Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Clinicopathological analysis was performed in 19 patients diagnosed clinically with malignant histiocytosis. Ultimately, 9 patients died and 10 are still alive. All 19 had fever of unknown origin. Among the 10 surviving patients, 6 recovered with only supportive therapy such as antibiotic treatment. One recovered with steroid therapy and 2 with VP (vincristine and prednisolone) therapy. Complications due to immunodeficiency were detected in one surviving patient and 2 who died. All 9 patients who died had anemia, and 8 had thrombocytopenia. However, among survivors, only one had anemia and only 2 had thrombocytopenia. Chromosomal abnormality was detected in one patient who died. Histiocytic cells were classified morphologically into 3 types: immature, intermediate and mature. In 4 patients who died, histiocytic cells were immature, but in 4 others mature histiocytic cells were detected. In 5 of the 10 surviving patients, histiocytic cells were of the immature type. Immuno-histochemical analysis of the origin of histiocytic cells in 8 deceased patients showed T-zone histiocytes in one, T cells in one, monocyte phagocytic system (MPS) in 5, and histiocytes of unknown origin in one. Thus, malignant histiocytosis is a heterogenous entity including reactive histiocytic disorder, lymphocytic neoplasm and true histiocytic neoplasm. In histiocyte proliferative disorders, red blood cell counts and platelet counts are useful for assessing prognosis, while cytological findings only confuse this evaluation.
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PMID:[Evaluation of clinical features, cytopathological findings and prognosis of histiocyte proliferative disorders]. 140 58

Although the etiology of acute leukemia is largely unknown, some facets of the puzzle are becoming clarified. Recognition of important patterns in age-specific mortality rates has suggested that events early in life, perhaps even prenatally, may have an influence on developing leukemia in childhood. The racial differences evident in mortality, incidence, and immunologic subtype of ALL suggest either differences in exposures to certain "factors" or differences in responses to those "factors" by white children. Hereditary factors appear to play a role. Familial and hereditary conditions exist that have high incidences of acute leukemia. Chromosomal anomalies are common in these conditions. Viral infections may play a role by contributing to alteration in genetic material through incorporation of the viral genome. How that virus is dealt with after primary infection seems important. The presence of immunodeficiency may allow wider dissemination or enhanced replication of such viruses, thereby increasing the likelihood of cellular transformation to an abnormal cell. Proliferation of that malignant cell to a clone may depend on other cofactors. Perhaps prolonged exposure to substances like benzene or alkylating agents may enhance these interactions between virus and genetic material. Does this change DNA repair mechanisms? Are viral infections handled differently? Is viral genomic information more easily integrated into host cells? Ionizing radiation has multiple effects. Alteration in genetic material occurs both at the molecular and chromosomal levels. DNA may be altered, lost, or added in the cell's attempt to recover from the injury. These changes may lead to altered susceptibility to other environmental agents, and host response may be altered. The past 40 years have seen dramatic progress in the treatment of ALL. We have just begun to unravel the complex interactions of genetic makeup, immune response, and the environment on the development of ALL. Whether factors can be identified that may allow prevention of acute leukemia remains to be seen.
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PMID:Epidemiology of acute lymphoblastic leukemia. 385 24

Bruton's agammaglobulinemia is a rare X-linked humoral immunodeficiency manifesting with recurrent bacterial infections early in life. Klinefelter's syndrome caused by an additional X chromosome is the most common sex chromosome disorder. A previously unreported association of these two conditions is described here.
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PMID:X-Linked agammaglobulinemia in a child with Klinefelter's syndrome. 2447 49