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Staging liver fibrosis after severe yellow fever with ultrasound elastography in Brazil: A six-month follow-up study

['Yuri Costa Sarno Neves', 'Radiology Institute', 'Department Of Radiology', 'Oncology', 'Hospital Das Clinicas Hcfmusp', 'University Of Sao Paulo', 'São Paulo', 'Victor Augusto Camarinha De Castro-Lima', 'Department', 'Division Of Infectious']

Date: None

Abstract Background Yellow fever (YF) is a hemorrhagic disease caused by an arbovirus endemic in South America, with recent outbreaks in the last years. Severe cases exhibit fulminant hepatitis, but there are no studies regarding its late-term effects on liver parenchyma. Thus, the aim of this study was to determine the frequency and grade of liver fibrosis in patients who recovered from severe YF and to point out potential predictors of this outcome. Methodology/Principal findings We followed-up 18 patients who survived severe YF during a recent outbreak (January-April 2018) in Brazil using ultrasound (US) with shear-wave elastography (SWE) at 6 months after symptoms onset. No patient had previous history of liver disease. Median liver stiffness (LS) was 5.3 (4.6–6.4) kPa. 2 (11.1%) patients were classified as Metavir F2, 1 (8.3%) as F3 and 1 (8.3%) as F4; these two last patients had features of cardiogenic liver congestion on Doppler analysis. Age and cardiac failure were associated with increased LS (p = 0.036 and p = 0.024, respectively). SAPS-3 at ICU admission showed a tendency of association with significant fibrosis (≥ F2; p = 0.053). 7 patients used sofosbuvir in a research protocol, of which none showed liver fibrosis (p = 0.119). Conclusions/Significance We found a low frequency of liver fibrosis in severe YF survivors. US with SWE may have a role in the follow up of patients of age and / or with comorbidities after hospital discharge in severe YF, a rare but reemergent disease.

Author summary Yellow fever (YF) is a viral disease transmitted by mosquitoes and represents an important health problem in countries of South America and Africa, with recent outbreaks in the past few years. Severe cases lead to fulminant hepatitis and death; it has also been reported that surviving patients tend to recover / “regenerate” the liver after the acute phase of the disease. However, there are no prior investigations on this matter. Thus, we followed up a group of previously healthy patients who had severe YF 6 months after the initial symptoms, using a non-invasive ultrasound technique of estimating the liver fibrosis (scar tissue) grade, called elastography. In our findings, we report a low frequency of liver fibrosis. Thus, we concluded that patients who had severe YF are not likely to have late-term liver fibrosis or cirrhosis. Nevertheless, there are some specific individuals (older or with chronic diseases) that might need further evaluation.

Citation: Neves YCS, Castro-Lima VACd, Solla DJF, Ogata VSdM, Pereira FL, Araujo JM, et al. (2021) Staging liver fibrosis after severe yellow fever with ultrasound elastography in Brazil: A six-month follow-up study. PLoS Negl Trop Dis 15(7): e0009594. https://doi.org/10.1371/journal.pntd.0009594 Editor: Michael R. Holbrook, NIAID Integrated Research Facility, UNITED STATES Received: February 3, 2021; Accepted: June 24, 2021; Published: July 20, 2021 Copyright: © 2021 Neves et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Data Availability: All relevant data are within the manuscript and its Supporting Information files. Funding: The authors received no specific funding for this work. Competing interests: The authors have declared that no competing interests exist. Abbreviations: ICU, intensive care unit; kPa, kilopascals; LS, liver stiffness; SWE, shear-wave elastography; US, ultrasound; YF, yellow fever

Introduction Yellow fever (YF) is a mosquito-borne hemorrhagic disease caused by an arbovirus of genus Flavivirus that occurs in tropical regions of South America and Africa [1]. In Brazil, urban transmission cycle was interrupted in 1940’s due to massive vaccination campaign and vector control programs [2]. However, the enzoosis remains present and human infection continues to occur in a sylvatic cycle [3]. In the beginning of 2018, a YF outbreak occurred on the outskirts of Sao Paulo; 538 cases were confirmed between January and December 2018, with a lethality rate of 34.6%[4]. The pathophysiology of the disease involves viral tropism and acute direct damage to vital organs such as liver and kidneys[5–7], in severe cases leading to fulminant hepatitis and acute renal failure (often requiring replacement therapies)[8–11], with high in-hospital case fatality rates (of up to 67%, according to recent studies[12–14]). It is not clear whether liver fibrosis arises after initial insult in severe form surviving patients. Some reports showed that patients recover completely from other acute hepatitis, with no signs or symptoms of chronic hepatitis or cirrhosis[15,16]. However, specific longitudinal data in YF patients after recovery is lacking. Due to the rarity of the disease and the absence of specific technologies in prior outbreaks, few patients were adequately followed up in order to clarify this matter. Additionally, a recent series demonstrated a late-onset relapsing hepatitis, a newly discovered entity, in patients who recovered from the acute phase of the disease[17]. In this context, non-invasive assessment of liver fibrosis with ultrasound (US) using new shear-wave elastography (SWE) techniques can be an important and accessible tool to investigate liver parenchyma status after acute hepatitis[18]. US-based elastography techniques are low-cost and radiation-free imaging methods[19], with performances comparable to those of biopsy[20]. It is also worth noting that liver biopsy with histological examination, although historically considered the reference standard for staging fibrosis, has considerable interobserver variability[21] and the disadvantage of being an invasive procedure, with intrinsic risks, and thus not suitable for longitudinal monitoring. Hence, the aim of this study was to determine whether patients who recovered from severe yellow fever developed liver fibrosis based on SWE evaluation and to point out potential predictors (clinical and laboratory) of cirrhosis during the follow up time.

Methods Ethics statement All enrolled patients signed an Informed Consent Form. Research protocol was approved by the Ethics Committee of Hospital das Clínicas da Faculdade de Medicina da Universidade da Universidade de São Paulo–HCFMUSP—CAPPesq (no 2.833.376). We followed the STROBE Statement checklist for observational studies [22]. Study design This is a cohort study of patients who were admitted to an infectious diseases intensive care unit (ICU) of a teaching tertiary-care hospital in São Paulo (Hospital das Clínicas, University of São Paulo) with the diagnosis of severe YF, confirmed by serum polymerase chain reaction (PCR). Criteria for severe YF and to be admitted to the ICU were pre-specified in a prior study[23]. Individuals discharged between January and April 2018 were contacted by phone, invited to participate in the study and to attend to the Hospital’s Ultrasonography Department to perform a non-enhanced abdominal US with SWE. Scans were carried at 6 months after symptoms onset. There were no exclusion criteria. SWE evaluations were performed by a board-certified radiologist (5 years of training in US) on an RS80A US system (Samsung Medison Co., Ltd.) equipped with S-SWE (Samsung shear-wave elastography, a type of point shear wave technique) using a convex probe (CA1-7A). All patients fasted for at least 4 hours prior to the examination. Liver stiffness (LS) measurements, expressed in kilopascals (kPa), were done using an intercostal approach, with the patient placed in a supine position with the right arm maximally abducted above the head and performing expiratory breath-holds. Regions of interest (ROIs) were placed in the right lobe of the liver at a depth of approximately 2–4 cm from its capsule, avoiding large vessels. At least 5 valid measurements were obtained, and the median LS value was taken as a representative value if, after consecutive measurements, an interquartile range (IQR)/median ratio ≤ 30% was achieved. S-SWE technique also automatically calculated a reliability measurement index (RMI), which demonstrated the reliability of each measurement. The RMI ranged from 0 to 1.0, with an RMI ≥ 0.4 being considered acceptable, according to the manufacturer’s instruction. We used the cutoffs for staging fibrosis (correlating to Metavir scoring system) of 7 kPa for ≥ F3 and 9,7 kPa for F4 [24–26]. Scanning protocol also included grayscale (B-mode), color and spectral Doppler modes. Data acquired were archived in PHILIPS iSite Picture Archiving and Communication Systems (PACS) version 4.1.110.0. Each patient had at least 30 images acquired; there were no videos available. Clinical, demographic and anthropometric data were collected during a short interview and also acquired from medical records (including the Simplified Acute Physiology Score 3—SAPS-3). Laboratory tests were performed in the same day of US elastography examination (and also retrieved from medical records from previous ICU admission) and included liver enzymes, bilirubin levels, serum creatinine and urea, platelets, prothrombin time and international normalized ratio (INR). Statistical analyses For descriptive purposes, categorical variables were presented through relative and absolute frequencies and compared by means of the chi-squared or Fisher exact test, as appropriate. Continuous variables distributions were assessed for normality by skewness and kurtosis and graphical methods. Those with normal distribution were presented as mean and standard deviations and compared by the independent samples Student T test. Otherwise, they were presented as medians and quartiles and compared by the Mann-Whitney non-parametric test. In order to address the association between liver stiffness and demographic and laboratory variables, correlation analysis was performed through the Spearman method, since US SWE parameters were non-normally distributed. All tests were two-tailed and final p values under 0.05 were considered statistically significant. All analyses were conducted with the SPSS software (IBM Corp. SPSS Statistics for Windows, version 24.0. Armonk, NY).

Discussion This is a unprecedent investigation on this rare but reemergent and severe disease. Our study managed to determine the frequency of liver fibrosis in severe YF surviving patients, utilizing a modern US SWE technique, with good reproducibility and correlation to liver biopsy[18]. High grades of LS were found in a small percentage of patients, similar to the prevalence in the general population[28–30], indicating that the liver recovers at least in great portion after the initial viral insult (analogous to what was suggested in prior reports for other viral hepatitis[15,16]). Thus, US with SWE showed to be a valid an noninvasive method to evaluate these patients, without the disadvantages of conventional biopsy[31]. Nevertheless, some clinical characteristic seemed to be associated with increased LS. Older age was predictably correlated to higher LS values, as expected; chronic diseases such as diabetes and hypertension also demonstrated a tendency towards this association. We found a tendency to a negative correlation between alanine aminotransferase at admission and LS; it is more likely that this association be spurious than a real and protective factor. Higher SAPS-3 showed a tendency of an association with significant fibrosis and could potentially represent a predictor of long-term fibrosis. Cardiac failure, a condition that determines hepatic congestion, was present in two of 18 patients at 6 months after onset of symptoms, both of which had increased LS; however, this result was most likely a “false-positive”, since edema of liver tissue leads to increased stiffness not related to fibrous tissue[32]. For a similar reason, acquiring a “baseline” SWE at hospitalization would not be valid (nor feasible) due to inflammation and edema of the hepatic parenchyma during the acute phase, also associated to increased LS [16,33,34]. No other clinical or laboratory variable showed to be a predictor of fibrosis. Sofosbuvir administration during the hospitalization period, as a part of a randomized clinical trial for treatment of acute YF occurring concomitantly in our institution[27], might have altered the proportions of fibrosis during the follow up period. Corroborating with this is the fact that no patient that used sofosbuvir was categorized as having significant fibrosis at the time of completion of 6 months after onset of symptoms (although that difference did not reach statistical significance). There was also a report of high incidence of late-onset relapsing hepatitis in these patients (that is, a new elevation in aminotransferase levels within 6 months after an improvement in or normalization of liver function, occurring in up to 45%, according to a recent study[17]), but this have not seemed to alter our results. No patient in our sample was adequately immunized for YF or had vaccinal disease. It is important to note that, by the time of this outbreak, the city of São Paulo and its outskirts were not yet included in the areas of universal (i.e. permanent) YF vaccination, presenting a low vaccination coverage [35,36]. Some limitations of this work must be acknowledged. The small sample size, inherent to the epidemiology of the disease, must be taken into account. Although not sufficient to ensure adequate power to the statistical analysis and to confirm the hypothesis, it retains great relevance and represents a unique window of opportunity in the context of a rare disease, never yet studied in this scale. The observational nature of the investigation brings a series of usual bias, and thus we tried to avoid them by following strict rules and protocols. There was no control group whatsoever; we then needed to compare our findings to populational statistics, not always comparable (e.g., with the same characteristics) to our group of individuals. The lack of a baseline evaluation, in turn, can be justified by the aforementioned argument–it would not be possible to evaluate patients at the acute phase of yellow fever with SWE since acute inflammation changes (increases) LS. It is also of note that no patient had prior history of liver disease and hepatitis viruses were ruled out. There were many losses of follow up due to logistic problems, lack of contact information or no attendances, and this might have affected the results. Furthermore, survival bias is likely to have occurred, since patients that died at hospital could have had a higher probability of developing liver fibrosis if fatal outcome have not happened. Also, there are still no trustworthy cutoffs for fibrosis using acoustic radiation force impulse (SWE techniques) by different fabricators and to different diseases[18,37,38], hence we preferably used the absolute values of LS (continuous variable) to express our results. In conclusion, we believe our work increases the knowledge of the natural history of this rare disease. US can be a tool to evaluate the liver in patients during the acute phase of severe YF, as it was demonstrated in our previous study [23], but can also be of value and have a role in the follow up of patients of age and / or with comorbidities after hospital discharge. Increased SAPS-3 might be associated with liver fibrosis after survival, but this result needs to be confirmed by further studies.

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