Gene/Protein
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Drug
Enzyme
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Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Query: UMLS:C0021051 (
immunodeficiency
)
71,517
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In a randomized crossover trial, gastric acidity and gastric
microbial colonization
in 19 men infected with human
immunodeficiency
virus (HIV) (of whom nine had AIDS) were assessed. Gastric acidity was assessed during a baseline period and following pentagastrin or glutamic acid administration. Only two (22.2%) of the nine patients with AIDS and none of the non-AIDS patients were hypochlorhydric, as determined by maximal acid output. However, 60% and 67% of patients in the HIV-infected and AIDS groups, respectively, had persistently elevated gastric pH values during the baseline period. Both pentagastrin and glutamic acid significantly increased gastric acidity. Gastric colonization with Candida albicans and gram-positive mouth flora was common. Overall, this study demonstrates that many HIV-infected patients have elevated gastric pH values that may lead to alteration in drug absorption. The large degree of intrasubject and intersubject variability observed in gastric pH suggests that, unfortunately, one cannot predict which patients will have elevated gastric pH values.
...
PMID:Alterations in gastric acidity in patients infected with human immunodeficiency virus. 874 28
The progression of chronic-relapsing infectious disease (CRID) depends on a combination of cumulative immune-mediated responses of the human body, which, in turn, are united by a number of the common mechanisms. The mechanisms are called as the post-infectious clinical-immunological syndrome (PICIS) to demonstrate the features and scale of imbalances of immune homeostasis. PICIS usually accompanies most of the known CRID to define the type of the disease, to predict the progression of and risks for the complications to be risen as well. PIFIS is generally provoked by either infectious pathogens of various nature or by the atypical immune responses from the infected patient, or by the onset of the disease itself, or by the inadequate antimicrobial therapy. Three forms of PICIS which depend on two key factors have been described. These included: (i) the spectrum of a
microbial colonization
landscape; (ii) the antimicrobial immunity itself to generate, for instance, either of three alternative PICIS, namely, (1) postinfectious secondary
immunodeficiency syndrome
(PISIS); (2) postinfectious autoimmune syndrome (PIAIS), and (3) PISIS combined with PIAIS, i.e. PISIDAS. The dominant monosyndrome-like form of associated immune imbalances in CRID patients is PISIS. PISIS occurs in more than a third of the clinical cases to stress the autoaggression (PIFAS), or combininative form of the immune-mediated imbalances, i.e. PISIDAS. In the process of the development of CRID, PISIS can give a way to either PIAIS or PISIDAS. Besides the immune-mediated imbalances, an essential role in the pathogenesis of CRID and PICIS is also attributed to the infectious factors capable of forming microbial associates in the pathogenesis of PICIS. Therefore, treatment of such patients should be directed not only at the elimination of the infectious pathogen(s), but also at the restoration of the physiological level of the immune homeostasis impaired by PICIS.
...
PMID:[Post-infectious clinical-immunological syndrome and its place in clinical practice]. 2048 Oct 55
The lung microbiome plays a significant role in normal lung function and disease. Because
microbial colonization
is likely influenced by
immunodeficiency
, one would speculate that infection with human
immunodeficiency
virus (HIV) alters the lung microbiome. Furthermore, how this alteration might impact pulmonary complications now seen in HIV-infected patients on antiretroviral therapy (ART), which has shifted from opportunistic infections to diseases associated with chronic inflammation, is not known. There have been limited publications on the lung microbiome in HIV infection, many of them emanating from the Lung HIV Microbiome Project. Current evidence suggests that the lung microbiome in healthy HIV-infected individuals with preserved CD4 counts is similar to uninfected individuals. However, in individuals with more advanced disease, there is an altered alveolar microbiome characterized by a loss of richness and evenness (alpha diversity) within individuals. Furthermore, as a group the taxa making up the HIV-infected and uninfected lung microbiome are different (differences in beta diversity), and the HIV-infected population is more spread out (greater dispersion) than the uninfected population. These differences decline with ART, but even after effective therapy the alveolar microbiome in HIV-infected individuals contains increased amounts of signature bacteria, some of which have previously been associated with chronic lung inflammation. Furthermore, more recent investigations into the lung virome in HIV infection suggest that perturbations in lung viral communities also exist in HIV infection, and that these too are associated with evidence of lung inflammation. Thus, it is likely both microbiome and virome alterations in HIV infection contribute to lung inflammation in these individuals, which has important implications on the changing spectrum of pulmonary complications in patients living with HIV.
...
PMID:Lung microbiome in human immunodeficiency virus infection. 2749 18
