key: cord-0741672-n0nxko2j authors: Cholongitas, Evangelos; Bali, Triada; Georgakopoulou, Vasiliki E.; Giannakodimos, Alexios; Gyftopoulos, Argyrios; Georgilaki, Vasiliki; Gerogiannis, Dimitrios; Basoulis, Dimitrios; Eliadi, Irene; Karamanakos, Georgios; Mimidis, Konstantinos; Sipsas, Nikolaos V.; Samarkos, Michael title: Prevalence of abnormal liver biochemistry and its impact on COVID-19 patients’ outcomes: a single-center Greek study date: 2022-03-25 journal: Ann Gastroenterol DOI: 10.20524/aog.2022.0709 sha: 17761fec07a4285692dcef69d7d70daa87ccb2ec doc_id: 741672 cord_uid: n0nxko2j BACKGROUND: Abnormalities in aminotransferases are frequently observed in hospitalized COVID-19 patients, but their clinical impact is poorly characterized. METHODS: A total of 1046 patients hospitalized to the non-intensive care unit ward with documented COVID-19 were included retrospectively. Demographic, clinical and laboratory characteristics on admission and during hospital stay, including the presence of liver injury (LI), defined as aspartate aminotransferase (AST) >200 IU/L, were recorded. RESULTS: On admission, 363 (34.7%) and 269 (25.7%) patients had abnormal AST and ALT values (i.e., >40 IU/L), respectively, while during hospitalization 53 (5%) patients fulfilled the criteria for LI. In multivariate logistic regression analysis, AST (odds ratio [OR] 1.023, 95% confidence interval [CI] 1.016-1.029; P<0.001), and ferritin (OR 1.01, 95%CI 1.001-1.02; P<0.001) were the baseline factors independently associated with the development of LI during hospital stay. One hundred twenty-three (11.7%) patients died during hospitalization. The independent variables associated with mortality were: age (hazard ratio [HR] 1.043, 95%CI 1.029-1.056; P<0.001), ferritin (HR 1.1, 95%CI 1.05-1.2; P<0.001), platelets (HR 0.996, 95%CI 0.994-0.999; P=0.003), and administration of remdesivir (HR 0.50, 95%CI 0.30-0.85; P=0.009). The patients with abnormal baseline AST (i.e., >40 IU/L), compared to those with normal AST values, had worse outcomes (log rank test: 8.8, P=0.003). CONCLUSIONS: Elevated aminotransferases are commonly seen in COVID-19 patients. They possibly reflect disease severity and may be associated with in-hospital mortality. COVID-19 is caused by the novel strain of SARS-CoV-2 [1] , and, although the latter mainly involves the respiratory well as hepatocellular necrosis attributable mainly to druginduced liver injury or systemic inflammatory syndrome caused by the SARS-CoV-2 infection, since no viral inclusions were observed [7, 8] . Nevertheless, data in the literature suggest that hepatic involvement with abnormal liver enzymes during COVID-19 is associated with more frequent development of complications and poor outcomes of COVID-19 [8] . In this study, we aimed to evaluate the prevalence and severity of liver enzyme abnormalities on admission and during the hospital stay, as well as their impact on the outcome, in Greek patients hospitalized with COVID-19. Consecutive adult patients who had been admitted and hospitalized with documented COVID-19 to the non-intensive care unit COVID-19 ward at Laiko General Hospital, Athens, Greece, between March 2020 and October 2021, were included retrospectively in this single-center study. The patients were enrolled if they fulfilled the following criteria: (a) adults ≥18 years old at the time of hospitalization; (b) at least one positive real-time polymerase chain reaction test for SARS-CoV-2 performed on a nasopharyngeal swab specimen; and (c) hospitalized for more than 3 days. Pregnant women and patients without available medical records were excluded. All patients were followed until discharge or death. The study protocol was approved by the Data Protection Officer and Institutional Review Board and conformed to the ethical guidelines of the 1975 Declaration of Helsinki (as revised in 2000). Because of the retrospective design of the study, a waiver for informed consent was granted by the Institutional Review Board. Demographic, clinical and laboratory characteristics on admission (i.e., at baseline) were recorded, including age, sex, body mass index (BMI), as well as past medical history, including antihypertensive and antidiabetic drugs. The diagnosis of arterial hypertension was defined as systolic blood pressure ≥140 mmHg and/or diastolic blood pressure ≥90 mmHg in the sitting position, while severe (or class II) obesity was defined as the presence of BMI>35 kg/m 2 [9] . Administration of medications for COVID-19, including remdesivir, dexamethasone and tocilizumab, was also recorded. At baseline, laboratory variables during the first 24 h of admission were obtained from the electronic medical record system, including white blood cell count, platelets (PLT), albumin, creatinine, total bilirubin, clotting profile (international normalized ratio [INR] , fibrinogen and D-dimers), aspartate (AST) and alanine (ALT) aminotransferases, alkaline phosphatase (ALP), γ-glutamyl transpeptidase (γ-GT), lactate dehydrogenase (LDH), C-reactive protein (CRP) and ferritin. In addition, HBsAg/anti-HCV serological status was recorded whenever available. Elevated serum aminotransferases at baseline were defined as ALT >40 IU/L or AST >40 IU/L. As in a previous study [10] , since AST abnormalities are the most frequent laboratory finding regarding liver biochemistry, the patients were then divided on admission into two groups, based on the presence of liver injury (LI) according to the baseline serum AST levels: a) no LI with AST ≤200 IU/L; and b) LI with AST >200 IU/L [11] . During their hospitalization, all patients received supportive care with a prophylactic dose of low-molecular-weight heparin (or a therapeutic dose in cases of confirmed thromboembolic event), fluid and electrolyte replacement therapy, and oxygen supplementation (delivered by nasal catheters, masks or highflow nasal cannula), as needed according to the institutional guidelines. The administration of all medications, including antibiotics, was at the discretion of the attending physician. In addition, laboratory abnormalities were recorded during the hospitalization in order to identify the peak values of ALT and AST. The development of LI (i.e., AST >200 IU/L) during hospital stay was also recorded. The primary outcome of the study was in-hospital mortality. Continuous variables in our cohort are presented as mean ± standard deviation (normally distributed) or median with range (non-normally distributed), while categorical variables are expressed as frequencies or percentages. Comparisons of variables between patients were performed using Student's t or Mann-Whitney U tests for normally and non-normally distributed continuous variables, respectively, and the chisquare test for categorical variables. We used multivariate Cox regression analysis to identify baseline factors independently associated with the outcome. The discriminative ability of the independent variable was evaluated using the area under the receiver operating characteristic curve (AUC) [12] . A P-value of <0.05 (2-tailed) was considered statistically significant. Statistical analysis was conducted using SPSS (IBM Corp. Released 2017. IBM SPSS Statistics for Windows, Version 25.0. Armonk, NY: IBM Corp.) and MedCalc for Windows (MedCalc Software, Mariakerke, Belgium). One thousand forty-six COVID-19 patients (613 male, age 63.5±17 years) were evaluated. All patients had clinical manifestations of COVID-19, including fever and respiratory symptoms, with or without the diagnosis of pneumonia based on radiological findings. The baseline clinical and laboratory characteristics are shown in Table 1 . Thirty-one (2.9%) patients were HBsAg positive, while 7 (0.7%) were anti-HCV positive. On admission, 363 (34.7%) and 269 (25.7%) patients, respectively, had abnormal AST and ALT values (i.e., >40 IU/L), while 83 (8%) of the patients had AST>80 IU/L and only 12 (1.14%) patients fulfilled the criteria for LI (i.e., AST >200 IU/L). Only 2 patients had AST >400 IU/L. In addition, 51 (4.8%) and 169 (16.2%) of the patients had abnormal levels of total bilirubin (i.e., >1.2 mg/dL) and ALP (i.e., >104 IU/L), respectively. The correlation between AST and ALT on admission was excellent (Spearman r=0.87, P<0.001). The patients with baseline AST≤40 (n=683), compared to those with AST >40 (n=363), were less frequently male (56% vs. 65%, P=0.037) or severe obese (5.5% vs. 11%, P=0.003), and they had significantly lower levels of CRP (22±9 vs. 79±28 mg/L, P<0.001), ferritin (392 vs. 829 [43-2940] ng/ mL, P<0.001), and fibrinogen (545±213 vs. 634±237 mg/dL, P<0.001). However, no difference was observed between the 2 groups regarding the other baseline variables, including age (63±17 vs. 63±17 years), albumin (4.3±0.45 vs. 4.1±0.55 g/dL), and PLT (213±95 vs. 212±87 ×10 9 /L) (P-values always >0.05). At baseline, men compared to women had significantly higher AST (35 vs. 31 During hospitalization, 53 (5%) patients fulfilled the criteria for LI (i.e., AST >200 IU/L), while 16 One hundred twenty-three (11.7%) patients died in hospital after a median of 8 (4-72) days of hospitalization. In univariate analysis, mortality was associated with age (hazard ratio [ (Fig. 1 ). This is the first single-center study to evaluate the prevalence and the impact of liver enzyme abnormalities in a Greek cohort of COVID-19 patients. In addition, it is currently the largest study from Greece reflecting our experience regarding the baseline characteristics and the outcomes of the COVID-19 patients admitted and managed in our center. In agreement with data in the literature [13] , we found that abnormal values in serum aminotransferases were frequently observed on admission (in our cohort 35% and 26%, respectively, of the patients had AST and ALT values >40 IU/L). However, at baseline, only 1% and 0.2% of the patients had LI (i.e., AST>200 IU/L) or AST >400 IU/L, respectively. Thus, in accordance with previous studies [10, 14, 15] , we confirmed that liver biochemistry abnormalities in COVID-19 patients are usually mild and predominantly hepatocellular, while AST values are more frequently abnormal than ALT. Nevertheless, no indication for liver dysfunction was observed, since no severe abnormalities in INR were recorded (range 0.7-1.3 in patients not receiving anticoagulants). The exact pathogenetic mechanisms associated with COVID-19 liver enzyme abnormalities have not been elucidated, though direct SARS-CoV-2-or drug-induced liver injury, ischemic damage and a cytokine-driven effect have been proposed [8] . In our cohort, as in previous studies [10] , we found that abnormal AST levels were associated with higher values of inflammatory markers reflecting the severity of COVID-19, such as CRP, ferritin and fibrinogen, indicating that aminotransferase abnormalities appear to be observed in the context of systemic hyperinflammatory syndrome and cytokine storm. Although aminotransferase abnormalities were observed more frequently during hospitalization than at baseline, they remained mild in the majority of cases, since only 5% and 1.5% of the patients, respectively, developed LI (i.e., AST>200 IU/L) or AST>400 IU/L, and again without any evidence of liver failure. The use of several medications during hospital stay (antibiotics, drugs specific for COVID-19) could be an explanation for these findings. However, in multivariate analysis, and taking into account several baseline characteristics, underlying viral hepatitis status and COVIDrelated medications during hospitalization, it was found that baseline AST and ferritin were the only independent factors associated with LI development, suggesting that the same mechanisms (COVID-19-induced inflammatory storm) might Regarding the variables associated with mortality, as might be expected, parameters such as age, ferritin and PLT were independently associated with the outcome. Thus, we were able to confirm previous studies, in which hyperferritinemia was an independent predictor of in-hospital mortality in COVID-19 patients [16] . In addition, low PLT were a risk factor for mortality (HR 0.996, 95%CI 0.994-0.999; P=0.003), possibly reflecting the severity of the systemic inflammatory response and the presence of multiple organ dysfunction in SARS-CoV-2 patients [17] . Interestingly, we found that diabetes mellitus was a risk factor for mortality (HR 1.54, 95%CI 1.018-2.32; P=0.004), but this finding was not confirmed in multivariate analysis. Nevertheless, literature data have revealed that diabetes mellitus may increase the replication of SARS-CoV-2 via immune system dysfunction and the release of proinflammatory cytokines, leading to a worse outcome [18] . Although there are conflicting literature data regarding the efficacy of remdesivir (a nucleotide prodrug that interferes with the viral RNA-dependent RNA polymerase activity of SARS-CoV-2) [19] , in our study we found that its administration was a protective factor against mortality (HR 0.50, 95%CI 0.30-0.85; P=0.009). In our cohort, low albumin on admission as a continuous variable was significantly associated with mortality (HR 0.93, 95%CI 0.91-0.96; P<0.001), while the patients with abnormal baseline albumin (i.e., <3.5 g/dL) had worse survival (log rank test: chi square 10.1, P=0.001) (data not shown). A previous study [20] has demonstrated that hypoalbuminemia at the time of admission to the hospital was associated with higher mortality, possibly reflecting poor nutritional status and severe underlying comorbidities. In the same study [20] , it was shown that elevations of AST and ALT during hospitalization increased the risk for complications and a poor outcome. In our study we found that baseline AST was associated with poor survival, but this was not confirmed in multivariate analysis. In previous studies [7, 14, 21] , abnormal liver biochemical tests have been related with severe course and poor outcome in patients admitted with SARS-CoV-2 infection, reflecting the prognostic impact of liver test abnormalities in this clinical setting. Nevertheless, in our cohort, the patients with abnormal baseline AST (i.e., >40 IU/L) had worse outcomes compared to those with normal AST values (log rank test: chi square: 8.8, P=0.003) (Fig. 1) . Our study has several limitations, including the fact that it was a single-center retrospective study without details regarding concomitant medication for previous comorbidities or development of extrapulmonary infections during hospital stay. However, all eligible patients were included, while their laboratory variables were recorded from the electronic medical record system of our hospital. 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SIRS-associated coagulopathy and organ dysfunction in critically ill patients with thrombocytopenia Diabetes mellitus and COVID-19: review of a lethal interaction from the cellular and molecular level to the bedside Efficacy and safety of remdesivir in hospitalised COVID-19 patients: a systematic review and meta-analysis Elevated transaminases and hypoalbuminemia in Covid-19 are prognostic factors for disease severity The effect of liver test abnormalities on the prognosis of COVID-19 The authors would like to thank the physicians of the Infectious Disease -COVID Unit of the Laiko General Hospital, Athens, Drs Sotiria Makrodimitri, Stamatina Samara, Maria Triantafylou, and Pantazis Voutsinas, for providing excellent care to COVID-19 patients and allowing access to their clinical data What is already known:• Although SARS-CoV-2 mainly involves the respiratory system, several other organs might be affected, including the liver • Abnormalities in liver biochemical parameters are frequently observed • These abnormalities have been associated with more frequent development of complications and poor outcomes of COVID-19What the new findings are:• This is the first and largest study from Greece to evaluate the prevalence and the clinical impact of aminotransferase abnormalities in a cohort of Greek COVID-19 patients • It was confirmed that abnormal values in serum aminotransferases were frequently observed on admission and during hospital stay • These liver biochemistry abnormalities were usually mild, and possibly in the context of systemic hyperinflammatory syndrome and cytokine storm • The patients with abnormal baseline aspartate aminotransferase ([AST], i.e., >40 IU/L) had worse outcomes compared to those without normal AST values