UMLS:C0027947 - FACTA Search

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Query: UMLS:C0027947 (neutropenia)
17,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The association of lithium carbonate and antiblastic drugs has been studied in 22 patients suffering from tumours to see whether it was able to prevent or attenuate the neutropenising effect and establish whether its protection action on leucocytaemia was not just transitory but was maintained for prolonged treatment also. Patients were submitted to four oncolytic treatment cycles during which administration with LiCO3 was associated with the first and third cycles (LNLN sequence) in 14 patients and with the second and fourth (NLNL sequence) in the other 8. Statistical analysis of the results obtained confirmed that lithium carbonate performs a protective action with respect to antiblastic-induced neutropenia and that the action is long term. The drop in monocytes also seems to diminish after administration of lithium carbonate.
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PMID:[Protective effect of lithium carbonate in neutropenia induced by antiblastic agents and evaluation of its long-term efficacy]. 679 12

2 children with cyclic neutropenia were treated with lithium carbonate. In one patient, fever and stomatitis were ameliorated, but the duration of neutropenia was increased and parotitis occurred. In another patient, aphthous stomatitis disappeared but fever persisted. The duration of neutropenia was prolonged and submaxillaritis and sinusitis occurred. Thus, lithium administration may lead to complications when the duration of neutropenia is prolonged. We recommend discontinuation of the drug, even in the presence of amelioration of symptoms.
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PMID:Lithium therapy for cyclic neutropenia in children. 687 5

Twelve adult patients with acute lymphoblastic leukemia (ALL) received lithium carbonate, 300 mg, three times a day during induction treatment. They were compared to 12 similar patients consecutively treated with the same induction regimen; patients and controls were comparable for age, degree and presence of splenomegaly, hemoglobin level, blast cell count, polymorphonuclear (PMN) cell count and platelet count at diagnosis. All patients developed a severe neutropenia. PMN count at nadir was slightly higher in the lithium group, but not at a level of statistical significance (p = 0.100). The median number of days with PMN less than 1 x 10(9)/liter was 4 in the lithium group and 14.5 in the non-lithium group (p = 0.014), while the median number of days with PMN less than 0.5 x 10(9)/liter was 0 and 2 days, respectively (p = 0.004). Duration of thrombocytopenia was similar in the 2 groups and so was the remission rate; 2 infective episodes occurred, one in the lithium group and one in the controls.
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PMID:Lithium and granulocytopenia during induction treatment of adult acute lymphoblastic leukemia. 696 May 90

The cycling of blood cell counts in grey collie dogs with cyclic hematopoiesis can be eliminated by treatment with oral lithium carbonate. To explore the mechanism by which lithium alters this stem cell disorder, studies of bone marrow granulocyte-macrophage progenitor cells (CFU-C), neutrophil colony-forming cells (neutrophilic CFU-C), and colony-stimulating activity (CSA) were performed. In untreated dogs, the proportions of CFU-C were found to fluctuate cyclically, but the cyclic fluctuations in neutrophil colony-forming cells were even more marked, with numbers decreasing to undetectable levels during each period of neutrophilia. Dogs on lithium, however, did not cycle the numbers of total or neutrophilic CFU-C. Tritiated thymidine suicide rates were not altered by treatment with lithium. Serum CSA levels and bone marrow cell elaboration of CSA were not increased by lithium. These studies suggest that lithium corrects cyclic neutropenia by a direct effect on the differentiation and proliferation of CFU-C; normalization of the proportion of CFU-C that enter neutrophilopoiesis appears to be an important effect of the lithium therapy.
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PMID:Cyclic hematopoiesis: effects of lithium on colony-forming cells and colony-stimulating activity in grey collie dogs. 697 96

We treated five children with chronic neutropenia using lithium carbonate and studied the effect in vivo on granulopoiesis. Granulocyte precursors (CFU-C) from blood and marrow, and colony-stimulating activity (CSA) from peripheral blood leukocytes, were assayed in a methylcellulose tissue culture system. Three patterns of response to lithium were seen. In patients with aplastic anemia (one acquired and two Fanconi's aplastic anemia) despite increased colony-stimulating activity, CFU-C numbers remained very low and the neutropenia persisted. In a patient with Kostmann neutropenia colony-stimulating activity, and blood and marrow CFU-C numbers increased, but the agranulocytosis was unchanged. An impressive therapeutic effect was seen in one patient with idiopathic neutropenia with low colony-stimulating activity who responded to lithium with an increase in colony-stimulating activity and CFU-C resulting in persisting normal neutrophil counts. Lithium appears useful in treating a select group of neutropenic patients in whom colony-stimulating activity production is responsive to lithium, and the granulocytic progenitor compartment is capable of producing mature neutrophils.
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PMID:Lithium therapy of children with chronic neutropenia. 723 74

Treatment of cyclic hematopoiesis in the grey collie dog with lithium carbonate eliminated the recurrent neutropenia and normalized the other blood cell counts. These findings suggest that human cyclic hematopoiesis may be successfully treated with lithium. The effects of lithium on the monocytes, platelets, and reticulocytes, as well as the neutrophils, suggest that lithium operates on basic regulatory mechanisms affecting the most primitive hematopoietic precursor cells.
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PMID:Lithium therapy of canine cyclic hematopoiesis. 735 Sep 39

In 19 patients with Felty's syndrome, marrow production of neutrophils and neutrophil distribution were studied. Despite accelerated marrow release and disappearance of mature blood neutrophils, there was little or no increase in the marrow mitotic pool or in vitro progenitor cells. Only two patients had an increase in marrow neutrophils and precursors. Antineutrophil antibody was detected in seven of nine patients studied. Neither abnormal margination of blood neutrophils nor impaired marrow release of cells was detected. Skin exudate cellularity tended to correspond to prior history of infections, asymptomatic patients having more cellular exudates. Sustained neutrophil increments were observed in six of 10 patients following splenectomy, but in no patient did neutrophil kinetics return completely to normal. Three of four patients who failed to respond to splenectomy with sustained increments in blood neutrophils had a reduced mass of marrow neutrophils and neutrophil precursors when studied prior to splenectomy. No diminution in neutropenia was observed in any of five patients treated with lithium carbonate. This study indicates that multiple factors are involved in the pathogenesis of neutropenia in Felty's syndrome. In particular, neutropenia was associated with inadequate marrow granulocytopoiesis. The severity of the impairment, as determined by the mass of marrow neutrophils and precursor cells, may be useful in predicting response to splenectomy.
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PMID:Neutrophil kinetics in Felty's syndrome. 743 11

Lithium is an agent capable of influencing many aspects of blood cell production, in particular, the formation of granulocytes. Because of this property, lithium has been demonstrated to be an effective agent whenever granulocyte production is either faulty or inadequate. The anti-viral drug zidovudine (AZT) has used been extensively in the treatment of acquired immune deficiency syndrome (AIDS). However, its effectiveness is limited because of the myelosuppression and bone marrow toxicity associated with its use. We have previously demonstrated that lithium, when combined with AZT in vitro with normal bone marrow cells or when administered in vivo to mice receiving dose-escalation AZT, reduced the myelosuppression and marrow toxicity of AZT significantly. We report here further studies designed to evaluate the extent of lithium's capacity to modulate AZT toxicity by investigating the ability of lithium to influence blood cell production when administered to normal mice during an initial exposure to AZT. C57BL6 were administered dose-escalation AZT (1.0 mg/ml and 2.5 mg/ml) for a period of 4-weeks in the presence or absence of lithium carbonate (1 mM). This was followed by an additional 4-week period during which mice received only AZT. Animals were analyzed on a weekly basis for their peripheral blood indices. Animals receiving dose-escalation AZT demonstrated anemia, thrombocytopenia, and neutropenia which was dose-related. During the period when animals received combination lithium/AZT, there was significantly less anemia, thrombocytopenia, and neutropenia as compared to the AZT controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lithium and anti-viral drug toxicity: II. Further studies on the ability of lithium to modulate the hematopoietic toxicity associated with the anti-viral drug zidovudine (AZT). 758 37

We studied the cardiopulmonary, hematologic, and inflammatory response to hemodialysis with seven different membranes in sheep. We also compared acetate dialysate with bicarbonate dialysate and evaluated the role of thromboxane in mediating these responses to dialysis with Cuprophan membranes (Baxter Healthcare Corp., Renal Division, Deerfield, Ill.) in sheep. The data generated in these studies indicate that dialyzer membranes can be divided into three major categories, defined by propensity to activate complement. High complement activators such as Cuprophan (low surface-area CF-1511 and high surface-area ST-25 dialyzers) produced dramatic neutropenia and hypoxemia and significant (p < 0.01) increases in the plasma concentration of thromboxane and in mean pulmonary artery blood pressure. The magnitude of these effects appeared to be surface area related. The low-flux Fresenius F-6 polysulfone membrane (Fresenius USA Inc., Concord, Calif.) also resulted in the generation of significant levels of C3a. In contrast, low complement activators such as polyacrylonitrile (AN-69; Gambro Hospal, Inc., Lakewood, Colo.) and cellulose triacetate (CT-110G; Baxter) produced little or no neutropenia, small transient increases in thromboxane, and no rise in mean pulmonary artery pressure. Dialyzers with intermediate complement-activating potential such as cellulose acetate (CA-110; Baxter) and Hemophan (HT-100; Baxter) produced small to moderate degrees of neutropenia and small increases in thromboxane and mean pulmonary artery pressure. Treatment of sheep with sodium ibuprofen before dialysis with Cuprophan CF-1511 membranes prevented the initial increases in mean pulmonary arterial pressure and thromboxane generation and the decrease in arterial oxygen tension, but did not affect the degree of complement activation or neutropenia. In sheep undergoing Cuprophan dialysis, bicarbonate dialysate did not prevent the increase in circulating complement and the associated neutropenia otherwise seen during the early portions of dialysis with acetate dialysate. Bicarbonate dialysate did, however, reduce (not prevent) the initial increases in thromboxane and mean pulmonary arterial pressure, and the magnitude of the hypoxemia seen with the use of acetate dialysate. The results of these experiments therefore indicate that (1) reactions in sheep correlate well with data collected in human beings and the model can be an effective means for comparing novel dialysis membranes and pharmacologic interventions during dialysis and (2) although complement appears to be the transducer of the hematologic and immunologic response, thromboxane appears to be the final effector of the cardiovascular responses to hemodialysis with Cuprophan membranes.
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PMID:Biocompatibility of hemodialysis membranes: evaluation in an ovine model. 843 36

The drug zidovudine (AZT), a synthetic thymidine analogue, has been used in the treatment of acquired immunodeficiency syndrome (AIDS). Clinical use of zidovudine has induced haematopoietic toxicity manifested by anaemia, neutropenia, and overall bone marrow suppression. The monovalent cation lithium has been shown to be an effective agent capable of modulating several aspects of haematopoiesis such as the induction of neutrophilia, thrombopoiesis, and protection against suppression of hematopoietic progenitor stem cells following exposure to anti-cancer drugs and/or radiation at doses commonly used in the treatment of malignant disease. We report here the result of studies designed to evaluate the effectiveness of lithium in reversing zidovudine-induced haematopoietic suppression when administered to normal mice in vivo in the presence of dose-escalation zidovudine. Lithium carbonate (Li2CO3) reversed zidovudine toxicity as measured by increases in peripheral WBC, platelets, and CFU-GM and CFU-Meg haematopoietic progenitors; however lithium was insufficient in reversing the reduction of erythropoiesis associated with zidovudine use in vivo. These results further confirm the effective use of lithium to reverse the development of myelosuppression and thrombocytopenia associated with the anti-viral drug zidovudine, but is less effective in ameliorating the induction of anaemia.
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PMID:Modulation of the haematopoietic toxicity associated with zidovudine in vivo with lithium carbonate. 845 Feb 94

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