UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To investigate the prevalence of hepatitis C virus and human immunodeficiency virus infection in female inmates, 504 out of 513 female inmates in a certain female prison in Japan were tested for anti-hepatitis C virus, anti-hepatitis B virus, anti-hepatitis A virus and anti-human immunodeficiency virus makers. They were also interviewed with regard to past history of blood transfusion, tattooing, acupuncture, intravenous drug abuse, and psychiatric disease. Prevalence of seropositives for anti-hepatitis C virus antibody was found to be significantly higher in prisoners who had a history of intravenous drug abuse (63%) compared to the controls (4.5%). There was no difference between the two groups in prevalence of seropositivity for anti-hepatitis B, anti-hepatitis A and anti-human immunodeficiency virus. Of all inmates who had a history of intravenous drug abuse, anti-hepatitis C positives used drugs longer and in greater quantities than anti-hepatitis C negatives. From these results it is concluded that intravenous drug abuse is a predominant risk factor for hepatitis C virus infection.
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PMID:[Prevalence of hepatitis C virus and human immunodeficiency virus infection among female prison inmates in Japan]. 909 54

The influence of human immunodeficiency virus (HIV) infection and vaccination schedule on the immunogenicity of a hepatitis A vaccine was examined. Ninety HIV-infected homosexual men received two vaccinations with hepatitis A vaccine (each 2 mL of 720 ELISA units/mL) either 1 or 6 months apart; 44 HIV-uninfected men received vaccine at study entry and at 6 months. Anti-hepatitis A virus (HAV) titer after vaccination was measured in 83 HIV-positive and 39 HIV-negative men. Seroconversion (anti-HAV antibody > or = 20 IU/L) after two vaccinations occurred more frequently in HIV-negative men (100% vs. 88.2%; P = .03). Anti-HAV titer after two vaccinations was also significantly greater in HIV-negative men (1086 vs. 101 IU/L; P = .0001). HIV-positive men who responded to vaccination had significantly more CD4 lymphocytes (mean, 540/microL) at baseline than those who did not (280/microL; P = .033). Vaccine schedule did not affect response. Vaccination of susceptible patients against HAV should be recommended early in HIV infection using the shorter course to encourage compliance.
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PMID:Response to hepatitis A vaccination in human immunodeficiency virus-infected and -uninfected homosexual men. 933 68

The prevalence and risk factors for acquisition of human T-cell lymphotropic virus type I and II (HTLV-I and II) were investigated in a prospective study of 913 injecting drug users (IDUs) in Stockholm in 1994. Epidemiologic data were recorded, and blood samples were tested for antibodies against HTLV-I and HTLV-II; human immunodeficiency virus (HIV) types 1 and 2; and hepatitis A (HAV), B (HBV), C (HCV), and D (HDV). Positive serologic results for HTLV were confirmed by Western blot (WB) and polymerase chain reaction (PCR). Of the 905 participants with conclusive HTLV-II status, 29 (3.2%) were HTLV-II positive, and all but three were of Nordic descent. None was HTLV-I infected. One person was infected as early as 1981, before HIV had reached the IDU population in Sweden. The prevalence of HTLV-II infection was 12% among HIV-1-seropositive and 1.8% among HIV-1-seronegative participants. The overall seroprevalences were 14% for HIV-1, 0% for HIV-2, 41% for HAV, 75% for HBV, 92% for HCV, and 8% for HDV. Although amphetamine has been the main injecting drug in Sweden for several decades, heroin abuse combined with a debut of injecting drugs before 1975 was identified as the most important risk factor associated with HTLV-II infection. HAV and HIV seropositivity were also independent risk factors.
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PMID:Prevalence and risk factors for HTLV-II infection in 913 injecting drug users in Stockholm, 1994. 934 59

We experienced Hepatitis A, B, C and fulminant hepatitis due to Herpes simplex virus type 1 (HSV-1) in our hospital for the severely multi-disabled (SMD) who had both severe motor and intellectual disabilities, and some of whom might be further complicated by blindness and/or deafness. In this hospital, 100 SMDs are hospitalized. Case 1: The disabled, 25 year old male, was transmitted Hepatitis A from a nurse. Case 2: The disabled, 60 year old female carrier of Hepatitis B virus (HBV) who has been cared for more than 10 years. Case 3: The disabled, 46 year old male carrier of Hepatitis C virus (HCV) (RNA type 3), has been cared for more than 4 years. Case 4: The disabled, 39 year old male, had a fever of 39 degrees C for 9 days and suddenly died. He was diagnosed as fulminant hepatitis due to HSV-1 by necropsy. The hospitals for SMD are characteristic in prevention of nosocomial infections; 1) The disabled infected is not aware of the fact that he or she is the source of infection and that the other disabled living with him or her are in risk of infection, because of their severe mental condition. 2) All of the disabled need complete or incomplete helps for activities of daily life (ADL), so that the disabled who is the carrier of some pathogen constantly gives risk of infection to staffs, including medical staffs (doctor, nurse and therapist), psychologist and helpers by bloody secretion from wounds, saliva, urine, feces as well as menstrual blood. 3) If a carrier of some pathogen is hospitalized, the staffs should serve under risk of infection involving blood-mediated infectious disease for many years, because SMDs are permitted lifelong stay in the hospitals for SMD, which also play a role of care house or institution, by public expense in Japan. In case of an outbreak of Hepatitis A, nosocomial infection ended in the original case (a nurse), another nurse and a case of the disabled by general treatment and care against communicable diseases of the digestive organs. In care of HBV and HCV carriers, an ordinary program to prevent nosocomial infection has been practiced in our hospital more strictly than in conventional hospital. HBV vaccine is injected to staffs caring the HB carriers who are negative on HBs antibody. Thus, during more than 10 years of care of HBV carrier and more than 4 years of care of HCV carrier, nosocomial infection has never been experienced clinically as well as serologically in our hospital. However, we have often been faced by difficulty to guarantee QOL (quality of life) of the carriers, because carrier states of HBV or HCV have been long-lasting and they have been occasionally and inevitably separated physically and/or psychologically in order to prevent nosocomial infection. In case 4, it was suspected that previously latently infected HSV-1 would be activated by another viral infection which had elicited fever for 9 days before death. The patient had neither history nor sign or symptom of immunodeficiency and had never been given drugs known as to be immunosuppressive as side effect.
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PMID:[Characteristic situation on prevention of nosocomial infection in the hospital for the severely multi-disabled--experiences in care and treatment of 4 kinds of viral hepatitis]. 948 86

A serological survey of confiscated orangutans was conducted to determine the prevalence of specific viral infections cross reacting with human viruses. Antibodies specific for human hepatitis A (HAV) and B (HBV) viruses, herpes simplex viruses (HSV), and human T-lymphotropic virus (HTLV types I and II), as well as for the simian type D retroviruses (SRV types 1 to 3) and simian immunodeficiency virus (SIV) were tested in samples from 143 orangutans. Results revealed a high prevalence of potential pathogens. The most prevalent viral infection found was HBV (59.4% prevalence) of which 89.4% of infected individuals seroconverted to the non-infectious state and 10.6% remained as chronic carriers. Antibodies to HAV, HSV, HTLV-1, and SRV were also detected but at a lower prevalence. There was no evidence of lentiviral infections in this group of animals. The results confirm the importance of quarantine and the need for diagnostic differentiation of virus infections to determine if they are of human origin or unique orangutan viruses.
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PMID:Seroprevalence of specific viral infections in confiscated orangutans (Pongo pygmaeus). 960 41

Currently, six distinct types of hepatitis virus have been identified: A, B, C, D, E, and G. Hepatitis A virus infection does not cause a chronic carrier state, and perinatal transmission is extremely uncommon. Hepatitis B can be transmitted perinatally, but immunization of the newborn with hepatitis B immune globulin and hepatitis B vaccine markedly reduces the risk of neonatal infection. Hepatitis D virus is dependent on coinfection with the hepatitis B virus for replication. Immunoprophylaxis against hepatitis B also is effective against hepatitis D. Hepatitis C virus is primarily transmitted by the parenteral route and is particularly likely to cause chronic liver disease. Perinatal transmission of hepatitis C principally occurs in women who have high titers of HCV-RNA or who are coinfected with human immunodeficiency virus. At this time, no immunoprophylaxis for hepatitis C is available. Hepatitis G, a recently described organism, is related to hepatitis C. Its clinical significance remains undetermined. Hepatitis E is transmitted in a manner similar to hepatitis A. Perinatal transmission is unusual, but maternal disease is often severe.
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PMID:Hepatitis in pregnancy. 973 92

Discoveries of new human viruses and new technologies for their detection have made, and will continue to make, major contributions to the safety of blood transfusion. This article discusses the practical issues involved in the implementation of additional serological screening tests for viruses such as human T-lymphotropic virus, and reviews current information on the prevalence and pathogenicity of more recently discovered viruses, such as hepatitis G virus (HGV) or GB virus-C (GBV-C) and human herpes virus 8, a potential aetiological agent of Kaposi's sarcoma. Progress in the technology behind nucleic acid amplification techniques, such as the polymerase chain reaction (PCR), makes direct detection of viruses such as human immunodeficiency virus and hepatitis C virus possible. The use of such methods for screening will allow the earlier detection of acutely-infected individuals and the elimination of transmission from 'window' period donations before seroconversion for antibody. Establishing a framework for PCR-based screening would also enable the testing for others such as hepatitis A virus, parvovirus B19 and GBV-C/HGV for which serological detection methods cannot be or have not been developed.
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PMID:Transfusion virology: progress and challenges. 974 87

Despite careful donor selection and virus inactivation procedures, transmission of viruses by transfusion of blood and blood derivatives is still a threat. Outbreaks of hepatitis A among hemophiliacs having received highly purified, immune globulin depleted coagulation factor concentrates, put the importance of immune neutralization of viruses in blood derivatives in focus. Neutralizing antibodies may block several steps in the virus infection of a cell, from binding of virus to the cellular receptor to the uncoating of virus after uptake in the cell. The efficacy of antibody neutralizing activity depends on the availability and stability of the neutralizing epitopes. Hepatitis A and B viruses are very efficiently neutralized by antibodies and immune escape mutants rarely emerge. Anti-parvovirus B19 antibodies do not fully inactivate the virus, at least in low concentrations, but may prevent development of disease. The neutralizing epitopes on hepatitis C virus and human immunodeficiency virus are located on hypervariable regions of virus membrane proteins. The effects of neutralizing antibodies are thus marginal as immune escape mutants emerge at a relatively high frequency for both viruses. The neutralizing activity of anti-cytomegalovirus antibodies is also questionable as persons may become reinfected with cytomegolvirus despite high levels of antibodies. Plasma and plasma derivatives produced from large donor pools have the potential of being very efficient transmitters of viruses. Neutralizing antibodies are Nature's own, and very important barriers against the spread of many known and unknown viruses contaminating the plasma pools.
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PMID:Viral safety of blood derivatives by immune neutralization. 978 31

Infectious agents, including viruses, bacteria, and parasites, can be transmitted by human blood products. Of major importance are viruses such as human immunodeficiency virus types 1 and 2 (HIV-1/2), hepatitis B virus (HBV), hepatitis C virus (HCV), and human T-cell lymphotropic virus types I and II (HTLV-I/II). Also, other viruses such as cytomegalovirus, Epstein-Barr virus, human parvovirus B19, and hepatitis A and G viruses can be transmitted by blood products. Various methods are used to prevent transmission of blood-borne agents to recipients, such as donor selection, testing donated blood for various infectious agents, and viral inactivation of plasma derivatives. With all these precautionary measures, the estimated risk for infection by screened blood components in Europe and the United States is approximately 1 in 50,000 to 1.6 million (for HBV, HCV, and HIV-1/2) transfused blood components. In the future, the safety of blood components may be increased by testing donated blood by nucleic acid amplification techniques and by photochemical decontamination of cellular blood components.
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PMID:Transfusion-transmissible infections. 981 46

A study was performed to validate the effectiveness of a bone demineralization process with respect to its inactivation of viruses. The viruses selected for study included human immunodeficiency virus (HIV), duck hepatitis B virus (a model for human hepatitis B), bovine viral diarrheal virus (a model for human hepatitis C), human cytomegalovirus, and human poliovirus (a model for small nonenveloped viruses, e.g., hepatitis A). This study was performed in compliance with Good Laboratory Practice regulations using validation methodology similar to that used to ensure the safety of blood derivatives and other products. Use of the bone demineralization process described in this report resulted in a reduction in infectivity of greater than one million (10(6)) for all viruses and as much as one trillion (10(12)) for the poliovirus.
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PMID:Allograft safety: viral inactivation with bone demineralization. 1016 69

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