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Target Concepts:
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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A semiautomated dot blot assay and cDNA polymerase chain reaction (PCR) were used to study longitudinal anti-hepatitis C virus (HCV) recognition patterns in relation to presence of HCV-RNA in transfusion recipients and their infectious donors. In 9 recipients, 4 different patterns of HCV infection were observed: (A) persistent HCV carriage accompanied by chronic hepatitis in 6, (B) acute resolved
hepatitis
, but persistent HCV replication in one, and (C) continuous HCV replication without
hepatitis
in one and (D) acute resolved
hepatitis
with clearance of infection in one. This last self-limited infection was characterized by the disappearance of HCV-RNA as well as anti-HCV reactivity. In contrast, antibody reactivity persisted in 7 of 8 patients with chronic HCV infection who could be followed until 1990. Seven of the 9 recipients developed antibodies to all recombinant peptides in dot blot assay; one became positive for anti-
C33
and anti-core and one developed anti-core only. The sequence of appearance of antibodies differed among individual patients. In 7 patients with full anti-HCV recognition patterns, the sequence of events was (mean and limits in days after transfusion): onset of
hepatitis
at day 50 (22-74), seroconversion of anti-
C33
at day 91 (59-129), anti-core at day 133 (54-203), and anti-C100 at day 143 (59-365). The incorporation of
C33
and core proteins, in addition to C100, in the second generation anti-HCV ELISA enhanced the detection rate in the HCV-infected transfusion recipients from 7/9 (78%) to 9/9 (100%).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Patterns of serological markers in transfusion-transmitted hepatitis C virus infection using second-generation HCV assays. 133 9
Comparative results between anti-HCV screening tests have shown better performances with 2nd generation tests than with 1st generation assays, since anti-C100-3 antibodies are less reliable and less durable than anti-
C33
c and anti-C22-3 antibodies. Comparison between the four 2nd generation commercialized assays (Ortho, Abbott, Pasteur, Ubi-Organon) done on the
hepatitis
study group panel and on 109 samples from 18 patients collected before, during and after anti-HCV seroconversion, has shown similar results for most of the samples but some discordances on samples with isolated anti-C100-3 or anti-
C33
c antibodies. For the 18 patients, 3 discordances were observed between the four assays. These three discordances concerned 3 of the 6 seroconversions with anti-
C33
-c as the first detectable antibody. In two cases, Ubi-Organon assay did not recognize the seroconversion as early as the 3 other assays; in another case, it was the Pasteur assay which answered later than the other assays. As for the 15 other patients, no difference was observed between the four assays, in particular when anti-C22-3 was one of the first detectable antibodies.
...
PMID:[Screening tests for anti-HCV antibodies: comparative results]. 138 23
Twenty-five patients with post-transfusional C
hepatitis
have been tested retrospectively by IIIrd generation Recombinant Immuno Blot Assay (RIBA) in order to evaluate long-term anti HCV antibodies dynamics. The test was performed 1, 15, 70 and 140 days after the onset of the disease. Fifteen patients recovered and 10 became chronic. In the 15th day anti
C33
and anti C22 were found in 76% of subjects, anti NS5 in 68% and anti C100 in 32%. In the 70th day, 96%, of patients had anti C22, 92% had anti
C33
and anti NS5 and 52% showed anti C100. In the 140th day, all patients were positive for anti
C33
, and C22 and anti NS5, while anti C100 was present in 64%. Five-six years after the acute disease, all chronically progressed patients had a complete antibody pattern by RIBA III, while anti C22 was the only positive persisting antibody, among the recovered patients. Anti C22, anti
C33
and anti NS5 shorten the serological "window-phase" during acute hepatitis, but no further improvement in diagnostic precocity seems to be guaranteed by third generation RIBA. The precocious appearance of complete RIBA III pattern during acute hepatitis may represent a herald for a chronic evolution of the disease.
...
PMID:[Long-term study of anti-HCV reactivity using 3d generation recombinant immunoblot assay in acute post-transfusion hepatitis]. 750
Hepatitis C virus (HCV) infection is associated with a wide spectrum of liver disease ranging from asymptomatic carriage to severe forms of chronic hepatitis. HCV is not invariably pathogenic and genetic heterogeneity of HCV could be a major cause of such a variability. In clinical practice this means that presence and replication of the virus do not invariably imply a virus-induced liver damage. IgM antibodies that are the best diagnostic tools for the other forms of viral hepatitis are not sensitive and specific enough for hepatitis C, therefore we have to look for alternatives. Detection of anti-HCV does not help to distinguish past from present infections and only anti-HCV seroconversion in previously negative patients can indicate a recent HCV infection. However, the significant association between serum anti-C100-3 and HCV-RNA suggests that anti-HCV can be considered an indirect marker of HCV infectivity. In anti-HCV-negative infections and early acute hepatitis cases HCV-RNA detection will represent a valid diagnostic alternative. In patients undergoing antiviral therapy monitoring anti-HCV by immunoblotting assays and HCV-RNA by quantitative assays represent a valid tool to predict response that invariably has occurred in patients who had undetectable serum HCV-RNA and/or decreasing anti-HCV titres. Assays that detect multiple anti-HCV antibodies all together appear unsuitable for monitoring because they miss the disappearance of single antibodies. Anti-C22 appears the most frequent and earliest to be detected and usually it has the highest titre. Anti-C100 titres decrease earlier than anti-
C33
and anti-C22 in patients with chronic HCV
hepatitis
who respond to antiviral therapy. The natural course of HCV infection appears to be characterized by three consecutive phases: disease, asymptomatic carrier and recovery. If transition from the first to the last occurs very slowly or the disease phase persists for years it may warrant in susceptible hosts severe forms of liver disease.
...
PMID:Hepatitis C virus infection and liver disease: peculiar epidemiological and clinicopathological features. 752 24
HCV RNA was determined by the polymerase chain reaction (PCR) in 41 haemodialysed patients with a known anti-HCV status (ELISA and RIBA-2) and a monthly alanine aminotransferase (ALT) level determination. No histological examination of the liver tissue was available. Four samples from each patient were collected at 6 month intervals for 18 months. Seven patients negative for anti-HCV during the entire follow-up gave negative PCR results on the four samples. Two patients who were anti-HCV-negative upon entry into the study seroconverted to HCV during follow-up. HCV RNA was detected during the acute phase of
hepatitis
. HCV RNA was no longer detectable after antiviral therapy was administered to one patient. Out of 27 anti-HCV-positive patients, 24 had persistent viraemia, 2 had transient viraemia (1 sample PCR-negative and 3 samples PCR-positive) and 1 was PCR-negative on the 4 samples. Thirteen of the 26 viraemic patients had a normal ALT level during the preceding 3 years. Three patients with a C22-3 band alone by RIBA-2 were negative by PCR, whereas two patients with a
C33
-c band alone were PCR-positive on the four samples. These results suggest that HCV viraemia was strongly associated with anti-HCV in haemodialysed patients with or without biological
hepatitis
.
...
PMID:Detection of hepatitis C virus by polym erase chain reaction in haemodialysed patients in relationship to anti-HCV status. 839 76
Hepatitis C is the most common cause of post-transfusion
hepatitis
, as well as of the viral chronic liver disease in the western world. However since it is even more often asymptomatic than HBV, this is not truly recognized. The detection of hepatitis C can only rely on serological and virological methods and require their extensive use in screening programs. Following the molecular identification characterisation of HCV, it became possible to detect virus specific antibodies. The first generation Elisas were limited in their scope and have been replaced by second and third generation tests with better sensitivity and specificity. These assays detect antibodies to several sets of HCV protein including the C22 core, the
C33
and C100, which correspond to the non structural regions (NS3 and NS4 respectively). More recently, NS5 proteins have also been added and synthetic peptides have replaced some of the recombinant proteins used initially. In spite of improved sensitivity and specificity, last generation Elisas still require confirmation by supplemental assays which can be of different types (immunoblot or combined Elisas) and include sets of structural and non structural recombinant proteins or peptides. New tests are needed to improve sensitivity and proficiency of this mandatory confirmation procedure. It is unclear at this stage whether the dogma inherited from HIV to request two sets of reactive antibodies will be also warranted by experience in HCV infection. The biggest limitation of present HCV tests is the delayed appearance of anti-HCV following primary infection. Even more worrisome is the fact that 10% of chronic infection with liver disease still remain seronegative, despite circulating HCV RNA in serum and/or liver as well as expressing HCV antigen demonstrable in liver tissue by immunostaining. Such a proportion is even more common in settings with immune deficiencies including organ transplantation and HIV infection. DNA amplification methods, such as PCR or others, must be used in order to demonstrate HCV RNA in combination with reverse transcription steps. This new powerful technology must be however applied under stringent quality control procedures and cannot be yet considered for screening or routine diagnosis although it can detect viremia as early as a week after exposure and help to monitor interferon treatment. During acute hepatitis, the delay in the appearance of anti-HCV hampers acute phase diagnosis. The early detection of HCV RNA in peripheral blood, confirms the diagnosis and opens up therapeutic possibilities. In chronic hepatitis, the diagnosis of seronegative forms may only be resolved by PCR. Moreover, the presence of HCV RNA in peripheral blood represents the only marker of on going viral replication and coincides with the severity of liver damage. During treatment with interferon, the follow up of HCV RNA sequences makes it possible to monitor its efficacy. The search for HCV RNA sequences directly in liver tissue shows that HCV may replicate in the liver in the absence of viremia. The presence of HCV RNA in the liver and the serum of liver transplanted patients is essential for the etiological diagnosis and management of
hepatitis
and bone marrow failure occurring after transplantation. Epidemiological study using PCR is a major tool in documenting vertical transmission between mother and child. Finally, PCR is important for the analysis of the HCV genome. Thus, in France there are at least three main strains, one close to the US prototype, the other close to the Japanese strain, possibly responsible for a more severe illness, and a third one distinct from the previous two. Two major HCV genotypes, F1 and F2, corresponding to HCV type I and II (USA prototype and Japanese) with prevalence of 45% and 55% respectively, were found in France. F1 infected patients were younger and more often male than F2 group. Nine of 28 patients in F1 genotype infected group had history of drug abuse but none i
...
PMID:[Limits of immunoserologic and molecular diagnosis of hepatitis C]. 929 65
An enzyme-linked immunosorbent assay (ELISA) was developed for the determination of hepatitis B virus (HBV) core protein (p21c) using monoclonal antibody (mAb) directed to a phosphorylated C-terminal amino acid sequence that is not present in hepatitis B e antigen (HBeAg). HBV virions in the test serum were precipitated with horse polyclonal antibody to hepatitis B surface antigen (HBsAg), dissolved with Tween 20 and NaOH, and then neutralized. HBV core protein (p21c), released from HBV cores by this procedure, was sandwiched between immobilized mAb
C33
directed to amino acids (aa) 133-140 of the core protein, fixed on a solid support and labeled mAb T2212 that recognizes aa 165-175, only when they are phosphorylated. The method was applied for the detection of phosphorylated p21c in sera from symptom-free carriers and patients with chronic hepatitis. The results indicated a higher extent of phosphorylation in p21c of HBV cores from symptom-free carriers than
hepatitis
patients.
...
PMID:An enzyme-linked immunosorbent assay with monoclonal antibodies for the determination of phosphorylated hepatitis B core protein (p21c) in serum. 967 36
