Locked nucleic acid real-time polymerase chain reaction method identifying two polymorphisms of hepatitis B virus genotype C2 infections,rt269L and rt269I

BACKGROUND The presence of two distinct hepatitis B virus(HBV)Pol RT polymorphisms,rt269L and rt269I,could contribute to the unique clinical or virological phenotype of HBV genotype C2.Therefore,a simple and sensitive method capable of identifying both types in chronic hepatitis B(CHB)patients infected with genotype C2 should be developed.AIM To develop a novel simple and sensitive locked nucleic acid(LNA)-real timepolymerase chain reaction(RT-PCR)method capable of identifying two rt269 types in CHB genotype C2 patients.METHODS We designed proper primer and probe sets for LNA-RT-PCR for the separation of rt269 types.Using synthesized DNAs of the wild type and variant forms,melting temperature analysis,detection sensitivity,and endpoint genotyping for LNA-RT-PCR were performed.The developed LNA-RT-PCR method was applied to a total of 94 CHB patients of genotype C2 for the identification of two rt269 polymorphisms,and these results were compared with those obtained by a direct sequencing protocol.RESULTS The LNA-RT-PCR method could identify two rt269L and rt269I polymorphisms of three genotypes,two rt269L types[‘L1’(WT)and‘L2’]and one rt269I type(‘I’)in single(63 samples,72.4%)or mixed forms(24 samples,27.6%)in 87(92.6%sensitivity)of 94 samples from Korean CHB patients.When the results were compared with those obtained by the direct sequencing protocol,the LNA-RT-PCR method showed the same results in all but one of 87 positive detected samples(98.9%specificity).CONCLUSION The newly developed LNA-RT-PCR method could identify two rt269 polymorphisms,rt269L and rt269I,in CHB patients with genotype C2 infections.This method could be effectively used for the understanding of disease progression in genotype C2 endemic areas.

Antiviral effects of hepatitis B virus S gene-specific anti-gene locked nucleic acid in transgenic mice

AIM To assess the antiviral effects of hepatitis B virus(HBV) S gene-specific anti-gene locked nucleic acid(LNA) in transgenic mice.METHODS Thirty HBV transgenic mice were acclimatized to laboratory conditions and positive for serum HBV surface antigen(HBs Ag) and HBV DNA, were randomly divided into 5 groups(n = 7), including negative control(blank control, unrelated sequence control), positive control(lamivudine, anti-sense-LNA), and anti-gene-LNA experimental group. LNA was injected into transgenic mice by tail vein while lamivudine was administeredby gavage. Serum HBV DNA and HBs Ag levels were determined by fluorescence-based PCR and enzymelinked immune sorbent assay, respectively. HBV S gene expression amounts were assessed by reverse transcription polymerase chain reaction. Positive rates of HBsA g in liver cells were evaluated immunohistochemistry.RESULTS Average rate reductions of HBs Ag after treatment on the 3 rd, 5 th, and 7 th days were 32.34%, 45.96%, and 59.15%, respectively. The inhibitory effect of antigene-LNA on serum HBs Ag peaked on day 7, with statistically significant differences compared with pretreatment(0.96 ± 0.18 vs 2.35 ± 0.33, P < 0.05) and control values(P < 0.05 for all). Average reduction rates of HBV DNA on the 3 rd, 5 th, and 7 th days were 38.55%, 50.95%, and 62.26%, respectively. This inhibitory effect peaked on the 7 th day after treatment with anti-gene-LNA, with statistically significant differences compared with pre-treatment(4.17 ± 1.29 vs 11.05 ± 1.25, P < 0.05) and control values(P < 0.05 for all). The mR NA levels of the HBV S gene(P < 0.05 for all) and rates of HBsA g positive liver cells(P < 0.05 for all) were significantly reduced compared with the control groups. Liver and kidney function, and histology showed no abnormalities. CONCLUSION Anti-gene-LNA targeting the S gene of HBV displays strong inhibitory effects on HBV in transgenic mice, providing theoretical and experimental bases for gene therapy in HBV.

Nucleic acid vaccines: A taboo broken and prospect for a hepatitis B virus cure

Although a prophylactic vaccine is available,hepatitis B virus(HBV)remains a major cause of liver-related morbidity and mortality.Current treatment options are improving clinical outcomes in chronic hepatitis B;however,true functional cure is currently the exception rather than the rule.Nucleic acid vaccines are among the emerging immunotherapies that aim to restore weakened immune function in chronically infected hosts.DNA vaccines in particular have shown promising results in vivo by reducing viral replication,breaking immune tolerance in a sustained manner,or even decimating the intranuclear covalently closed circular DNA reservoir,the hallmark of HBV treatment.Although DNA vaccines encoding surface antigens administered by conventional injection elicit HBVspecific T cell responses in humans,initial clinical trials failed to demonstrate additional therapeutic benefit when administered with nucleos(t)ide analogs.In an attempt to improve vaccine immunogenicity,several techniques have been used,including codon/promoter optimization,coadministration of cytokine adjuvants,plasmids engineered to express multiple HBV epitopes,or combinations with other immunomodulators.DNA vaccine delivery by electroporation is among the most efficient strategies to enhance the production of plasmid-derived antigens to stimulate a potent cellular and humoral anti-HBV response.Preliminary results suggest that DNA vaccination via electroporation efficiently invigorates both arms of adaptive immunity and suppresses serum HBV DNA.In contrast,the study of mRNA-based vaccines is limited to a few in vitro experiments in this area.Further studies are needed to clarify the prospects of nucleic acid vaccines for HBV cure.

Prospects for nucleic acid-based therapeutics against hepatitis C virus

In this review,we discuss recent advances in nucleic acid-based therapeutic technologies that target hepatitis C virus(HCV)infection.Because the HCV genome is present exclusively in RNA form during replication,various nucleic acid-based therapeutic approaches targeting the HCV genome,such as ribozymes,aptamers,siRNAs,and antisense oligonucleotides,have been suggested as potential tools against HCV.Nucleic acids are potentially immunogenic and typically require a delivery tool to be utilized as therapeutics.These limitations have hampered the clinical development of nucleic acid-based therapeutics.However,despite these limitations,nucleic acid-based therapeutics has clinical value due to their great specificity,easy and large-scale synthesis with chemical methods,and pharmaceutical flexibility.Moreover,nucleic acid therapeutics are expected to broaden the range of targetable molecules essential for the HCV replication cycle,and therefore they may prove to be more effective than existing therapeutics,such as interferon-αand ribavirin combination therapy.This review focuses on the current status and future prospects of ribozymes,aptamers,siRNAs,and antisense oligonucleotides as therapeutic reagents against HCV.

The effect of mycophenolate acid on hepatitis B virus replication in vitro

OBJECTIVE: To use 2.2.15 cell line to determine the effects of mycophenolate acid (MPA) on hepatitisB virus (HBV) replication and viral protein synthesis in vitro.METHODS: The 2.2.15 cells were treated with different concentration of MPA (1-50 μg/ml) for 12days. HBsAg and HBeAg were detected in the supernatant fluid by ELISA and intracellular HBV DNAwas analyzed quantitatively by slot blot hybridization.RESULTS: MPA could suppress the expression of HBsAg and HBeAg, and the higher concentration ofMPA induced lower expression of HBsAg and HBeAg. The suppression rates of MPA for HBsAg andHBeAg at a concentration of 50 μg/ml were 34.2% and 24.1% respectively. The expression of HBVDNA was only 49% as compared with controls when treated with MPA at a concentration of 50 μg/ml.CONCLUSIONS: Mycophenolate acid can suppress the expression of HBsAg and HBeAg as well as thereplication of HBV DNA in the 2.2.15 cell. The suppressive degree is dose-dependent.

Construction of Three Nucleic Acid Vaccines of Swine Hepatitis E Virus ORF2 Ger\e Continuous Fragment

In order to develop swine hepatitis E （HE） genetically engineering vaccines, specific primers of genes LB1, LB2, LB3 of swine hepatitis E virus were designed and used for amplification, DNA amplieons generated by PCR assays were directly cloned into T-A plasmid and expressed using pEASY-M1 expression vector. Three recombinant eukaryotic expression plasmids of pEASY-LB1, pEASY-LB2 and pEASY-LB3 were constructed. The eukaryotic expression plasmids of pEASY-LB1, pEASY-LB2, and pEASY-LB3 were transfected into 293T cells, and three target genes were detected by real-time fluorescent quantitative RT-PCR. The results confirmed that three eukaryotic expression plasmids were transfected into 293Teells and target protein was expressed. Analysis by SDS-PAGE electrophoresis and Western-blot indicated that three target proteins were expressed in 293T cells transfected with eukaryotic expression plasmids of pEASY-LB1, pEASY-LB2 and pEASY-LB3. Antigenicity studies indicated good HEV responses. Therefore, three recombinant DNAs of HEV ORF2 nucleic acid vaccine candidates were ob- tained, which might lay the foundation for further studies in the future.

Antiviral Effects of Stichopus japonicus Acid Mucopolysaccharide on Hepatitis B Virus Transgenic Mice

Hepatitis B virus(HBV) is a significant global pathogen and efficient cure for HBV patients is still a challenging goal. We previously reported that acidic mucopolysaccharide from stichopus japonicus selenka(SJAMP) could inhibit HBs Ag and HBe Ag expression in vitro. However, the potential anti-HBV effects of SJAMP in vivo have not yet been explored. In this study, we show that SJAMP exhibits potent anti-HBV activity in HBV transgenic mice in a dose-dependent manner. Specifically, sixty HBV transgenic male BALB/c mice were randomly selected to receive the treatment of PBS, low dose SJAMP(30 mg kg^(-1)), middle dose SJAMP(40 mg kg^(-1)), high dose SJAMP(50 mg kg^(-1)) and IFN(45 IU kg^(-1)) for 30 d. SJAMP treatment suppressed serum HBV-DNA, and liver HBs Ag and HBc Ag levels in HBV-transgenic mice. The present study highlights the potential application of SJAMP in HBV therapy.

Evaluation of the diagnostic value of total bile acids/platelets in HBV related liver fibrosis

Objective:Explore the diagnostic value of total bile acids/platelets in HBV related liver fibrosis.Methods:160 patients with chronic HBV infection admitted to the Infection Department of the First Affiliated Hospital of Hainan Medical College from February 2021 to December 2022 were selected.They were divided into two groups based on the degree of liver fibrosis detected by liver biopsy:significant liver fibrosis group and non-significant liver fibrosis group.The total bile acid/blood platelet levels and their correlation with liver fibrosis in the two groups were compared and observed,and the efficacy of other non-invasive liver fibrosis diagnostic models was evaluated.Results:(1)Compared with the non-significant liver fibrosis group,the significant liver fibrosis group showed an increase in total bile acid levels,a decrease in platelet levels,and a significant increase in total bile acid/platelet levels(P<0.05).(2)Platelets decrease with the increase of liver fibrosis degree,total bile acids increase with the increase of liver fibrosis degree,and total bile acids/platelets increase with the increase of liver fibrosis degree.(3)The area under the curve(AUC)of total bile acid/platelet,APRI,FIB-4,and elastography in diagnosing the degree of liver fibrosis were 0.69,0.57,0.56,and 0.68,respectively.Conclusions:The diagnostic efficacy of total bile acids/platelets in diagnosing HBV related liver fibrosis is no less than that of other liver fibrosis diagnostic methods,and it is non-invasive,simple,and convenient,which is worthy of further clinical promotion and validation.

Impact of hepatitis B virus infection on hepatic metabolic signaling pathway

A growing body of epidemiologic research has demonstrated that metabolic derangement exists in patients with hepatitis B virus(HBV) infection, indicating that there are clinical associations between HBV infection and host metabolism. In order to understand the complex interplay between HBV and hepatic metabolism in greater depth, we systematically reviewed these alterations in different metabolic signaling pathways due to HBV infection. HBV infection interfered with most aspects of hepatic metabolic responses, including glucose, lipid, nucleic acid, bile acid and vitamin metabolism. Glucose and lipid metabolism is a particular focus due to the significant promotion of gluconeogenesis, glucose aerobic oxidation, the pentose phosphate pathway, fatty acid synthesis or oxidation, phospholipid and cholesterol biosynthesis affected by HBV. These altered metabolic pathways are involved in the pathological process of not only hepatitis B, but also metabolic disorders, increasing the occurrence of complications, such as hepatocellular carcinoma and liver steatosis. Thus, a clearer understanding of the hepatic metabolic pathways affected by HBV and its pathogenesis is necessary to develop more novel therapeutic strategies targeting viral eradication.

Evidence-based consensus on the diagnosis, prevention and management of hepatitis C virus disease

Hepatitis C virus(HCV) is a potent human pathogen and is one of the main causes of chronic hepatitis round the world. The present review describes the evidencebased consensus on the diagnosis, prevention and management of HCV disease. Various techniques, for the detection of anti-HCV immunoglobulin G immunoassays, detection of HCV RNA by identifying virus-specific molecules nucleic acid testings, recognition of core antigen for diagnosis of HCV, quantitative antigenassay, have been used to detect HCV RNA and core antigen. Advanced technologies such as nanoparticlebased diagnostic assays, loop-mediated isothermal amplification and aptamers and Ortho trak-C assay have also come to the front that provides best detection results with greater ease and specificity for detection of HCV. It is of immense importance to prevent this infection especially among the sexual partners, injecting drug users, mother-to-infant transmission of HCV, household contact, healthcare workers and people who get tattoos and piercing on their skin. Management of this infection is intended to eradicate it out of the body of patients. Management includes examining the treatment(efficacy and protection), assessment of hepatic condition before commencing therapy, controlling the parameters upon which dual and triple therapies work, monitoring the body after treatment and adjusting the co-factors. Examining the treatment in some special groups of people(HIV/HCV co-infected, hemodialysis patients, renal transplanted patients).

Hepatitis B virus X protein promotes liver cell proliferation via a positive cascade loop involving arachidonic acid metabolism and p-ERK1/2

Hepatitis B virus X protein （HBx） plays a crucial role in the development of hepatocellular carcinoma. Here, we sought to identify the mechanisms by which HBx mediates liver cell proliferation. We found that HBx upregulated the levels of cyclooxygenase-2 （COX-2）, 5-1ipoxygenase （5-LOX） and phosphorylated extracellular signal-regulated protein kinases 1/2 （p-ERK1/2） in liver cells. HBx-induced p-ERK1/2 was abolished by inhibition of Gi/o proteins, COX or LOX. In addition, HBx increased the amounts of prostaglandin E2 （PGE2） and leukotriene B4 （LTB4） released from cell lines derived from hepatocytes. Moreover, these released arachidonic acid metabolites were able to activate ERK1/2. Interestingly, activated ERK1/2 could upregulate the expression of COX-2 and 5-LOX in a positive feedback manner. In conclusion, HBx enhances and maintains liver cell proliferation via a positive feedback loop involving COX-2, 5-LOX, released arachidonic acid metabolites, Gi/o proteins and p-ERK1/2.

Effects of SAHA on proliferation and apoptosis of hepatocellular carcinoma cells and hepatitis B virus replication

AIM: To investigate the effects of suberoylanilide hydroxamic acid(SAHA) on proliferation and apoptosis of a human hepatocellular carcinoma cell line(HepG2.2.15) and hepatitis B virus(HBV) replication.METHODS: HepG2.2.15 cells were treated with different concentrations of SAHA.Cell morphology was examined by confocal laser scanning microscopy,and cell proliferation was determined using a MTT colorimetric assay.Flow cytometry was used to detect apoptosis and determine cell cycle phase,while hepatitis B surface antigen and hepatitis B e antigen content were measured using chemiluminescence.Reverse transcription polymerase chain reaction was performed to measure HBV DNA in cell lysate.RESULTS: Cell proliferation rates were significantly reduced by the addition of SAHA.The inhibitory effect of SAHA on cell proliferation was both time-and dosedependent.After 24 h of treatment with SAHA,the early cell apoptotic rate increased from 3.25% to 21.02%(P = 0.041).The proportion of G0 /G1 phase cells increased from 50.3% to 65.3%(P = 0.039),while that of S phase cells decreased from 34.9% to 20.6%(P = 0.049).After 48 h of treatment,hepatitis B surface antigen and hepatitis B e antigen content increased from 12.33 ± 0.62 to 25.42 ± 2.67(P = 0.020) and 28.92 ± 1.24 to 50.48 ± 1.85(P = 0.026),respectively.Furthermore,HBV DNA content increased from 4.54 ± 0.46 to 8.34 ± 0.59(P = 0.029).CONCLUSION: SAHA inhibits HepG2.2.15 cell proliferation,promotes apoptosis,and stimulates HBV replication.In combination with anti-HBV drugs,SAHA may potentially be used cautiously for treatment of hepatocellular carcinoma.

2D-QSAR Studies on Anthranilic Acid Derivatives: A Novel Class of Allosteric Inhibitors of Hepatitis C NS5B Polymerase

Quantitative structure activity relationship （QSAR） studies were performed on 45 anthranilic acid derivatives for their potent allosteric inhibition activities of HCV NSSB polymerase. Genetic algorithm based genetic function approximation （GFA） method of variable selection was used to generate the model. Highly statistically significant model with r^2 = 0.966 and r^2cv = 0.951 was obtained when the number of descriptors in the equation was set to 5. High r^2pred value of 0.884 indicates the good predictive power of the best model. Spatial descriptors of radius of gyration （RadOfGration）, molecular volume （Vm）, length of molecule in the z dimension （Shadow-Zlength）, thermodynamic descriptors of the octanol/water partition coefficient （LogP） and molecular refractivity index （MR） showed enormous contributions to HCV NS5B polymerase inhibition. The validation of the model was done by leave-one-out （LOO） test, randomization tests and external test set prediction. The model gives insight on indispensable structural requirements for the activity and can be used to design more potent analogs against HCV NSSB polymerase.

不同核酸提取方法对HBV-DNA检测性能验证情况分析

目的评估2种乙型肝炎病毒(HBV)-DNA提取方法及2家检测试剂的性能,有助于选择优化提取试剂和检测试剂。方法2023年4月采用达安全自动核酸提取仪提取法(磁珠法)和手工提取法(一步法),并用达安和圣湘2种HBV-DNA试剂检测,对其进行精密度、正确度、线性范围、检出限及抗干扰能力等性能进行验证和评价。结果达安全自动核酸提取仪提取达安试剂检测、手工提取达安试剂检测和手工提取圣湘试剂检测在精密度、正确度、线性范围、检出限方面验证结果均达标;达安全自动核酸提取仪提取圣湘试剂检测在低值检测中变异系数大于5%,最低检测限验证不合格;抗干扰能力方面,全自动核酸提取仪提取的2.0 g/dL血红蛋白浓度的样本用达安和圣湘试剂检测结果均不受影响。手工提取甘油三酯浓度达3000 mg/dL的样本用达安和圣湘试剂检测的结果均不受影响。结论不同厂家的提取和检测试剂避免混用,达安和圣湘试剂对HBV-DNA定量检测的结果均符合要求。

HBV、HCV、HIV血筛多中心研究免疫学灰区的核酸检测分析与临床特征研究

目的分析化学发光灰区标本的临床特征及核酸检测对化学发光灰区标本结果判断的指导性意义。方法收集2021年7月—12月全国不同地区的5家综合医院入院患者术前/输血前血源性传播疾病样本检测结果,对化学发光灰区检测结果的标本进行核酸检测结果及临床特征分析。结果5723例样本中总计检出HBV免疫灰区样本28例(占比0.49%),HCV灰区样本20例(占比0.35%)。经核酸检测验证,28例HBV灰区样本中,15例HBV样本核酸检测为阳性(占比53.5%),其HBcAb也均为阳性;13例HBV样本核酸检测为阴性(占比46.5%),其中HBcAb阳性4例。HBV与HCV免疫检测灰区在临床各个科室均有发现,出现HBV灰区样本最多的前三科室为骨科、妇科、泌尿科,灰区样本核酸验证假阳性最多的临床科室为妇科与骨科。HCV灰区样本最多的前三科室为泌尿、肾内、外科,且均为假阳性。HBV灰区样本患者临床诊断结果有35.7%(10/28)为肿瘤类疾病,HCV灰区样本患者临床诊断结果有40%(8/20)为肿瘤类疾病。结论化学发光法容易造成假阳性结果,应注意复检验证,且设置灰区并非必要。灰区样本可见于多个临床科室,具有一定的临床分布特征。核酸检测可以提高检测灵敏度并且更大限度保证结果的准确性,能够验证免疫检测灰区。

HBV感染孕妇早期胆汁酸谱检测在妊娠期肝内胆汁淤积症诊断中的应用

目的探讨HBV感染孕妇早期胆汁酸谱检测在妊娠期肝内胆汁淤积症(ICP)诊断中的应用价值。方法回顾性分析2020年1月—2022年12月无锡市妇幼保健院收治的186例HBV感染孕妇,根据ICP诊断标准将其分为单纯HBV组(124例)和HBV并发ICP组(62例),收集两组孕妇一般资料及妊娠早期围保肝生化指标和胆汁酸谱检测结果,采用单因素分析、多因素logistic回归分析HBV感染孕妇并发ICP的主要影响因素,ROC曲线分析预测诊断效能。结果与HBV组比,HBV并发ICP组AST[(46.60±38.98)U/L比(30.97±31.49)U/L,P=0.004]、ALT[(50.80±36.81)U/L比(40.32±29.45)U/L,P=0.037]、DBil[(6.07±2.34)μmol/L比(4.73±1.83)μmol/L,P<0.001]、TBA[(16.98±2.48)μmol/L比(6.01±2.34)μmol/L,P=0.010]明显升高,CA[(0.59±0.49)μmol/L比(0.40±0.34)μmol/L,P=0.007]、GCA[(2.41±1.04)μmol/L比(1.52±0.70)μmol/L,P<0.001]、GDCA[(0.92±0.35)μmol/L比(0.67±0.37)μmol/L,P<0.001]、GCDCA[(2.14±0.89)μmol/L比(1.67±0.56)μmol/L,P<0.001]也升高,且AST、DBil、GCA、GDCA、GCDCA为HBV并发ICP的主要危险因素(P<0.05);AST、DBil、GCA对HBV并发ICP诊断价值较高(分别AUC 0.747、0.725、0.761);GCDCA、GDCA的诊断价值一般(AUC 0.667、0.688)。结论胆汁酸谱GCA、GCDCA、GDCA亚型升高及AST、DBil升高均是HBV感染孕妇并发ICP发生的主要危险因素,且GCA的预测诊断价值最高,临床应结合肝功能指标综合诊断。

基于HBV感染的确认探讨核酸检测反应性献血者的归队策略

目的基于血液筛查核酸检测反应性献血者的HBV感染的确认,探讨核酸检测反应性献血者的归队策略。方法联合应用自建的高灵敏度核酸检测体系、血液核酸筛查等多种核酸检测(NAT)方法,并结合血清学检测、献血者随访,对核酸检测反应性(NAT-yield)献血者中的HBV感染进行确认和感染状态识别。依据确认的HBV感染血浆样本,比较不同确认方法、确认指标或指标组合对HBV感染确认的效果。结果2010年11月—2021年2月,在血液筛查检出的876位NAT-yield献血者中共确认HBV感染者511人(OBI 451人,急性早期HBV感染者27人,不能确认感染者33人,无感染者30人,不能确认HBV感染者335人)。采用单检系统对混检系统检出的HBV感染血浆进行复测的检出率为96.6%,明显高于混检系统对单检系统检出的HBV DNA反应性(HBV DNA R)组和鉴别试验无反应性(NDR)组的复测检出率(76.4%和55.7%)(P<0.05)。NDR样本在模式2(ID×5+鉴别×2)下复测检出率(65.2%)高于模式1(ID×2+鉴别×1)(39.2%)(P<0.05);2种单检复测模式下的HBV DNA R样本复测检出率无明显差异(P>0.05),但均明显高于NDR样本(P<0.05)。回溯OBI献血者既往NAT数据,有46%经历多次NAT检测而未能检出。有59.1%OBI献血者随访检不出HBV DNA。OBI献血者中抗-HBc+占比为90.2%,单独抗-HBc+为49.2%,远高于不能确认感染组(P<0.05);HBeAg、抗-HBe和抗-HBc IgM在OBI和不能确认感染组中的比例极低且无差异(P>0.05)。结论近60%的NAT-yield献血者可以确认HBV感染。为保证献血者归队的安全性,需要更高灵敏度的HBV DNA确证技术提高HBV感染的确认率。抗-HBc是NAT-yield献血者OBI风险排查和归队评估最重要的血清学指标。

慢性乙型肝炎者外周血SAA/CRP、NLR水平与HBV-DNA载量、病情程度的相关性分析

目的探究慢性乙型肝炎(chronic hepatitis B,CHB)患者外周血淀粉样蛋白A(serum amyloid A,SAA)与C反应蛋白(C-reactive protein,CRP)比值(SAA/CRP)、中性粒细胞与淋巴细胞比值(neutrophils lymphocytes ratio,NLR)水平与乙型肝炎病毒-脱氧核糖核酸(HBV-DNA)载量及病情程度的相关性。方法选取2020年6月至2022年6月达州市中西医结合医院100例CHB患者作为研究组,根据病情程度分为轻度(单纯CHB,n=36)、中度(乙肝代偿期肝硬化,n=33)和重度(乙肝失代偿期肝硬化,n=31)。另选同期、同年龄段50例健康志愿者作为对照组,比较研究组不同病情程度、对照组一般资料、血清SAA/CRP、NLR水平,并比较研究组不同HBV-DNA载量患者血清SAA/CRP、NLR水平,分析CHB患者血清SAA/CRP、NLR水平与HBV-DNA载量、病情程度的相关性;所有患者均行抗病毒治疗,治疗24周,比较不同抗病毒疗效患者治疗前、治疗后12周、24周血清SAA/CRP、NLR水平及变化值,分析治疗前后血清SAA/CRP、NLR水平变化值预测疗效的价值。结果重度CHB患者血清SAA/CRP、NLR水平>中度CHB患者>轻度CHB患者>健康人群(P<0.05);高载量患者血清SAA/CRP、NLR水平>中载量患者>轻载量患者(P<0.05);CHB患者血清SAA/CRP、NLR水平与HBV-DNA载量(r=0.756、0.709)、病情程度(r=0.776、0.745)呈正相关(P<0.05);无应答患者治疗后12周、24周外周血SAA/CRP、NLR水平均高于应答患者,变化值均低于应答患者(P<0.05);SAA/CRP△1、NLR△1单独预测的AUC分别为0.752、0.773,联合预测△1的AUC为0.861;SAA/CRP△2、NLR△2单独预测的AUC分别为0.796、0.819,联合预测△2的AUC为0.967,大于联合预测△1的AUC(P<0.05)。结论CHB患者的SAA/CRP、NLR与CHB HBV-DNA载量及病情程度具有相关性,临床可通过其水平变化评估病情及预测预后。

慢性乙型肝炎患者接受核(苷)酸类似物抗病毒治疗后血清HBV-DNA的表达及临床意义

目的探讨慢性乙型肝炎(CHB)患者接受核(苷)酸类似物(NAs)抗病毒治疗后血清乙型肝炎病毒脱氧核糖核酸(HBV-DNA)的表达及临床意义。方法回顾性分析2021年1月至2022年10月河南省人民医院83例采用NAs抗病毒治疗的CHB患者临床资料,根据血清学应答标准将其分为应答组(46例)和未应答组(37例)。比较两组基线资料、治疗前及治疗3、6、12个月时血清HBV-DNA水平;绘制受试者工作特征(ROC)曲线,以曲线下面积(AUC)检验血清HBV-DNA对CHB患者NAs抗病毒治疗未应答的预测价值。结果治疗前,应答组和未应答组HBV-DNA比较,差异无统计学意义(P>0.05);两组治疗前至治疗12个月的HBV-DNA呈下降趋势,组间、时点、交互效应有统计学意义(P<0.05)。绘制ROC曲线显示,治疗3个月时HBV-DNA对CHB患者NAs抗病毒治疗未应答的预测价值较低(AUC=0.694,P=0.002),治疗6个月时HBV-DNA对CHB患者NAs抗病毒治疗未应答具有一定预测价值(AUC=0.751,P<0.001)。结论血清HBV-DNA表达在CHB患者NAs抗病毒治疗前后变化明显,且治疗6个月时血清HBV-DNA可作为抗病毒治疗未应答的预测指标。

Occult hepatitis B virus infection and blood transfusion

Transfusion-transmitted infections including hepatitis B virus(HBV) have been a major concern in transfusion medicine. Implementation of HBV nucleic acid testing(NAT) has revealed occult HBV infection(OBI) in blood donors. In the mid-1980 s, hepatitis B core antibody(HBc) testing was introduced to screen blood donors in HBV non-endemic countries to prevent transmission of non-A and non-B hepatitis. That test remains in use for preventing of potential transmission of HBV from hepatitis B surface antigen(HBs Ag)-negative blood donors, even though anti-hepatitis C virus testshave been introduced. Studies of anti-HBc-positive donors have revealed an HBV DNA positivity rate of 0%-15%. As of 2012, 30 countries have implemented HBV NAT. The prevalence of OBI in blood donors was estimated to be 8.55 per 1 million donations, according to a 2008 international survey. OBI is transmissible by blood transfusion. The clinical outcome of occult HBV transmission primarily depends on recipient immune status and the number of HBV DNA copies present in the blood products. The presence of donor anti-HBs reduces the risk of HBV infection by approximately five-fold. The risk of HBV transmission may be lower in endemic areas than in non-endemic areas, because most recipients have already been exposed to HBV. Blood safety for HBV, including OBI, has substantially improved, but the possibility for OBI transmission remains.