05). Neither income nor compliance could be linked to death.(ABSTRACT TRUNCATED AT 250 WORDS)

Elective Cyclosporine Withdrawal 1 Year After Renal Transplantation

Whether the risks of acute rejection after elective cyclosporine (CsA) withdrawal in renal transplantation outweigh the potential benefits is unclear. We examined results for 236 patients who underwent transplantation between January 1986 and June 1991. Patients were treated with prophylactic CsA, prednisone, and azathioprine, and had grafts that functioned at least 1 year. We elected to withdraw CsA after 1 year in 192 patients who were rejection free for 12 months. Thirty-four patients elected to continue CsA. In 1988 a protocol that tapered CsA over 6 weeks was abandoned when eight (29.6%) of the first 27 patients developed acute rejection within 6 months. We then adopted a 12-week CsA taper preceded by 1 month of increased azathioprine (2.5 mg/d as tolerated) and followed by increased prednisone (30 mg/d for 1 week, 20 mg/d for 1 week, 15 mg/day for 6 months, then 15 mg/d on alternate days). With this protocol the incidence of postwithdrawal acute rejection within 6 months was reduced to 9.1% among 165 patients (P < 0.01 v 6-week taper). Actuarial 5-year graft survival (patients living with a functioning graft) was 81.7% for patients left on CsA, 88.9% for patients tapered over 6 weeks, and 81.5% for patients tapered over 12 weeks (P > 0.05). We also examined risk factors for acute rejection after CsA withdrawal using a Cox proportional hazards model and found that the relative risk of acute rejection within 6 months of taper was approximately two times greater for each DR mismatch (P < 0.001). We conclude that CsA withdrawal has not affected renal allograft survival at our center.(ABSTRACT TRUNCATED AT 250 WORDS)

Lovastatin treatment of hypercholesterolemia in renal transplant recipients

The treatment of hypercholesterolemia in renal transplant recipients has been problematic. In the present double-blind study, 11 patients were treated with diet for at least 4 weeks. They were then randomized to placebo or the 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor, lovastatin (20 mg/day) for 6 weeks, followed by crossover to an additional 6 weeks of lovastatin or placebo. All patients had stable allograft function 8.4 +/- 1.2 years (mean +/- SEM) after transplantation, and received low-dose prednisone and azathioprine immunosuppression. Compared with diet alone, lovastatin caused a 21% reduction in total cholesterol from 307 +/- 14 mg/dL to 244 +/- 13 mg/dL (P less than 0.05). Lovastatin reduced LDL cholesterol 28% from 214 +/- 12 mg/dL to 155 +/- 11 mg/dL (P less than 0.05). Trends toward favorable changes in HDL cholesterol, serum triglycerides, and apolipoproteins were not statistically significant. Liver enzymes, creatine phosphokinase, and renal function remained stable. With lovastatin there was a 27% increase in the WBC (from 6220 +/- 530 cells/mm3 to 7780 +/- 510 cells/mm3, P less than 0.05) that was attributable to a 45% increase in neutrophils (P less than 0.05). This effect of lovastatin, possibly the result of reduced azathioprine bone marrow suppression, could have important implications for immunosuppressive therapy in this patient population. Altogether, these results suggest that lovastatin may be a safe and effective treatment for hypercholesterolemia in renal transplant recipients receiving conventional immunosuppression.

Long-term cyclosporine pharmacokinetic changes in renal transplant recipients: Effects of binding and metabolism

Sequential changes in the pharmacokinetics of cyclosporine (CsA) and metabolites M1, M17, and M21 were determined, 1, 3, and 12 weeks after initiation of CsA therapy in 21 renal transplant recipients. Concentrations of CsA and its metabolites were measured by HPLC. The dose‐adjusted AUC (AUCsst) and 24‐hour trough (C24trough) level of CsA and the metabolites increased significantly during the study period. However, there was no change in the AUCsst ratio of each of the metabolites to that of CsA, suggesting that CsA metabolism did not change. However, the factors that alter the binding and distribution of CsA (i.e., hematocrit, plasma proteins, and lipoproteins) showed a significant rise during the study period, and the rise correlated well with the observed changes in AUCsst and C24trough. Thus alterations in the distribution and binding of CsA and its metabolites in blood, rather than reduction in the metabolism of CsA, may explain changes in CsA pharmacokinetics over time.