UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reconstitution of blood and its components is hampered by factors of compatibility, availability, and the risk of transmission of infectious diseases. Protozoal agents such as plasmodium malariae and trypanosoma cruzi are only regionally relevant. Bacterial transmissions are easy to prevent and treat. Antibody, antigen, and nucleic acid screening have been implemented to prevent transmission of blood-borne viruses. Transfusion-relevant viruses include hepatitis B and C virus (HBV and HCV), human immunodeficiency virus (HIV), human T leukemia virus (HTLV-I), and in certain circumstances, parvovirus B19, hepatitis A virus (HAV), and cytomegalovirus (CMV). Of great concern is the possible transmission of prion protein causing transmissible spongiform encephalopathy. Of future interest will be whether other viruses such as Nipah and Hendra virus are blood-borne and whether viruses such as TT, SEN, and GBV-C are involved in diseases or their progression, while not causing hepatitis.
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PMID:Virus safety of human blood, plasma, and derived products. 1237 92

Fresh frozen plasma (FFP) contains higher levels of intact coagulation factors and coagulation and fibrinolysis inhibitors than solvent/detergent-treated plasma (SD plasma), and also greater residual cell contamination. SD plasma is a particle-free plasma of uniform quality. SD treatment, however, has the specific result of reducing the activities of some inhibitors. Both plasma types carry a minimal residual risk of transmitting human immunodeficiency virus (HIV)-1/2, hepatitis virus B (HBV), and hepatitis virus C (HCV), but SDP is, in addition, also safe with respect to other lipid-enveloped viruses and perhaps with respect to hepatitis virus A (HAV), also due to its antibody (Ab) content. Future revisions of therapeutic plasma safety and quality standards should consider the following points:For FFP:reduce residual cell count in all FFP units to values below 5 x 10(6) leukocytes/l;screen donors for Parvovirus B19 genome and antibodies in order to establish a sufficiently large collection of genome-negative and antibody-positive donors whose FFP can be used for selected patients;For SDP:introduce pool testing for Parvovirus B19 genome; fix an upper limit for genome and a lower limit for antibody content;in addition to the standard quality control methods for therapeutic plasma, focus on assays to test for functionally intact proteinase inhibitors such as alpha(2)antiplasmin (alpha(2)AP) and alpha(1)proteinase inhibitor (alpha(1)PI) that are important for plasma indications. Commercially available kits may not be sufficient to show changes in inhibition kinetics. For both types:introduce an activation marker such as thrombin-antithrombin complex (TAT) as a random test to monitor activation processes during withdrawal, separation, manufacturing, and storage;abolish inappropriate parameters like Antithrombin III (AT III) and coagulation factor XI that are not relevant for changes in plasma quality;finally, support every effort towards establishing an efficient documentation and reporting system on efficacy and side effects of plasma transfusions. Effective reporting alone might help to reveal deficiencies of specific plasma quality and to overcome them through modifications to manufacturing processes and testing, or by defining its indications more precisely.
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PMID:Quality of therapeutic plasma-requirements for marketing authorization. 1237 93

In an effort to determine the cause of non-A-E hepatitis, a retrospective study was undertaken on a group of patients with hepatitis but without serological infection markers of hepatitis viruses A-E. A total of 60 patients admitted to Beijing Ditan Hospital during the period of September 1997 and September 1999 were chosen for this study. These patients were diagnosed as either acute or chronic hepatitis, but no serological markers of hepatitis viruses A-E were detected. Since TT virus (TTV), human parvovirus B19 (B19), SEN virus (SENV), and GB virus C/HGV were reported to be associated with hepatitis, attempts were made to detect the presence of these viruses in the sera of patients with non-A-E hepatitis by a nested polymerase chain reaction (nPCR) method. Also, more sensitive nPCR and RT-nPCR methods were used to determine HBV DNA and HCV RNA in these patients. Results derived from these analyses demonstrate that HBV DNA was detected in most of these patients (47/60, 78.3%), suggesting that HBV infection played a major role in occult non-A-E hepatitis and detection of HBV DNA by more sensitive PCR methods such as nPCR should be considered for diagnosis of HBV infection. In addition, HCV RNA was detected in three (5%) of these patients. However, GBV-C (HGV) RNA was not detected, and TTV, B19, and SENV appear not to be associated with non-A-E hepatitis, as the prevalence rates of these viruses in patients with non-A-E hepatitis were similar to those in patients with viral hepatitis A-E. The results from this study indicate that co-infection of TTV or B19 with HBV did not increase the severity of the disease.
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PMID:Retrospective analysis of non-A-E hepatitis: possible role of hepatitis B and C virus infection. 1243 78

Erythrovirus B19 (B19) previously called parvovirus B19 is the only human pathogen in the family Parvoviridae. B19 is an autonomously replicating small single stranded non-enveloped DNA of 5.5 Kb with hairpin termini through which it replicates, when the cells are in the S-phase. Virus host interactions are mediated through the capsid protein VP2 attaching to P antigen receptor expressed on certain host cells, which imparts narrow host and tissue tropism. It affects the progenitor red cells, megakaryoblast, endothelial cells and a few organs like the kidney and the heart. VP1 antibodies are neutralizing, non-structural protein NS-1 exert cell cytotoxicity while NS-2 regulates replication. The virus is present world-wide. Most infections are asymptomatic but individuals with red cell defect, immune system defects or immunosuppression manifest disease, which may be persistent. In the immunocompetent host it causes erythema infectiosum in children, arthralgia or chronic polyarthritis especially in females, nonimmune hydrops foetalis, several haematological disorders and recently fulminant hepatitis in children. The virus is transmitted through the upper respiratory tract by droplets, transfusion of blood or its components (factor VIII) and transplacentally. The incubation period is 6-11 days after intranasal inoculation, in human volunteers. Detection of IgM antibodies is most important in serological diagnosis. Viral DNA can be detected by polymerase chain reaction (PCR) or hybridization procedures in patients sera or infected tissues. Intravenous immunoglobulin can be used in the treatment as well as in prophylaxis. In view of its increasing association with a wide variety of clinical diseases, a closer look in its biology, host virus interactions and evaluation of VP1 and VP2 recombinant proteins as B19 vaccines are areas which need the urgent attention of parvovirologists, epidemiologists and clinicians.
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PMID:Erythrovirus B19 infection in humans. 1245 23

Parvovirus B19 has been proposed as the etiological agent of fulminant hepatitis (FH) or hepatitis-associated aplastic anemia (HAA). We studied the prevalence of parvovirus B19 in liver-tissue samples from patients with FH and HAA and from control subjects. In the first study, parvovirus B19 DNA was detected by nested polymerase chain reaction (PCR) in 4 of 15 livers from patients with FH and in 3 of 22 livers from patients with nonviral hepatic disease. In a second confirmatory study, livers were tested for parvovirus B19 and its variant erythroviruses, V9 and A6. Tissues were also tested by reverse-transcriptase PCR for the presence of parvovirus B19 transcripts as a marker of viral replication. There was no significant difference in the prevalence of parvovirus B19 DNA in livers from patients with FH or HAA, compared with liver-tissue samples from patients with hepatitis B virus (HBV) or hepatitis C virus (HCV) infection; parvovirus B19 transcripts were not detected. There was a significant increase (P<.1) in the prevalence of variant erythrovirus sequences in livers of patients with HBV or HCV hepatitis, the reason for which is currently unknown.
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PMID:Prevalence of parvovirus B19 in liver tissue: no association with fulminant hepatitis or hepatitis-associated aplastic anemia. 1272 38

Despite improvements in the management of transplanted patients, viral infections following transplantation remain significant causes of morbidity and mortality. New laboratory techniques have improved the diagnosis of pathogenic viral infections following transplantation such as parvovirus B19 infections. Anemia is the principal abnormality associated with parvovirus B19 infection but other complications have been reported such as hepatitis, glomerulonephritis, myocarditis or arthritis. In immunocompromised patients, infection, which may remain undiagnosed by serological tests is usually assessed by PCR. Patients may spontaneously recover. However, in the absence of specific antiviral therapy, intravenous immunoglobulin appears to be the more efficacious treatment.
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PMID:[Parvovirus B19 infection after renal transplantation]. 1458 98

Over the past several years, there has been an increase in knowledge pertaining to the diagnosis and management strategies for the herpes family (Types 1-8), the pox viruses, mumps, measles, rubella, and parvovirus B19 as well as the viral etiologies of hepatitis. Various antiviral treatments, such as nucleoside analogs and interferon therapy, have been available to reduce the signs and symptoms of these common viral infections. This article summarizes the preferred treatment strategies to be employed for each of the viruses for reducing severity, duration, recurrences (notably in the herpes family), transmission rates, as well as preventive alternatives. The majority of the therapeutic options attenuate the course of disease. Treatment decisions are driven by knowledge of the natural history and often are tailored to incorporate clinical circumstances for individual patients. Promotion of community awareness and the development of vaccines should be emphasized in the battle against these common viruses, particularly the herpes simplex viruses, the pox viruses, and hepatitis B.
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PMID:Therapy of other viral infections: herpes to hepatitis. 1557 96

Infantile hepatitis is occasionally seen in apparently healthy children. In most cases, the etiology of the infection is uncertain. However, cytomegalovirus (CMV), Epstein-Barr virus (EBV), human herpesvirus-6 (HHV-6), human herpesvirus-7 (HHV-7), human parvovirus B19, and TT virus (TTV) are considered to be associated with hepatitis in children. The objective of this study was to investigate the correlations between these viruses and infantile hepatitis. Twenty-six children from 1 to 24 months old (median age, 7 months) who had liver dysfunction of unknown etiology were enrolled in this study. Plasma samples were examined by a real-time PCR assay for CMV, EBV, HHV-6, HHV-7, parvovirus B19, and TTV DNA. The DNA of CMV was detected in the plasma of four patients (15.4%) and was detected significantly more often in the patient group than in the control group. The CMV-infected patients were 1 to 3 months old, which was significantly younger than the remaining patients. The serological findings did not always correlate with the results of the real-time PCR assay. The DNA of TTV was detected in four patients (15.4%), while human parvovirus B19 DNA was detected in three (11.5%). However, the detection frequencies of these viral DNAs were not significantly different from those in the control groups, and some of these patients had co-infections. These results indicate that CMV might be one of the major pathogens responsible for infantile hepatitis; however, serological tests have limited utility for the diagnosis of CMV infection in young children.
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PMID:Association of cytomegalovirus with infantile hepatitis. 1611 5

Acute viral hepatitis with hepatitis A, B, C, D, and E viruses in the etiology of fulminant hepatic failure either single or in combinations has been described. Parvovirus B19 is also an etiologic agent of acute liver failure and hepatitis-associated aplastic anemia. We present a patient diagnosed with fulminant hepatitis A referred for liver transplantation. Parvovirus B19 superinfection was detected when the patient developed anemia during the course of the disease. We discuss possible roles of both viruses in fulminant hepatitis and pure red cell aplasia.
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PMID:Hepatitis A and parvovirus B19 infections in an infant with fulminant hepatic failure. 1683 Mar 3

Erythema infectiosum is the main manifestation of human parvovirus B19 infections. Further B19-related diseases commonly associated with the acute infection are flue-like symptoms, transient aplastic crisis, transient arthralgias, leukopenia and thrombocytopenia, spontaneous abortion and hydrops fetalis in pregnant women. Hepatitis, myocarditis, meningitis, encephalitis as well as pure red cell anemia may occur occasionally. In addition parvovirus B19 infections have been frequently described as cause or trigger of various forms of autoimmune diseases affecting all blood cell lines, joints, connective tissue, uvea, large and small vessels. Molecular mimicry may be one major contribution to the appearance of autoimmune antibodies, f.e. antiphospholipid and antineutrophil cytoplasmic antibodies as well as antinuclear antigens. These mechanisms implicated in the pathogenesis of parvovirus B19 triggered autoimmune diseases, especially focused on the development of antiphospholipid antibodies will be discussed in this short review.
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PMID:Human parvovirus B19 infection and antiphospholipid antibodies. 1741 98

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