Viral hepatitis

New Onset of Acute and Chronic Hepatic Diseases Post-COVID-19 Infection: A Systematic Review

The SARS-CoV-2 virus caused a pandemic in the 2020s, which affected almost every aspect of life. As the world is recovering from the effect of the coronavirus, the concept of post-COVID-19 syndrome has emerged. Multiple organ systems have been implicated, including the liver. We aim to identify and analyze the reported cases of severe and long-term parenchymal liver injury post-COVID-19 infection. Several databases were used to conduct a comprehensive literature search to target studies reporting cases of severe and long-term parenchymal liver injury post-COVID-19 infection. Screening, data extraction, and cross checking were performed by two independent reviewers. Only 22 studies met our inclusion criteria. Our results revealed that liver steatosis, non-alcoholic fatty liver disease (NAFLD), and cirrhosis were the most reported liver associated complications post-COVID-19 infection. Moreover, complications like acute liver failure, hepatitis, and liver hemorrhage were also reported. The mechanism of liver injury post-COVID-19 infection is not fully understood. The leading proposed mechanisms include the involvement of the angiotensin-converting enzyme-2 (ACE-2) receptor expressed in the liver and the overall inflammatory state caused by COVID-19 infection. Future studies should incorporate longer follow-up periods, spanning several years, for better insight into the progression and management of such diseases.

Using AuNPs-DNA Walker with Fluorophores Detects the Hepatitis Virus Rapidly

Viral hepatitis is a systemic infectious diseases caused by various hepatitis viruses, primarily leading to liver damage. It is widely prevalent worldwide, with hepatitis viruses categorized into five types: hepatitis A, B, C, D, and E, based on their etiology. Currently, the detection of hepatitis viruses relies on methods such as enzyme-linked immunosorbent assay (ELISA), immunoelectron microscopy to observe and identify viral particles, and in situ hybridization to detect viral DNA in tissues. However, these methods have limitations, including low sensitivity, high error rates in results, and potential false negative reactions due to occult serum infection conditions. To address these challenges, we have designed an AuNPs-DNA walker method that uses gold nanoparticles (AuNPs) and complementary DNA strands for detecting viral DNA fragments through a colorimetric assay and fluorescence detection. The DNA walker, attached to gold nanoparticles, comprises a long walking strand with a probe sequence bound and stem-loop structural strands featuring a modified fluorescent molecule at the 3' end, which contains the DNAzyme structural domain. Upon the addition of virus fragments, the target sequence binds to the probe chains. Subsequently, the long walking strand is released and continuously hybridizes with the stem-loop structural strand. The DNAzyme undergoes hydrolytical cleavage by Mg2+, breaking the stem-loop structural strand into linear single strands. As a result of these structural changes, the negative charge density in the solution decreases, weakening spatial repulsion and rapidly reducing the stability of the DNA walker. This leads to aggregation upon the addition of a high-salt solution, accompanied by a color change. Virus typing can be performed through fluorescence detection. The innovative method can detect DNA/RNA fragments with high specificity for the target sequence, reaching concentrations as low as 1 nM. Overall, our approach offers a more convenient and reliable method for the detection of hepatitis viruses.

Liver organoids and their application in liver cancer research

Liver cancer, a common and intractable liver-related disease, is a malignant tumor with a high morbidity, which needs a high treatment cost but still lacks perfect clinical treatment methods. Looking for an effective platform for liver cancer study and drug screening is urgent and important. Traditional analytical methods for liver disease studies mainly rely on the 2D cell culture and animal experiments, which both cannot fully recapitulate physiological and pathological processes of human liver. For example, cell culture can only show basic functions of cells in vitro, while animal models always hold the problem of species divergence. The organoids, a 3D invitro culture system emerged in recent years, is a cell-bound body with different cell types and has partial tissue functions. The organoid technology can reveal the growth state, structure, function and characteristics of the tissue or organ, and plays an important role in reconstructing invitro experimental models that can truly simulate the human liver. In this paper, we will give a brief introduction of liver organoids and review their applications in liver cancer research, especially in liver cancer pathogenesis, drug screening, precision medicine, regenerative medicine, and other fields. We have also discussed advantages and disadvantages of organoids, as well as future directions and perspectives towards liver organoids.

C/EBPβ: The structure, regulation, and its roles in inflammation-related diseases

Inflammation, a mechanism of the human body, has been implicated in many diseases. Inflammatory responses include the release of inflammatory mediators by activating various signaling pathways. CCAAT/enhancer binding protein β (C/EBPβ), a transcription factor in the C/EBP family, contains the leucine zipper (bZIP) domain. The expression of C/EBPβ is mediated at the transcriptional and post-translational levels, such as phosphorylation, acetylation, methylation, and SUMOylation. C/EBPβ has been involved in inflammatory responses by mediating several signaling pathways, such as MAPK/NF-κB and IL-6/JAK/STAT3 pathways. C/EBPβ plays an important role in the pathological development of inflammation-related diseases, such as osteoarthritis, pneumonia, hepatitis, inflammatory bowel diseases, and rheumatoid arthritis. Here, we comprehensively discuss the structure and biological effects of C/EBPβ and its role in inflammatory diseases.

Advancements in CRISPR-Based Biosensing for Next-Gen Point of Care Diagnostic Application

With the move of molecular tests from diagnostic labs to on-site testing becoming more common, there is a sudden rise in demand for nucleic acid-based diagnostic tools that are selective, sensitive, flexible to terrain changes, and cost-effective to assist in point-of-care systems for large-scale screening and to be used in remote locations in cases of outbreaks and pandemics. CRISPR-based biosensors comprise a promising new approach to nucleic acid detection, which uses Cas effector proteins (Cas9, Cas12, and Cas13) as extremely specialized identification components that may be used in conjunction with a variety of readout approaches (such as fluorescence, colorimetry, potentiometry, lateral flow assay, etc.) for onsite analysis. In this review, we cover some technical aspects of integrating the CRISPR Cas system with traditional biosensing readout methods and amplification technologies such as polymerase chain reaction (PCR), loop-mediated isothermal amplification (LAMP), and recombinase polymerase amplification (RPA) and continue to elaborate on the prospects of the developed biosensor in the detection of some major viral and bacterial diseases. Within the scope of this article, we also discuss the recent COVID pandemic and the numerous CRISPR biosensors that have undergone development since its advent. Finally, we discuss some challenges and future prospects of CRISPR Cas systems in point-of-care testing.

Construction of a new luminescent Cd(ii) compound for the detection of Fe3+ and treatment of Hepatitis B

A novel porous Cd(ii) metal–organic framework (MOF) with the chemical composition of {[H3O][Cd(bci)]} n ·2n(H2O) (1, H3bci = bis(2-carboxyethyl)isocyanurate) was prepared via hydrothermal responses of H3bci and Cd(NO3)2·4H2O. Luminescent property investigations indicated that compound 1 had high sensitivity toward Fe3+, and the detection limit of Fe3+ was as low as 2.15 × 10−4 M. The application values of Fe3+ on Hepatitis B were assessed, and its associated mechanism was identified simultaneously. First, the cytotoxic mediator (TNF-α) substance released into plasma was measured through the ELISA. In addition, real-time RT-PCR was employed to determine the Hepatitis B viral replication gene relative expression levels. Finally, the novel compound’s toxicity against human normal liver cells was tested by using the CCK-8 assay.

Glycosylation in viral hepatitis

BACKGROUND

The interaction between hepatitis viruses and host cells is regulated by glycans exposed on the surfaces of human and viruses cells. As the biosynthesis and degradation of human glycoproteins take place at the highest level in the liver, the changes in glycosylation of serum proteins may potentially be useful in the diagnosis of liver pathology. On the other hand, specific alterations in viruses envelope glycans could cause large changes in the entry process of hepatitis viruses into a host cells.

SCOPE OF REVIEW

Unique alterations in glycosylation of specific proteins can be detected in HBV and HCV infected patients especially with confirmed fibrosis/cirrhosis. On the other hand, viral envelope proteins that bind to host cells are glycosylated. These glycosylated proteins play a key role in recognition, binding and penetration of the host cells. In this review we summarized the knowledge about significance of glycosylation for viral and host factors.

MAJOR CONCLUSIONS

Glycosylation changes in single serum glycoproteins are noticed in the sera of patients with viral hepatitis. However, a more specific biomarker for the diagnosis of chronic hepatitis than that of a single glycosylated molecule is systemic investigation of complete set of glycan structures (N-glycome). Glycans play important roles in the viral biology cycle especially as a connecting element with host receptors.

GENERAL SIGNIFICANCE

The interaction between virus glycoproteins and cellular receptors, which are also glycoproteins, determines the possibility of virus penetration into host cells. Therefore these glycans can be the targets for the developing of novel treatment strategies of viral hepatitis.

Seroprevalence of hepatitis B surface antigenemia and viral infectivity among liver cancer patients accessing care at a tertiary health facility in Southwest Nigeria

INTRODUCTION

Hepatitis B virus (HBV) infection is a public health challenge globally, associated with hepatocellular carcinoma and known to be highly endemic in developing countries. Its comorbidity with cancer in infected patients poses greater challenge in their management. This study was therefore designed to determine the burden of HBV infection and its correlation among cancer patients assessing care in a tertiary health facility in southwest Nigeria.

METHODOLOGY

A total of 122 plasma samples from consenting cancer patients were tested for Hepatitis B surface Antigen (HBsAg) using a commercial enzyme-linked immunosorbent (ELISA) assay and their plasma HBV DNA quantified by COBAS Amplicor HBV Monitor assay. Data were analyzed using SPSS version 21 and chi-square (χ2) test was used to determine association while p < 0.05 considered statistically significant.

RESULTS

An overall HBsAg rate of 13.9% was found among the study population. The distribution of HBsAg positivity among the subjects with condition of cancer showed 9(23.7%) with chronic liver disease (CLD), 4(10.8%) in primary liver carcinoma (PLCC) and 4(8.5%) with pyrexia of unknown origin (PUO). The CLD group had highest viral infectivity (Mean=8324.3 Copies/Ml) and lowest among those with PLCC (468.4 Copies/Ml). The rate for HBsAg was higher in male (14.7%) than in their female (13.0%) counterparts with significant statistical association by gender (p>0.0314) and peaked (23.5%) among age group 20-29 years.

CONCLUSION

This study identified high rate of HBV infection among the population and could be investigated as a predictor for cancer. This finding is vital in the management of cancer patients coinfected with HBV.

Clinical presentation of hepatitis D in Pakistani children

BACKGROUND

There are limited data on hepatitis D in children. The aim of this study was to assess the clinical presentation of hepatitis D virus (HDV) infection in Pakistani children.

MATERIALS AND METHODS

All pediatric patients (age≤18 years) seen in the clinic with chronic HDV infection and detectable HDV RNA (n=48) were compared with consecutive hepatitis B virus (HBV) monoinfection patients (n=48). A total of 50 patients underwent liver biopsy: 28 in the HDV group and 22 in the HBV group.

RESULTS

There was a male preponderance (85.4%). Significant differences were noted in age (P=0.012), presence of cirrhosis (P=0.004), splenomegaly (P<0.001), esophageal varices (P=0.006), splenic varices (P=0.022), alanine aminotransferase, aspartate aminotransferase and γ-glutamyl transferase levels (P<0.001 each), platelet count (P=0.015), international normalized ratio (P<0.001), severity of inflammation on liver biopsy (P=0.007), and advanced fibrosis (P=0.016) in the two groups, indicating more severe disease in the HDV group. In the HDV group, six patients had normal ALT, of whom three were positive for hepatitis B e antigen (HBeAg) and HBV DNA. HBV DNA was detectable in 50% and HBeAg in 52% of the HDV patients. There were no differences in the severity of liver disease in HBeAg-reactive and HBeAg-nonreactive patients. Six patients with hepatitis D had decompensation at the time of presentation; five were HBV DNA positive and three had reactive HBeAg. Only one patient with HBV monoinfection had decompensation.

CONCLUSION

Children with HDV infection have more aggressive liver disease than HBV monoinfection irrespective of HBeAg status.

Increased risk of chronic hepatitis in children with cancer

BACKGROUND

There is a risk of viral hepatitis for children with cancer. Both hepatitis B virus (HBV) and hepatitis C virus (HCV) infections in countries with high prevalence cause major problems in the management of cancer patients. In this study, we evaluated the incidence and chronicity of HBV and HCV infections in children with malignant diseases receiving chemotherapy.

PROCEDURE

One hundred ninety-eight children with cancer (mean age = 7.5 +/- 2.5 years) and 100 healthy children as a control group were screened for HBV and HCV. Liver function tests, the number of transfusions, HBV and HCV serology were regularly monitored. In seropositive children, HBV-DNA and HCV-RNA were measured. Chronic hepatitis was defined as having an alanine aminotransferase (ALT) level three times of upper normal limit, positive HBV and HCV antigenemia for longer than 6 months. Liver biopsies were performed in all children with chronic hepatitis. The relationship between the chronic hepatitis and study parameters was statistically analyzed.

RESULTS

HBsAg positivity, anti-HCV, and mixed (HBV and HCV) infection were found in 11.6, 5.5, 2% of children, respectively. Most HBV infected children developed chronic hepatitis (48%) while 26 and 21.7% became carriers and immune, respectively. One died of acute fulminant HBV hepatitis. Of HCV infected children, 63.6% also had positive HCV-RNA. Four children with mixed infection (100%) all progressed to chronic hepatitis. In this setting, chronic hepatitis was observed in 22 of 38 infected children (57.8%). The majority had leukemia and lymphoma. Children with HBsAg antigenemia developed chronic hepatitis in shorter time than HCV positive children (median 13 months vs. 51 months, P < 0.001).

CONCLUSION

We observed an increased incidence of chronic hepatitis and even mortality due to HBV infection. This suggests that HBV and HCV infections are serious causes of morbidity and mortality in children with cancer.

Cost-benefit analysis of active vaccination campaigns against hepatitis A among daycare centre personnel in Israel

OBJECTIVE

To evaluate, in economic terms, active vaccination campaigns against hepatitis A in comparison with the use of nonspecific immune globulin for the prevention of the disease among daycare centre employees in Israel.

SETTING

Hypothetical analysis of the costs and benefits related to vaccination campaigns of workers currently employed in daycare centres in Israel.

METHODS

A cost-benefit analysis was performed, comparing mass and selective active vaccination strategies for the daycare centre working force. Direct and indirect costs of diagnosis, treatment and immunisation as well as productivity loss were considered. A Markov-based model was developed using data from previous epidemiological studies and literature.

RESULTS

The benefit-to-cost ratios of selective and mass active vaccination strategies were 1.50 [net present value (NPV) $US606 396] and 0.04 (NPV-$US2.36 million), respectively (2000 values).

CONCLUSION

Under these study assumptions, the practice of administering hepatitis A active vaccine to serologically proven non-immune daycare centre workers has a cost-benefit justification, and should be widely considered in countries with a similar hepatitis A epidemiology to that in this study.