UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The induction of diabetes has been recognised as adverse effect of the immunsuppressive drug FK506/Tacrolimus. The aim of this study was to clarify whether insulinopenia or insulin resistance dominates and whether islet cell autoantibodies are present in patients treated by FK506. We investigated 58 patients 1-3 years after liver transplantation while under therapy with FK506 or CsA and prednisolone (0-7.5 mg) for basal blood glucose levels and islet-cell specific autoantibodies. A subgroup of 20 patients on FK506, 10 patients on cyclosporin and 15 healthy volunteers were metabolically tested by oGTT. Five patients had diabetes pre-transplantation. After transplantation, 9/28 FK506-treated patients developed newly diagnosed diabetes compared to 0/25 cyclosporin-treated patients (p<0.01). Both patient groups showed significantly higher fasting blood glucose, insulin or C-peptide levels compared to controls. Through the oGTT, FK506-treated patients without diabetes, but not cyclosporin-treated patients, had higher C-peptide levels compared to controls (p<0.05). Five/32 patients on FK506 compared to 0/26 patients on cyclosporin (p<0.05) had islet cell specific autoantibodies, mainly ICA without GAD- or IA2-Ab, a feature described for latent autoimmune diabetes in adults. ICA positivity was correlated to the diabetes associated HLA haplotype DR4/DQ*0302 (p<0.05). Although the interpretation of our metabolic data in patients with concomitant liver disease and prednisolone therapy has limitations, we suggest insulin resistance caused by treatment with FK506. However, manifestation of diabetes was associated with relative insulinopenia rather than insulin resistance in patients on FK506. Immunsuppressive therapy by FK506 was not able to suppress islet cell autoimmunity, and may even induce it in genetically predisposed patients.
Exp Clin Endocrinol Diabetes 2000
PMID:Diabetes mellitus and islet cell specific autoimmunity as adverse effects of immunsuppressive therapy by FK506/tacrolimus. 1098 53

Diabetes mellitus (DM) is a well-recognized complication of immunosuppressive therapy in the post-transplant (Tx) period. The DM encountered in the setting of tacrolimus therapy has been managed in the past by tacrolimus dose reduction and a rapid corticosteroid taper; frequently insulin therapy is also required to maintain normoglycemia. However, the dose reduction of immunosuppressive agents has often resulted in acute allograft rejection. We are reporting our experience in managing three pediatric renal Tx recipients who developed DM in the post-Tx period while on triple immunosuppressive therapy including tacrolimus and corticosteroids. All of our patients were managed by substitution of tacrolimus with conventional doses of neoral while maintaining their usual corticosteroid dose. All three patients had resolution of hyperglycemia and none experienced acute rejection. Tacrolimus was then successfully reinitiated 4.6 months later; at last follow-up, all of our patients have good allograft function and have maintained a normal blood sugar. In conclusion, we feel that conversion of patients from tacrolimus to neoral should be attempted as a safer alternative to tacrolimus dose reduction, for managing post-Tx DM in tacrolimus treated patients.
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PMID:Conversion from tacrolimus to neoral for postrenal transplant diabetes. 1114 6

FK 506 (Tacrolimus) was used with steroids to treat 61 pediatric patients who received living related partial liver transplantation. Fifty-two recipients survived and 9 died between 6 months and 3 years after transplantation. In the surviving patients, oral doses of Tacrolimus were tapered from 0.298 +/- 0.277 mg/kg daily at 1 month after transplantation to 0.078 +/- 0.054 at 24 months after transplantation. The 12 h trough levels of Tacrolimus were 12.6 +/- 7.1 ng/ml and 4.1 +/- 2.4 at 1 and 24 months after transplantation, respectively. The percentage of recipients free from steroids was 77%, 97%, and 94% at 6, 12, and 24 months after transplantation, respectively. Liver allograft rejection was encountered in seven recipients, five of whom were treated by steroid pulse therapy and a dose increase of Tacrolimus; the remaining two required OKT3. However, there was no episode of rejection that required retransplantation. Infectious complications encountered in 34 patients included 12 bacterial, 3 fungal, and 19 viral infections. Two recipients died one of fungal pneumonia and one of Epstein-Barr virus-associated lymphoproliferative disorder. Regarding adverse reactions of Tacrolimus, hypertension was observed in 28 patients, diabetes mellitus in 3, pancreatitis in 3, convulsion in 1, tremor in 12, itching in 5, and pigmentation in the oral mucosa in 2. Slightly increased values of creatinine were observed in most of the patients; however, an abnormal increase of serum of serum creatinine (> 1.0 mg/dl) was confined to the complicated cases. Improvement of somatic growth was observed in 21 patients (62%) and 13 (75%) at 12 and 24 months after transplantation, respectively. The long-term use of Tacrolimus is highly effective in terms of its immunosuppressive potential and reduced adverse reaction. Steady growth development can be expected in pediatric recipients free from steroids.
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PMID:Long-term use of FK 506 in living related liver transplantation. 1127 41

To improve long-term outcome after renal transplantation, attention should be placed on the tailored use of immunosuppressive regimens that have a more favorable impact on the immunological and nonimmunological risk profiles of an individual recipient. Tacrolimus is widely used for maintenance and rejection immunosuppression in solid organ transplantation, and compared with cyclosporine, its use in renal transplantation is associated with a reduced incidence and severity of acute rejection and a more positive effect on known cardiovascular risk factors. Recent experience with tacrolimus-based therapy has demonstrated an improved lipid profile and lower arterial blood pressure, with less requirement for lipid-lowering and antihypertensive medication compared with cyclosporine, without significantly increasing the risk of long-term insulin-dependent posttransplant diabetes mellitus. The advantageous effects of tacrolimus on both immunological and nonimmunological risk factors offer potential benefits for long-term graft function and survival.
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PMID:Strategies to minimize immunological and nonimmunological risk factors in the renal transplant population. 1158 40

Tacrolimus has proven to be superior to cyclosporine-Sandimmune with regard to the prevention of acute rejections, but data comparing tacrolimus with Neoral are scarce. A total of 128 consecutive renal transplant recipients was studied. The patients were treated with Neoral-based (n = 74) or tacrolimus-based (n = 54) immunosuppressive regimens. Survival analyses (Cox regression analysis) were performed on an intention-to-treat basis. Renal function and cardiovascular risk profile were analyzed by means of a repeated-measures analysis of variance (ANOVA) up to 12 months after transplantation. Immunological features were less favorable in the tacrolimus group. Two-year patient and graft survival were comparable. Acute-rejection-free survival was 82 % in the tacrolimus group versus 40 % in the Neoral group (P < 0.0001). The severity of the rejections (1997 Banff classification) was comparable (P = 0.43). Immunological graft loss (3.7 % vs. 12.2 %, P = 0.02) and conversion because of rejection (0 % vs. 28.4 %, P < 0.001) were less in the tacrolimus group. A higher proportion (68.5 % vs. 14.9 %, P < 0.001) was successfully put on monotherapy. Creatinine clearance, proteinuria, and fractional uric acid clearance were similar. In the tacrolimus group mean blood pressure was comparable, but patients needed less anti-hypertensive drugs (P < 0.001) and, even with fewer patients on lipid-lowering drugs, total cholesterol was lower (5.2 vs. 6.0 mmol/l, P = 0.003). Treatment for post-transplant diabetes mellitus was 18.5 % versus 10.8 % (P = 0.22). In both groups, antidiabetic medication could be withdrawn for most patients. This study indicates that tacrolimus is superior to cyclosporine-Neoral in preventing acute rejection with comparable patient and graft survival rates. Because of a lower need for treatment of hypertension and hypercholesterolemia, the cardiovascular risk profile is more favorable. A considerable proportion of patients can be successfully weaned off co-medication and treated with tacrolimus monotherapy.
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PMID:Single-center experience with tacrolimus versus cyclosporine-Neoral in renal transplant recipients. 1179 34

In pediatric kidney transplant recipients, tacrolimus has been proposed either for primary immunosuppression or as a rescue agent for refractory acute rejection, chronic rejection, and cyclosporine toxicity. This paper describes our experience with tacrolimus conversion from cyclosporine-based therapy in six selected cases: four due to refractory acute rejections unresponsive to conventional therapy, one to chronic graft rejection, and one to cyclosporine-related hypertrichosis. A "simple-switch" conversion was used without any overlap, starting with a dose of 0.2 mg/kg per day. The time to conversion varied from 10 to 730 days after the transplant. In the patients with acute rejection, the median time to reversal after tacrolimus conversion was 12 days. The symptoms of the patient with cyclosporine toxicity completely resolved without any loss of allograft function. The patient with chronic rejection maintained stable renal function for more than 1 year after conversion. A new onset of post-transplant diabetes mellitus and dose-related nephrotoxicity were recorded as adverse events. In conclusion, our experience suggests that tacrolimus can play an important role in the salvage treatment of pediatric kidney transplantations with deteriorating graft function due to acute rejection refractory to standard therapy. Tacrolimus conversion also provides excellent results in the presence of cyclosporine toxicity.
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PMID:Conversion from cyclosporine to tacrolimus in pediatric kidney transplant recipients. 1218 78

It is estimated that there are greater than 100000 kidney transplant recipients with a functioning graft in the United States. Recent advances in immunosuppression have improved short-term graft survival rates and decreased early mortality by decreasing the incidence and therapy for acute rejection episodes. For those accepted on the waiting list, transplant prolongs patient survival compared with remaining on dialysis. During the 1990s, 3 new immunosuppressive drugs were introduced in clinical kidney transplantation. All were approved for use by the Food and Drug Administration after large, controlled, randomized trials. Mycophenolate mofetil (MMF), when combined with cyclosporine (CSA) and prednisone, lowered acute rejection rates by nearly 50% compared with control. Tacrolimus compared with CSA also significantly reduced acute rejection rates in kidney transplant recipients, but was associated with a significant increase in posttransplant diabetes mellitus (PTDM) in the early trials. When evaluated in combination with MMF, the incidence of PTDM was much lower. At the end of the decade, sirolimus was shown in several randomized trials to lower acute rejection rates and is believed to be less nephrotoxic compared with calcineurin inhibitors. All of the randomized trials were not statistically powered to assess long-term superiority. Registry analyses have been performed that appear to show some long-term benefit of immunosuppressive therapy with MMF. Other outcome assessments in kidney transplant recipients include risk factors for chronic allograft nephropathy, hypertension, hyperlipidemia, and bone disease. Although there are few randomized trials, understanding of the significance of these common complications has progressed and strategies for therapy and intervention have been developed. This article focuses on the randomized trials of immunosuppressive therapy and complications associated with use of these drugs. In addition, we review the current management and intervention for the comorbidities associated with the long-term clinical management of the kidney transplant recipient.
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PMID:Outcomes in kidney transplantation. 1283 99

A retrospective analysis of 381 pediatric heart-transplant recipients was performed to determine the frequency, characteristics, and risk factors for post-transplant diabetes. The rate of post-transplant diabetes was 1.8% with antithymocyte globulin, cyclosporine and azathioprine as primary immunosuppressive therapy. Time from transplant to diabetes was 0.25-13 years. Diabetes was characterized by reversibility, and lack of insulinopenia and autoimmunity. The post-transplant diabetes rate in tacrolimus-converted children (n = 45) was 8.8%. In tacrolimus-converted children, age at transplant, mean and maximum tacrolimus blood levels, and first-year rejection episodes were higher in the post-transplant diabetes group, which also consistently had DR-mismatched transplants and HLA DR3/DR4 haplotypes. Body mass index was not different between diabetic and control tacrolimus-converted children. In conclusion, pediatric post-transplant diabetes may be related to reversible insulin resistance. Tacrolimus levels, HLA DR mismatch, and older age at transplant may predispose to post-transplant diabetes.
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PMID:Pediatric post-transplant diabetes: data from a large cohort of pediatric heart-transplant recipients. 1285 35

Tacrolimus (Tac), which blocks T- and B-cell proliferation by inhibiting calcineurin, was first used for immunosuppression following heart transplant (HT) in 1989. Two multicenter randomized trials have compared Tac to the oil-based cyclosporine (CsA) formulation (both combined with azathioprine and steroids) in HT patients. The two drugs displayed similar patient survival rates and incidences of rejection, nephrotoxicity, diabetes, and infections. The Tac group however, showed a lower incidence of arterial hypertension (and, in one study, of dyslipidemia). A pilot study of Tac in combination with mycophenolate mofetil (MMF) and steroids suggested that maintenance of serum mycophenolic acid levels at 2.5 to 4.5 microg/mL yields lower rejection rates without greater toxicity than previous regimens. Currently, a European multicenter randomized trial is comparing Tac with Neoral CsA, both used in combination with MMF, steroids, and induction antibodies. For patients undergoing primary immunosuppression with CsA, Tac has proved effective for rescue from steroid-resistant acute rejection. It also has tentatively been used without other drugs in selected patients. It is a valid alternative to CsA in current immunosuppressive regimens, because it does not cause gingival hyperplasia or hirsutism and, thus, may improve the quality of life and treatment compliance of female and pediatric patients. It may be preferable to CsA for patients with arterial hypertension or intractable dyslipidemia. Current and future studies will clarify the efficacy and safety of regimens combining Tac with MMF or rapamycin.
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PMID:Tacrolimus in heart transplantation. 1296 69

Tacrolimus causes posttransplant diabetes mellitus, although the pathogenetic mechanisms remain controversial. We studied the mechanism of tacrolimus-induced impairment of insulin secretion using isolated rat pancreatic islets. Tacrolimus caused reductions in DNA and insulin contents per islet during 7-d culture. Tacrolimus time-dependently suppressed glucose-stimulated insulin secretion, and at a therapeutic concentration of 0.01 micromol/liter, it suppressed glucose-stimulated insulin secretion to 32 +/- 5% of the control value after 7-d incubation. Tacrolimus did not change islet glucose utilization and oxidation, ATP production, insulin mRNA expression, or the capacity for high glucose to increase intracellular Ca(2+), but altered the rapid frequency oscillations of Ca(2+) concentration. Tacrolimus suppressed insulin secretion stimulated by mitochondrial fuel (combination of l-leucine and l-glutamine, and alpha-ketoisocaproate) and glibenclamide, but not by l-arginine. Tacrolimus suppressed insulin secretion induced by carbachol and by a protein kinase C agonist in the presence or absence of extracellular Ca(2+). Under stringent Ca(2+)-free conditions, tacrolimus did not affect mastoparan-induced insulin secretion, but suppressed its glucose augmentation. Our results suggest that tacrolimus impairs glucose-stimulated insulin secretion downstream of the rise in intracellular Ca(2+) at insulin exocytosis, and that protein kinase C-mediated (Ca(2+)-dependent and independent) and Ca(2+)-independent GTP signaling pathways may be involved. However, tacrolimus-induced impaired insulin secretion was reversed 3 d after removal of the drug. Our study demonstrated that tacrolimus impairs insulin secretion at multiple steps in stimulus-secretion coupling.
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PMID:Tacrolimus impairment of insulin secretion in isolated rat islets occurs at multiple distal sites in stimulus-secretion coupling. 1496 91

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