key: cord-0773423-otbk7bsm
authors: Rodríguez-Perálvarez, Manuel; Colmenero, Jordi; Salcedo, Magdalena
title: Reply to: Age and comorbidity are central to the risk of death from COVID-19 in liver transplant recipients
date: 2021-04-20
journal: J Hepatol
DOI: 10.1016/j.jhep.2021.04.005
sha: 757b8245fc6abdf3c307c6db9b32fd5aec24038f
doc_id: 773423
cord_uid: otbk7bsm

nan

Reply to: Age and comorbidity are central to the risk of death from COVID-19 in liver transplant recipients. 

-JC has received lecture fees from Chiesi, Astellas and Novartis. Advisory to Chiesi.

-MR-P has received lecture fees from Astellas, Novartis and Intercept Pharma.

-MS has received lecture fees from Astellas, Novartis, and Chiesi. Advisory to Jazz and Novartis.

-JP has received lecture fees by Astellas, Chiesi, and Gilead.

The Spanish Society of Liver Transplantation (SETH) was the only funding agent.

All authors contributed equally to this work.

To the Editor:

We read with great interest the letter by G. J. Webb et al. [1] regarding our recent nationwide study promoted by the Spanish Society of Liver Transplantation (SETH), which evaluated the incidence and outcomes of coronavirus disease 2019 in liver transplant (LT) patients [2] . The authors merged the SETH data with their own international cohort (COVID-Hep/SECURE-Cirrhosis) [3] resulting in 258 LT patients with COVID-19. The combined data analysis allowed to highlight the importance of age and comorbidities as key factors influencing outcomes. We completely agree with this conclusion, which may be also true for non-transplant patients with COVID-19.

However, some statements require further clarification.

Firstly, Webb et al. used overall mortality as the only outcome in the analysis.

Although mortality is the true hard outcome, there are some patients with severe acute respiratory distress syndrome who will not ultimately die but they would require mechanical ventilation and prolonged stay in the intensive care unit, with important physical and cognitive sequelae [4] . As these survivors are mostly young individuals without previous comorbidities, neglecting them in the primary outcome would increase the relative weight of older age and comorbidities as prognostic factors in the multivariate analysis. A composite endpoint including mechanical ventilation, admission to the intensive care unit and/or death (whatever occurred first) would be more appropriate to capture the true severity of COVID-19, independently of age and comorbidities. This composite endpoint has been used in large cohort studies evaluating clinical features and outcomes in COVID-19 [5] .

An important limitation of the COVID-Hep/SECURE-Cirrhosis study [3] was that the interval from diagnosis to outcome was not recorded. This is why the authors had to use multivariate logistic regression for the merged database analysis. Since both mortality J o u r n a l P r e -p r o o f and the composite event are time-dependent outcomes, this statistical approach may not be optimal, particularly in clinical situations in which the time of follow-up varies among the patients, as it is the case. As a consequence, and also influenced by the reduction in statistical power associated with the outcome modification, the statistical significance of mycophenolate mofetil to increase the risk of severe COVID-19 found in our study (RR= 3.94; 95%CI=1.59-9.74; p=0.003) [2] was lost in the analysis of Webb et al. regarding mortality [3] (OR=3.15; 95%CI=0.94-10.53; p=0.063). However, the deleterious effect of mycophenolate mofetil in COVID-19 severity seems consistent and clinically relevant with much alike RR and OR respectively in both analyses, and it is a matter of sample size and statistical approach to obtain significant results. In our study using Kaplan-Meier curves and Cox's regression analysis, we showed a dose-dependent relationship between mycophenolate mofetil at baseline and development of severe COVID-19 during follow-up (p=0.003). In addition, among those patients receiving the full dose of mycophenolate (ie. 2.000 mg per day), a complete drug withdrawal upon admission had a trend towards reduced severity of COVID-19 [2] . Indeed, there is a plausible physiopathological mechanism underlying these clinical observations consisting in a synergic and deleterious effect of mycophenolate and SARS-CoV-2 on depleting lymphocytes, which ultimately results in worse outcomes [5, 6] . Regarding other immunosuppressants, we found a protective role of tacrolimus against severe COVID-19 in the initial multivariate model (RR=0.19; 95%CI 0.05-0.68; p=0.011), but its significance was lost in the final model. In a more recent international cohort including data from 243 LT patients with COVID-19 from 9 European countries, tacrolimus was found to reduce the risk of mortality after controlling for age and comorbidities in the multivariate analysis (HR=0.55; 95%CI 0.31-0.99; p=0.049) [7] .

The role of mTOR inhibitors could not be adequately analyzed in these studies since J o u r n a l P r e -p r o o f they were seldom used in the included patients but the merged database analysis of Webb et al. again provided interesting results with a trend towards reduced risk of mortality in patients receiving everolimus after controlling for age and comorbidities (OR=0.31; 95%CI 0.08-1.11; p=0.071) [1] . Finally, corticosteroids have demonstrated to improve survival in immunocompetent patients with COVID-19 in well-designed randomized controlled trials [8] .

In conclusion, age and comorbidities are paramount to modulate the severity of COVID-19 and derived mortality among LT patients. However, the immunosuppression protocol may be the only true modifiable risk factor. Taken together, the available series, each one with inherent strengths and limitations, point to the same direction: modifications of baseline immunosuppression could be helpful to ameliorate the severity COVID-19. In absence of randomized controlled trials in LT patients, the current evidence claims to consider a dose reduction or withdrawal of mycophenolate and maintenance or initiation of other immunosuppressants such as corticosteroids, tacrolimus or everolimus in LT patients with confirmed COVID-19.

J o u r n a l P r e -p r o o f

Age and comorbidity are central to the risk of death from COVID-19 in liver transplant recipients

Epidemiological pattern, incidence, and outcomes of COVID-19 in liver transplant patients

Outcomes following SARS-CoV-2 infection in liver transplant recipients: an international registry study

Survivorship after COVID-19 ICU stay

Clinical Characteristics of Coronavirus Disease 2019 in China

Characteristics of

Peripheral Lymphocyte Subset Alteration in COVID-19 Pneumonia

Protective role of tacrolimus, deleterious role of age and comorbidities in liver transplant recipients with Covid-19: results from the ELITA/ELTR multi-center European study

Dexamethasone in Hospitalized Patients with Covid-19