Peritransplant energy changes and their correlation to outcome after human liver transplantation

BACKGROUND: The ongoing shortage of donor livers for transplantation and the increased use of marginal livers necessitate the development of accurate pretransplant tests of viability. Considering the importance energy status during transplantation, we aimed to correlate peritransplant energy cofactors to posttransplant outcome and subsequently model this in an ex vivo setting. METHODS: Sequential biopsies were taken from 19 donor livers postpreservation, as well as 30 min after portal venous (PVR) and hepatic arterial reperfusion (HAR) and analyzed by LC-MS for energetic cofactors (ATP/ADP/AMP, NADH/NAD, NADPH/NADP, FAD, GSSG/GSH). Energy status was correlated to posttransplant outcome. In addition, 4 discarded human DCD livers were subjected to ex vivo reperfusion, modeling reperfusion injury and were similarly analyzed for energetic cofactors. RESULTS: A rapid shift towards higher energy adenine nucleotides was observed following clinical reperfusion, with a 2.45-, 3.17- and 2.12-fold increase in ATP:ADP, ATP:AMP and energy charge (EC) after PVR, respectively. Seven of the 19 grafts developed early allograft dysfunction (EAD). Correlation with peritransplant cofactors revealed a significant difference in EC between EAD and normal functioning grafts (0.09 vs. 0.31, P<0.05). In the simulated reperfusion model, a similar trend in adenine nucleotide changes was observed. CONCLUSION: A preserved energy status appears critical in the peritransplant period. Levels of adenine nucleotides change rapidly following reperfusion and ratios of ATP/ADP/AMP following reperfusion are significantly correlated to graft function. Using these markers as a viability test in combination with ex vivo reperfusion may provide a useful predictor of outcome that incorporates donor, preservation and reperfusion factors

Efficacy and Safety of Direct Acting Antivirals in Kidney Transplant Recipients with Chronic Hepatitis C Virus Infection

The prevalence of Hepatitis C Virus (HCV) infection is significantly higher in patients with end-stage renal disease compared to the general population and poses important clinical challenges in patients who undergo kidney transplantation. Historically, interferon-based treatment options have been limited by low rates of efficacy and significant side effects, including risk of precipitating rejection. Limited data exist on the use of all-oral, interferon-free direct-acting antiviral (DAA) therapies in kidney transplant recipients. In this study, we performed a retrospective chart review with prospective clinical follow-up of post-kidney transplant patients treated with DAA therapies at three major hospitals in Boston, MA. A total of 24 kidney recipients with HCV infection received all-oral DAA therapy post-transplant. Patients were predominantly male (79%) with a median age of 60 years (range 34–70 years), median creatinine of 1.2 mg/dL (0.66–1.76), and 42% had advanced fibrosis or cirrhosis. The majority had HCV genotype 1a infection (58%). All patients received full-dose sofosbuvir; it was paired with simeprevir (9 patients without and 3 patients with ribavirin), ledipasvir (7 patients without and 1 patient with ribavirin) or ribavirin alone (4 patients). The overall sustained virologic response (SVR12) was 91% (21 out of 23 patients). One patient achieved SVR4 but demised prior to SVR12 check point due to treatment unrelated cause. Two treatment failures were successfully retreated with alternative DAA regimens and achieved SVR. Both initials failures occurred in patients with advanced fibrosis or cirrhosis, with genotype 1a infection, and prior HCV treatment failure. Adverse events were reported in 11 patients (46%) and were managed clinically without discontinuation of therapy. Calcineurin inhibitor trough levels did not significantly change during therapy. In this multi-center series of patients, all-oral DAA therapy appears to be safe and effective in post-kidney transplant patients with chronic HCV infection

Study Population.

<p>HCV DAA regimen stratification of the study population. A flow chart of the study population, stratifying by the type/combination of DAA regimens patients received. Abbreviations SOF: sofosbuvir; SMV: simeprevir; LDV: ledipasvir; RBV: ribavirin</p

Sustained Virologic Response.

<p>Overall sustained virologic response, stratified by stage of fibrosis. The graph indicates the number of patient who achieved undetectable HCV viral load at 12 weeks post-treatment. Of note, one patient had a negative HCV viral load measured at week 4 post-treatment and was counted towards achieving SVR.</p

Tacrolimus Trough Levels.

<p>Tacrolimus trough levels while on antiviral treatment. The chart demonstrates the trough level of tacrolimus on the sixteen patients receiving this agent, individually, at different treatment time points.</p

Hepatitis C Direct-Acting Antiviral.

<p>FDA approved direct-acting antiviral treatment for hepatitis C. HCV RNA is translated into a long polyprotein which consists of three structural proteins and seven non-structural (NS) proteins. The NS3/4A protease cleaves the downstream NS proteins into individual subunits. The major DAA classes consist of NS3/4A protease inhibitors, NS5A replication complex inhibitors and NS5B polymerase inhibitors.</p

Adverse Events Reported While on Treatment.

<p>Adverse Events Reported While on Treatment.</p