Advanced search
Publication Cover
Therapeutics and Clinical Risk Management Volume 15, 2019 - Issue
Submit an article Journal homepage
74
Views
7
CrossRef citations to date
0
Altmetric
Original Research

Pretransplant metabolic syndrome and its components predict post-transplantation diabetes mellitus in Chinese patients receiving a first renal transplant

Ruiming Cai1 Department of Organ Transplantation, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, Guangdong, China
,
Meng Wu2 Department of Nephrology, Longyan First Hospital, Longyan 364000, Fujian, China
&
Yanfang Xing3 Department of Nephrology, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, Guangdong, China, [email protected]Correspondence[email protected]
Pages 497-503 | Published online: 14 Mar 2019

Abstract

Background

Post-transplantation diabetes mellitus (PTDM) remains a major clinical challenge following renal transplant. Identification of pretransplant modifiable risk factors may allow timely interventions to prevent PTDM. This study aims to determine whether pretransplant metabolic syndrome and its components are able to predict PTDM in Chinese patients receiving their first renal transplant.

Patients and methods

We conducted a single-center retrospective study of 633 non-diabetic patients receiving a first kidney transplant. PTDM was diagnosed between 1 month and 1 year post-transplant. Multivariable logistic regression and Cox proportional hazards model were applied to detect potential pretransplant risk factors for PTDM.

Results

One year post-transplant, 26.2% of recipients had developed PTDM. PTDM patients had significantly higher fasting plasma glucose (FPG) (P=0.026) and body mass index (BMI) (P=0.006) than non-PRDM patients, and lower levels of high-density lipoprotein cholesterol (P=0.015). The presence of metabolic syndrome was an independent risk factor for PTDM, as assessed by multivariable logistic regression analysis (OR 1.28, 95% CI 1.04–1.51, P=0.038) and Cox proportional hazards model (OR 2.75, 95% CI 1.45–6.05, P=0.021). Moreover, both FPG >5.6 mmol/L and BMI >28 kg/m2 (obesity) were able to predict PTDM.

Conclusion

Our results suggest that the presence of metabolic syndrome and its components, impaired fasting glycemia and obesity, are independent risk factors for PTDM in Chinese non-diabetic patients receiving a first renal transplant. Interventions aimed at improving pretransplant metabolic syndrome may reduce the incidence of PTDM.

Introduction

Post-transplantation diabetes mellitus (PTDM) is a major clinical challenge following kidney transplantation.Citation1,Citation2 It has been estimated that around 15%–30% of non-diabetic recipients develop PTDM in the first year after renal transplantation and that, more appalling, nearly half of the recipients develop PTDM within 5 years post-transplant.Citation3Citation5 PTDM is frequently associated with subsequent graft failure and an increased mortality rate, and has also incurred a huge economic burden on recipients.Citation3,Citation4,Citation6 Therefore, there are compelling reasons to develop clinical strategies for prevention, although the pathogenesis of PTDM remains largely unknown.

Because the majority of PTDM develops in the first year after transplantation, pretransplant risk factors are considered to play crucial roles in the development of PTDM.Citation5,Citation7,Citation8 The established pretransplant risk factors include older age,Citation3,Citation7,Citation9,Citation10 minority race,Citation3,Citation11 higher body mass index (BMI),Citation3,Citation7Citation9 family history of diabetes mellitus (DM),Citation7,Citation9,Citation12 hepatitis C virus (HCV) infection,Citation3,Citation10,Citation13 elevated pretransplant fasting plasma glucose (FPG), triglycerides (TG) and cholesterols,Citation3,Citation5,Citation7,Citation9,Citation10 elevated plasma insulin,Citation8 and recipients of deceased donor kidneys.Citation10,Citation12 In addition to the pretransplant risk factors, it is widely recognized that the immunosuppressive regimen after kidney transplantation is closely associated with the development of PTDM.Citation7,Citation8,Citation10,Citation14 Importantly, identification of the risk factors may allow timely intervention for the prevention of PTDM. For example, it is suggested that lifestyle modification (eg, restrained calorie intake and moderate to intense physical activity) before transplantation, aiming to reduce BMI, may lower the incidence of PTDM.Citation1 Although most of these risk factors are unlikely to be functionally validated, the strategy of identifying modifiable pretransplant risk factors is critical and fundamental for the prevention of PTDM after renal transplantation.

The identified pretransplant risk factors listed in the previous paragraph are primarily components of metabolic syndrome. Bayer et al documented that pretransplant metabolic syndrome is an independent predictor for PTDM and, most importantly, is a potential target for intervention to prevent PTDM.Citation5 To our knowledge, however, the impact of metabolic syndrome and its components on PTDM is rarely studied in areas such as China, where the incidence of DM is increasing rapidly. Therefore, this study aims to reveal the impact of metabolic syndrome and its components on the development of PTDM in a cohort of Chinese non-diabetic patients receiving their first kidney transplant.

Patients and methods

Patient population

We retrospectively and systemically reviewed the clinical records of 1,308 patients undergoing renal transplantation at the Department of Organ Transplantation, The Third Affiliated Hospital of Guangzhou Medical University, between 2002 and 2016. Clinical information was retrieved and assembled from the local electronic database. The extraction and reporting of the data were approved by the local ethics committee. All patients routinely provided written informed consent immediately before the operation, allowing deposition, extraction, and reporting of their clinical information and data. Exclusion criteria included recipients with: 1) a history of DM or with DM before transplantation; 2) allograft functioning ≤1 year; 3) a history of renal transplantation; 4) other solid organ transplants; 5) ≤1-year follow-up post-transplantation; and 6) incomplete data on components of metabolic syndrome (indicated below). Finally, data from 633 non-diabetic recipients receiving a first renal transplant were assembled and analyzed.

Immunosuppression

All the included recipients were mainly on a tacrolimus-based regimen as their initial immunosuppressant treatment. In general, doses of tacrolimus were titrated to plasma levels of 8–15 ng/mL during the first 6 months and titrated to 5–7 ng/mL by the first year. At the time of transplant, recipients also received mycophenolate mofetil (MMF) as well as a 5-day tapering course of glucocorticoids (methylprednisolone intravenous injection 500 mg, 250 mg, and 125 mg on days 1, 2 and 3, respectively; oral 60 mg prednisone on day 4, and 30 mg on day 5). For those requiring ongoing steroid therapy, a maintenance dose of 5 mg prednisone daily was applied by 3 months post-transplant.

Definition of PTDM

PTDM was diagnosed according to the following criteria: 1) HbA1c ≥6.5%; 2) FPG ≥126 mg/dL (7.0 mmol/L); 3) 2-hour plasma glucose ≥200 mg/dL (11.1 mmol/L) during an oral glucose tolerance test; or 4) the patient had classic symptoms of hyperglycemia or hyperglycemic crisis, a random plasma glucose ≥200 mg/dL (11.1 mmol/L).Citation15 The diagnosis of PTDM was performed between 1 month and 1 year post-transplant. We chose this time window (1 month to 1 year post-transplant) because 1) this period rules out recipients who develop transient hyperglycemia immediately after transplantation as a result of high-dose glucocorticoids and/or surgery stress; 2) the immunosuppressive regimen is relatively stable in this time window; and 3) a majority of PTDM occurs within the first year post-transplant.Citation3,Citation4 It is worth noting that time to the presence of PTDM post-transplant was also calculated and recorded for survival analyses.

Pretransplant metabolic syndrome and its components

Adapting the WHO 1999 and the International Diabetes Federation 2006 recommendations,Citation16 as well as considering a Chinese standard,Citation17 pretransplant metabolic syndrome was defined as the presence of any three or more of the following five components before transplantation: 1) FPG >100 mg/dL (5.6 mmol/L); 2) high-density lipoprotein cholesterol (HDL-C) <35 mg/dL (0.9 mmol/L) in men, <40 mg/dL (1.0 mmol/L) in women or drug treatment for low HDL-C; 3) TG >150 mg/dL (1.7 mmol/L) or drug treatment for elevated TG; 4) BMI >28 kg/m2; and 5) SBP >130 mmHg or DBP >85 mmHg or drug treatment for hypertension. Data consisting of the five components were collected for analyses. Note that all the data represented the latest data that were obtained 2–3 days before transplantation. Pretransplant data reflecting the five components, including blood glucose, HDL-C level, TG level, BMI, SBP, DBP, and medications for low HDL-C or elevated TG or hypertension, were collected for analyses. These sets of data represented the latest pretransplant data that were routinely obtained 2–3 days before transplantation.

Statistical analyses

Data are expressed as mean ± SD, unless otherwise indicated. Statistical analyses were conducted with IBM SPSS Statistics v.19 (IBM Corporation, Armonk, NY, USA). Data sets of continuous variables were assessed for normal distribution and homogeneity of variance by the Kolmogorov–Smirnov and Levene’s tests before analyses. The Student’s t-test and chi-squared test were used to compare continuous and categorical variables, respectively, between patients with and without PTDM. To dissect potential pretransplant risk factors of PTDM, we first performed univariate analysis to assess the association of individual variables with the development of PTDM. Variables with a P-value <0.1 were selected for subsequent analyses using multivariable logistic regression and the Cox proportional hazards model to assess whether the relationship persisted. To determine whether metabolic syndrome and its components were relevant to the development of PTDM, we assigned the metabolic syndrome and its individual components with a binary value (0 for not present, 1 for present) and conducted further analyses using multivariable logistic regression and the Cox proportional hazards model. A P-value <0.05 was considered statistically significant.

Results

Study cohort characteristics

The included recipients were mainly on a tacrolimus-based regimen (tacrolimus + MMF + glucocorticoids) in the first year after transplantation. Of the included 633 non-diabetic kidney recipients, 26.2% (166/633) developed PTDM in the first year post-transplant and the mean time to PTDM was 5.7±2.4 months. Among the PTDM patients, a majority (74.1%) was diagnosed within 6 months after transplantation. The acute rejection post-transplant was similar between PTDM and non-PTDM patients (11.4% vs 10.7%, P=0.839). No differences were detected between PTDM and non-PTDM patients regarding gender composition, smoking, hematodialysis rate, hepatitis B virus (HBV) infection, HCV infection, antihypertensive medication, and statin use before transplantation; while the PTDM patients were older than non-PTDM patients (P=0.012) and had a significantly increased family history of DM (P=0.035). The percentage of pretransplant metabolic syndrome was apparently higher in PTDM compared with non-PTDM patients (25.9% vs 14.6%, P=0.014). PTDM patients had obviously higher FPG (5.6±0.9 vs 4.8±1.1 mmol/L, P=0.026) and BMI (26.4±4.6 vs 23.1±2.9 kg/m2, P=0.006), and a lower level of HDL-C (1.14±0.19 vs 1.24±0.23 mmol/L, P=0.015) compared with non-PTDM. The remaining components, plasma TG level and blood pressure, were similar between the two study groups. To exclude the potential disturbance of use of prednisone or tacrolimus (post-transplant factors) on the predictive power of the current study, we also took these factors into consideration. After careful comparison, we did not observe any differences regarding the dose or duration of prednisone or tacrolimus between PTDM and non-PTDM patients (data not included). The demographic characteristics and pretransplant laboratory parameters between PTDM and non-PTDM patients are shown in .

Table 1 Characteristics and pretransplant metabolic syndrome in PTDM and non-PTDM patients

Logistic regression analyses of pretransplant risk factors of PTDM

To address the potential pretransplant risk factors of PTDM, we first conducted univariate logistic regression analyses (with unadjusted OR) for all the collected variables. The analyses showed that the following variables were associated with higher risk of PTDM (P>0.1): older age (OR 1.07, 95% CI 1.02–1.12, P=0.013), family history of DM (OR 2.46, 95% CI 1.05–5.74, P=0.038), and presence of metabolic syndrome (OR 3.50, 95% CI 1.53–8.25, P=0.011) as well as its components of FPG >5.6 mmol/L (OR 2.93, 95% CI 1.28–6.71, P=0.011), HDL <0.9 mmol/L (men), <1.0 mmol/L (women) (OR 2.74, 95% CI 1.02–7.32, P=0.045), TG >1.7 mmol/L (OR 2.17, 95% CI 0.92–5.12, P=0.077), and BMI >28 kg/m2 (OR 3.92, 95% CI 0.99–15.53, P=0.052). Next, multivariable logistic regression analysis adjusted for age and family history of DM showed that presence of metabolic syndrome (adjusted OR 1.28, 95% CI 1.04–1.51, P=0.038) was an independent predictor of development of PTDM. A separate multivariable logistic regression analysis incorporating the five metabolic syndrome components, as well as age and family history of DM, showed that both FPG >5.6 mmol/L (adjusted OR 1.72, 95% CI 1.14–2.29, P=0.027) and BMI >28 kg/m2 (adjusted OR 1.59, 95% CI 1.10–1.92, P=0.036) were also independent pretransplant risk factors ().

Table 2 Univariate and multivariable logistic regression analyses for prediction of risk factors of PTDM

Cox proportional hazards model for prediction of pretransplant risk factors of PTDM

We next conducted survival analysis using a Cox proportional hazards model. By univariate analyses, we identified similar variables (as also identified through logistic regression analyses) associated with higher risk of PTDM: older age (OR 1.06, 95% CI 1.02–1.09, P=0.012), family history of DM (OR 2.07, 95% CI 1.04–4.10, P=0.038), and presence of metabolic syndrome (OR 3.35, 95% CI 1.69–7.25, P=0.006) as well as its components of FPG >5.6 mmol/L (OR 2.60, 95% CI 1.33–5.08, P=0.005), HDL <0.9 mmol/L (men), <1.0 mmol/L (women) (OR 2.45, 95% CI 1.15–5.25, P=0.021), TG >1.7 mmol/L (OR 2.08, 95% CI 1.03–4.18, P=0.040), and BMI >28 kg/m2 (OR 2.63, 95% CI 1.02–6.79, P=0.045). By incorporating age, family history of DM and presence of metabolic syndrome into the model, we observed that presence of metabolic syndrome was able to predict PTDM independently (adjusted OR 2.75, 95% CI 1.45–6.05, P=0.021). By incorporating age, family history of DM, and the five metabolic syndrome components into the model, we found that BMI >28 kg/m2 (adjusted OR 3.19, 95% CI 1.20–8.47, P=0.020) was an independent risk factor of PTDM ().

Table 3 Cox proportional hazards model for prediction of pretransplant risk factors of PTDM

Discussion

To our knowledge, this is the first attempt to address the impact of metabolic syndrome and its components on the development of PTDM in Chinese patients receiving a first kidney transplant. The major findings of the current study are: 1) pretransplant metabolic syndrome is an independent risk factor of the development of PTDM in Chinese patients, which is consistent with previous studies;Citation5,Citation18 and 2) FPG >5.6 mmol/L and BMI >28 kg/m2, two major metabolic syndrome components, are also independently associated with the development of PTDM. Because the components of the metabolic syndrome are manageable and/or can be treated with drugs, identification of these risk factors may allow timely intervention to prevent the development of PTDM.

In the general population, metabolic syndrome is frequently associated with the development of type 2 DM. Chakkera et al suggest that both PTDM and type 2 M share highly overlapping pretransplant risk factors, of which the metabolic syndrome is a prominent one.Citation1 The prevalence of metabolic syndrome in the present cohort was lower than that in previous studies,Citation5,Citation18 which may be due to ethnic differences. Nevertheless, we consistently found that pretransplant metabolic syndrome was an independent predictor for PTDM ( and ).

Metabolic syndrome is a cluster of five components, including obesity (BMI >30 kg/m2). In the Chinese population, BMI >28 kg/m2 is used as a clinical cutoff for obesity regardless of gender.Citation17 It is a frequent finding that higher BMI, especially obesity, promotes the development of PTDM and increases the risk of graft loss.Citation3,Citation7Citation9,Citation19 In the current study with a Chinese cohort, by both multivariable logistic regression analysis and a Cox proportional hazards model, we consistently observed that pretransplant obesity was robustly associated with PTDM ( and ). Together with the finding that kidney recipients tend to gain weight post-transplant,Citation20 it therefore should be of clinical benefit to reduce BMI (eg, by modification of lifestyle) before transplantation, especially for obese recipients. It has been shown that higher muscle mass, rather than fat mass, predicts longer survival in dialysis patients.Citation21,Citation22 Therefore, interventions aimed at decreasing fat mass while increasing muscle mass pretransplant may decrease the incidence of PTDM.Citation1

FPG >5.6 mmol/L, defined as impaired fasting glycemia (IFG), is a major component of metabolic syndrome. In the general population, IFG robustly predicts type 2 DM.Citation23Citation25 In kidney recipients, however, it is still debated whether IFG is able to independently predict PTDM. Results from Chakkera et al and Cosio et al support a significant association between IFG and the development of PTDM,Citation7,Citation9 whereas Bayer et al provided negative results.Citation5 When evaluated as a continuous variable, FPG is frequently associated with the development of PTDM.Citation5,Citation10 In the current study, we observed that IFG is a significant risk factor for PTDM, as assessed by the multivariable logistic regression analysis. Additional analysis incorporating plasma glucose as a continuous variable also gave similar results (data not shown). Therefore, we argue that pretransplant IFG is significantly associated with PTDM and that recipients with IFG may require glucose-lowering therapy before kidney transplantation.

In the current study, using multivariable logistic regression analysis and a Cox proportional hazards model, we showed that older age and family history of DM were two independent predictors for PTDM (data not shown), which is consistent with previous findings.Citation3,Citation7,Citation9,Citation10,Citation12 Gender and HBV infection were not significant risk factors for PTDM in our analyses, which is supported by previous studies.Citation3,Citation5,Citation8,Citation26 HCV infection, a previously identified independent predictor,Citation3,Citation10,Citation13 was not associated with PTDM in our observations. It has been documented that HCV promotes insulin resistanceCitation27 and that the diabetogenic effect is prompted by viral hindering of hepatic glucose and insulin metabolism.Citation28Citation30 Although the HCV infection rates were similar between PTDM and non-PTDM patients in our study, it is still possible that the HCV disease was more active in the PTDM patients, which may partially contribute to the impaired glucose profile of this cohort. Therefore, to address more fully the relationship between HCV infection (as well as other infectious diseases, eg, HBV) and PTDM, the disease activity/severity should be taken into consideration.

There are three apparent limitations to this study. First, our data were retrospectively collected from a single center with a cohort of 633 recipients, which may be regarded as a relatively small, local sample size. Second, it is widely recognized that tacrolimus is more diabetogenic than other immunosuppressants, eg, cyclosporine.Citation31Citation33 Although the immunosuppressive regimen was most often defined as tacrolimus based in our cohort, the dose and/or duration of tacrolimus were likely to vary between PTDM and non-PTDM patients, which could interfere with our analyses. Third, it is highly possible that some kidney recipients develop PTDM after 1 year post-transplant, which may introduce bias in our analysis. Therefore, future studies with larger sample size, longer follow-up, and stricter definitions of the immunosuppressive regimen are needed to confirm the current findings.

Conclusion

In summary, we have documented that pretransplant metabolic syndrome and its components, obesity (BMI >28 kg/m2) and IFG (FPG >5.6 mmol/L), are independent risk factors for the development of PTDM in Chinese non-diabetic patients receiving a first renal transplant. Interventions aimed at reversing obesity and/or IFG before transplantation may reduce the incidence of PTDM for kidney recipients in the Chinese population.

Ethics approval

The current study adhered to the Declaration of Helsinki and was approved by the Ethics Committee of The Third Affiliated Hospital of Guangzhou Medical University. All patients provided written informed consent.

Data sharing statement

Data will be available upon reasonable request, which also needs to be reviewed and approved by the ethics committee.

Acknowledgments

We would like to thank Drs Xuekun Guo and Minzhuan Lin (Department of Organ Transplantation, The Third Affiliated Hospital of Guangzhou Medical University) for assistance in data collection and analysis. The study was funded by the National Natural Science Foundation of China (no 81700645; to YX). The funder had no role in the study design, data collection and analysis, in the decision to publish, or in preparation of the manuscript.

Disclosure

The authors report no conflicts of interest in this work.

References

  • ChakkeraHAWeilEJPhamPTPomeroyJKnowlerWCCan new-onset diabetes after kidney transplant be prevented?Diabetes Care20133651406141223613600
  • SharifABaboolalKComplications associated with new-onset diabetes after kidney transplantationNat Rev Nephrol201181344222083141
  • KasiskeBLSnyderJJGilbertsonDMatasAJDiabetes mellitus after kidney transplantation in the United StatesAm J Transplant20033217818512603213
  • WoodwardRSSchnitzlerMABatyJIncidence and cost of new onset diabetes mellitus among U.S. Wait-listed and transplanted renal allograft recipientsAm J Transplant20033559059812752315
  • BayerNDCochettiPTAnil KumarMSAssociation of metabolic syndrome with development of new-onset diabetes after transplantationTransplantation201090886186620724958
  • MatasAJGillinghamKJHumarAPosttransplant diabetes mellitus and acute rejection: impact on kidney transplant outcomeTransplantation200885333834318301329
  • ChakkeraHAWeilEJSwansonCMPretransplant risk score for new-onset diabetes after kidney transplantationDiabetes Care201134102141214521949218
  • BayésBGranadaMLPastorMCObesity, adiponectin and inflammation as predictors of new-onset diabetes mellitus after kidney transplantationAm J Transplant20077241642217229078
  • CosioFGKudvaYvan der VeldeMNew onset hyperglycemia and diabetes are associated with increased cardiovascular risk after kidney transplantationKidney Int20056762415242115882287
  • LvCChenMXuMInfluencing factors of new-onset diabetes after a renal transplant and their effects on complications and survival ratePLoS One201496e9940624911157
  • MontoriVMBasuAErwinPJVelosaJAGabrielSEKudvaYCPosttransplantation diabetes: a systematic review of the literatureDiabetes Care200225358359211874952
  • SumraniNBDelaneyVDingZKDiabetes mellitus after renal transplantation in the cyclosporine era – an analysis of risk factorsTransplantation19915123433471994525
  • BloomRDRaoVWengFGrossmanRACohenDMangeKCAssociation of hepatitis C with posttransplant diabetes in renal transplant patients on tacrolimusJ Am Soc Nephrol20021351374138011961026
  • BurroughsTESwindleJTakemotoSDiabetic complications associated with new-onset diabetes mellitus in renal transplant recipientsTransplantation20078381027103417452891
  • American Diabetes AssociationDiagnosis and classification of diabetes mellitusDiabetes Care201437Suppl 1S81S9024357215
  • AlbertiKGEckelRHGrundySMHarmonizing the metabolic syndrome: a joint interim statement of the International Diabetes Federation Task Force on Epidemiology and Prevention; National Heart, Lung, and Blood Institute; American Heart Association; World Heart Federation; International Atherosclerosis Society; and International Association for the Study of ObesityCirculation2009120161640164519805654
  • WangYMiJShanX-YWangQJGeK-YIs China facing an obesity epidemic and the consequences? The trends in obesity and chronic disease in ChinaInt J Obes (Lond)200731117718816652128
  • PorriniEDelgadoPBigoCImpact of metabolic syndrome on graft function and survival after cadaveric renal transplantationAm J Kidney Dis200648113414216797396
  • Meier-KriescheHUArndorferJAKaplanBThe impact of body mass index on renal transplant outcomes: a significant independent risk factor for graft failure and patient deathTransplantation2002731707411792981
  • CashionAKSánchezZVCowanPAHathawayDKLo CostelloAGaberAOChanges in weight during the first year after kidney transplantationProg Transplant2007171404717484244
  • BeddhuSPappasLMRamkumarNSamoreMEffects of body size and body composition on survival in hemodialysis patientsJ Am Soc Nephrol20031492366237212937315
  • Kalantar-ZadehKStrejaEMolnarMZMortality prediction by surrogates of body composition: an examination of the obesity paradox in hemodialysis patients using composite ranking score analysisAm J Epidemiol2012175879380322427612
  • ManciaGBombelliMFacchettiRLong-term risk of diabetes, hypertension and left ventricular hypertrophy associated with the metabolic syndrome in a general populationJ Hypertens20082681602161118622239
  • FordESLiCSattarNMetabolic syndrome and incident diabetes: current state of the evidenceDiabetes Care20083191898190418591398
  • SattarNMcConnachieAShaperAGCan metabolic syndrome usefully predict cardiovascular disease and diabetes? Outcome data from two prospective studiesLancet200837196281927193518501419
  • HamerRAChowCLOngACMcKaneWSPolycystic kidney disease is a risk factor for new-onset diabetes after transplantationTransplantation2007831364017220788
  • Delgado-BorregoACassonDSchoenfeldDHepatitis C virus is independently associated with increased insulin resistance after liver transplantationTransplantation200477570371015021833
  • AytugSReichDSapiroLEBernsteinDBegumNImpaired IRS-1/PI3-kinase signaling in patients with HCV: a mechanism for increased prevalence of type 2 diabetesHepatology20033861384139214647049
  • KawaguchiTYoshidaTHaradaMHepatitis C virus down-regulates insulin receptor substrates 1 and 2 through up-regulation of suppressor of cytokine signaling 3Am J Pathol200416551499150815509521
  • MasiniMCampaniDBoggiUHepatitis C virus infection and human pancreatic beta-cell dysfunctionDiabetes Care200528494094115793203
  • PirschJDMillerJDeierhoiMHVincentiFFiloRSA comparison of tacrolimus (FK506) and cyclosporine for immunosuppression after cadaveric renal transplantation. FK506 Kidney Transplant Study GroupTransplantation19976379779839112351
  • MayerADDmitrewskiJSquiffletJPMulticenter randomized trial comparing tacrolimus (FK506) and cyclosporine in the prevention of renal allograft rejection: a report of the European Tacrolimus Multicenter Renal Study GroupTransplantation19976434364439275110
  • KnollGABellRCTacrolimus versus cyclosporin for immunosuppression in renal transplantation: meta-analysis of randomised trialsBMJ199931871911104110710213717
Download PDF

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.