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)

Specific antibody synthesis in brain could be detected with maximal sensitivity by combining an advanced enzyme immunoassay with a sophisticated evaluation method that involves calculating the ratio between the cerebrospinal fluid (CSF)/serum quotients for specific antibodies (Qspec) and total IgG (QIgG). This Antibody Index (AI = Qspec/QIgG) discriminates between a blood-derived and a pathological, brain-derived specific antibody fraction in CSF and takes into account individual changes in blood/CSF barrier function. For local synthesis of polyclonal IgG in the central nervous system (QIgG greater than QLim), we propose the correction AI = Qspec/QLim (QLim represents that IgG fraction in CSF originating only from blood, calculated from the individual albumin quotient of a single patient). The normal reference range for the AI was between 0.7 and 1.3 (n = 250 control patients for each antibody species). Values of AI greater than or equal to 1.5 indicated a local specific antibody synthesis in the central nervous system. Sensitivity and precision were greatest if we analyzed the virus-specific antibodies in CSF and serum simultaneously with an enzyme immunoassay in continuous concentrations (arbitrary units) instead of titer steps. We have applied the method successfully to antibodies to measles, rubella, herpes simplex, varicella-zoster, human immunodeficiency virus (HIV), and cytomegalovirus, and to anti-Toxoplasma or -Borrelia antibodies. Clinical relevance is demonstrated for an acute zoster virus infection (monospecific response), chronic diseases such as HIV encephalitis with acute opportunistic Toxoplasma infection, and multiple sclerosis (secondary polyspecific response).
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PMID:Quantification of virus-specific antibodies in cerebrospinal fluid and serum: sensitive and specific detection of antibody synthesis in brain. 185 84

Clinical and pathological evidence of subcortical central nervous system (CNS) damage is observed commonly in patients with human immunodeficiency virus (HIV) encephalitis. Whether other CNS regions are also affected has not been well studied. We report neocortical damage in patients with HIV encephalitis. Using quantitative techniques, we demonstrate statistically significant thinning of the neocortex, with a loss of large cortical neurons. Qualitative and quantitative assessments of neocortical neuropil reveal a loss of synaptic density and vacuolation of dendritic processes. Failure to demonstrate an association of these changes with the presence of HIV antigens suggests that neocortical damage may be an indirect effect of HIV infection of the CNS.
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PMID:Neocortical damage during HIV infection. 190 52

Human immunodeficiency virus (HIV) frequently causes neurological dysfunction and is abundantly expressed in the central nervous system (CNS) of acquired immunodeficiency syndrome (AIDS) patients with HIV encephalitis or myelopathy. The virus is found mostly in cells of the monocyte-macrophage lineage within the CNS, but the possibility of infection of other glial cells has been raised. Therefore, the effects of different HIV-1 and HIV-2 strains were studied in primary cultures of adult human brain containing microglial cells, the resident CNS macrophages, and astrocytes. These cultures could be productively infected with macrophage-adapted HIV-1 isolates but not with T lymphocyte-adapted HIV-1 isolates or two HIV-2 isolates. As determined with a triple-label procedure, primary astrocytes did not express HIV gag antigens and remained normal throughout the 3-week course of infection. In contrast, virus replicated in neighboring microglial cells, often leading to their cell fusion and death. The death of microglial cells, which normally serve immune functions in the CNS, may be a key factor in the pathogenesis of AIDS encephalitis or myelopathy.
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PMID:Specific tropism of HIV-1 for microglial cells in primary human brain cultures. 220 Jan 25

Human immunodeficiency virus (HIV) infections are accompanied by many different types of neurological complications. Opportunistic infections and neoplasms, particularly lymphoma, are often an underlying cause for these complications in patients with acquired immunodeficiency syndrome (AIDS). Frequently, these can be detected by cerebrospinal fluid (CSF) examination, double-dose contrast transmission computed tomography (CT), and/or magnetic resonance imaging (MRI). It has become apparent that the HIV itself is responsible for a significant percentage of neurological disease in the HIV-seropositive individual. The onset may be subtle and may occur before the onset of frank immunosuppression. Diagnosis of HIV encephalitis or AIDS dementia complex (ADC) is complicated by the frequent coexistence of opportunistic infections. Structural neuroimaging (CT or MRI) shows atrophy and in some case white matter abnormalities, but imaging-pathological correlation suggests that these modalities are relatively insensitive to the presence of HIV brain infection. Functional neuroimaging, both 18fluorodeoxyglucose positron emission tomography (PET) for evaluation of glucose metabolism and 123I iodoamphetamine or 99mTc-HMPAO single-photon emission computed tomography (SPECT) for evaluation of cerebral perfusion, can demonstrate abnormalities in the subcortical gray matter structures and the cerebral cortex in patients with ADC. These abnormalities may be observed early in the course of ADC even when MRI is negative and the patient is relatively asymptomatic. Also, PET and SPECT may be useful to follow progression of the dementia or response to therapy.
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PMID:Brain imaging in acquired immunodeficiency syndrome dementia complex. 223 53

In the host cell, retroviral DNAs exist in three main forms: unintegrated linear, unintegrated circular, and integrated (the provirus). High levels of unintegrated forms of retroviral DNA often correlate with superinfection and accompanying cytopathic effects, as, for example, in the case of feline acquired immunodeficiency. In culture, HIV-1 infection also results in high levels of unintegrated viral DNA although direct correlations with cytopathicity have not been made. The low frequency of HIV-1-infected cells in patients has made it difficult to determine the structure of the viral DNA in fresh tissue samples from AIDS patients by standard methods such as Southern hybridization. The PCR technique however, which allows the detection of viral DNA at levels far below that possible by other hybridization methods is, in its conventional form, of limited use for quantitative analysis. To study the amount and form of HIV-1 DNA in primary tissue of AIDS patients we have therefore modified the PCR method. Our results indicate that each of the three species of viral DNA are detectable in blood and brain of AIDS patients, and that in autopsy samples from patients with HIV encephalitis there is a considerably higher proportion of unintegrated viral DNA.
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PMID:High levels of unintegrated HIV-1 DNA in brain tissue of AIDS dementia patients. 229 95

To determine the computed tomographic (CT) and magnetic resonance (MR) imaging manifestations of central nervous system (CNS) infection by the human immunodeficiency virus (HIV), the authors analyzed the results of imaging of the CNS in 24 patients with HIV encephalitis confirmed at autopsy. Careful pathologic correlation demonstrated that neither CT nor MR imaging enabled detection of microglial nodules with multinucleated giant cells, the hallmark of HIV encephalitis seen in all 24 affected patients. The most common abnormality observed on images of the CNS was atrophy, demonstrated in 18 patients. Demyelination and vacuolation of white matter tracts accompanying severe HIV infection caused hypoattenuation on CT scans and hyperintensity on T2-weighted MR images. These lesions had no mass effect. MR imaging was more sensitive than CT in the detection of lesions caused by HIV or other superimposed infectious agents. Although it is often difficult to attribute any radiologic appearance to a single etiologic agent in patients with acquired immunodeficiency syndrome, the combination of atrophy and symmetric, periventricular or diffuse white matter disease suggests HIV encephalitis.
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PMID:Encephalitis caused by human immunodeficiency virus: CT and MR imaging manifestations with clinical and pathologic correlation. 231 79

Brain tissues from 45 patients with AIDS and two brains with connatal cytomegalic inclusion body disease were investigated for a cytomegalovirus (CMV) etiology of encephalitic lesions. Nineteen brains showed evidence of CMV infection by histology, immunocytochemistry (ICC) using two different antibodies (mono- and polyclonal), and in situ hybridization (ISH). Fourteen cases with typical cytomegalic cells in conventional histology [eight with focally necrotizing encephalitis/ventriculitis including the two connatal infections and six with nodular encephalitis (NE)] revealed CMV with any method. In 5 of 15 AIDS cases of NE without cytomegalic cells, CMV infection was established by ISH, whereas ICC remained negative in these cases. Typical lesions of human immunodeficiency virus (HIV)-induced multi-focal giant cell encephalitis (HIV encephalitis) in 13 brains were never labeled for CMV. In necrotizing encephalitis/ventriculitis, cell types which labeled for CMV, with and without cytomegalic change, comprised neurons, astrocytes, oligodendrocytes, ependyma, choroid plexus, endothelia, and cells in peri- and endoneurium, and in leptomeninges. Both ISH and ICC were able to detect widespread non-cytomegalic CMV-infected cells in normal parenchyma, well beyond the necrotizing lesions, in two AIDS cases. Labeling patterns of nuclei versus cytoplasms varied between the three methods for CMV detection. We conclude that in CNS tissues with cytomegalic cells, ICC and ISH are of comparable sensitivity; however, a diagnosis of CMV disease is possible in such cases by conventional histology. For an in situ diagnosis of CMV infection in NE without cytomegalic cells in AIDS, ISH is the method of choice. A selective vulnerability to CMV infection of any specific cell type of the human CNS is absent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytomegalovirus (CMV) disease of the brain in AIDS and connatal infection: a comparative study by histology, immunocytochemistry and in situ DNA hybridization. 255 87

The brains of 26 patients infected with the human immunodeficiency virus (HIV) were examined post mortem. All patients were men, aged 20-67 years (mean 38.8). 13 (50%) were homosexual, 3 (12%) were bisexual, 8 (31%) were haemophiliac, 1 was both an intravenous drug addict and homosexual, and 1 denied belonging to any risk group. Only 3 (12%) brains were normal, whereas 23 (88%) showed abnormalities that varied in severity and complexity. 11 were affected by more than one disease. In addition to neoplasms, opportunistic infections, and vascular lesions, 6 cases of HIV encephalitis were found, characterised by multinucleate giant cells which indicate the presence of HIV. Microglial-macrophage nodules (nodular encephalitis) occurred in 5 cases. Cerebral pathology differed between risk groups: all 6 patients with HIV encephalitis were homosexuals, whereas vascular lesions were more common in haemophiliacs. These observations have fundamental implications for clinical practice and indicate the importance of neuropathological examination in AIDS.
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PMID:Neuropathology of the brain in HIV infection. 256 64

We assessed the capacity of cerebrospinal fluids (CSF) and sera from human immunodeficiency virus (HIV)-seropositive patients to neutralize HIV and to mediate specific antibody-dependent lysis of HIV-infected target cells. A local HIV-specific intrathecal antibody synthesis was found in all stages of HIV infection regardless of neurological manifestations. Virus-neutralizing antibodies could not be detected in the CSF of patients with primary encephalitis or polyneuropathy. Cytotoxic antibodies mediating HIV-specific antibody-dependent cellular cytotoxicity (ADCC) were demonstrable in the CSF of most patients without evidence of central nervous system (CNS) involvement, but only in 43% of cases with HIV encephalitis. In some cases, the exclusive detection of ADCC activity in either the CSF or serum compartment suggested the presence of non-identical target antigens in the CSF and serum of the same patient. Further studies are needed to clarify the significance of these findings for the manifestation of CNS involvement in HIV infection.
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PMID:Human immunodeficiency virus (HIV)-specific antibodies, neutralizing activity and antibody-dependent cellular cytotoxicity (ADCC) in the cerebrospinal fluid of HIV-infected patients. 280 87

The simian immunodeficiency virus (SIV) is closely related to the human immunodeficiency virus (HIV) in genomic organization and morphology. More important, SIV and HIV are both primate lentiviruses that cause transmissible immunodeficiency and encephalitis, with an apparently increased virulence in the immature host. The neuropathological features in common between SIV encephalitis in juvenile macaque monkeys and HIV encephalitis in children include the invasion of brain with virus-laden macrophages, the formation of multinucleated (syncytial) giant cells, and white matter lesions and subtle white matter astrocytosis. Important differences include giant cell leptomeningitis and evidence of necrosis and karyorrhexis in brain macrophage infiltrates in SIV-infected monkeys. These changes probably represent a more acute inflammatory process. The importance of future studies to define pathogenetic features of SIV encephalitis, using molecularly characterized isolates with varying neurovirulence and host range, are emphasized.
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PMID:Comparison of simian immunodeficiency virus and human immunodeficiency virus encephalitides in the immature host. 283 97

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