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)

Carboxyamido-triazole (CAI) is a synthetic inhibitor of non-excitable calcium channels that reversibly inhibits angiogenesis, tumor cell proliferation, and metastatic potential. Inhibition of calcium influx and calcium-dependent events is a potential common mechanism underlying these effects of CAI. The cytostatic and antiangiogenic properties of CAI led to its development for clinical investigation. In a Phase I clinical trial open to patients with refractory solid tumors, 49 patients received p.o. administered CAI daily or every other day. Two oral formulations, PEG-400 CAI solution and a gelatin capsule containing CAI in PEG-400, were tested. All administered dosages of CAI yielded plasma concentration at or above the range demonstrated to be effective in inhibiting signaling and cancer progression in vitro and in preclinical models (1 microgram/ml, 2.3 microM). Toxicity of p.o. administered CAI most commonly consisted of dose-related grade 1-2 nausea, vomiting, and occasional anorexia. CAI administration at bedtime ameliorated gastrointestinal complaints in many patients; others required addition of simple antiemetic regimens, usually consisting of metoclopropamide or prochlorperazine. Gastrointestinal complaints were the cause for compliance-limiting toxicity at 175 mg/m2/day of the liquid formulation and 125 mg/m2/day of the gelatin capsule formation. Reversible and rare sensory axonal neuropathy (grade 3, 1 patient) and neutropenia (grade 4, 1 patient) were dose-limiting toxicities observed at the 330 mg/m2 every-other-day liquid CAI dose level. No evidence of cumulative end organ damage or central nervous system injury was observed. Disease stabilization and improvement in performance status was observed. Disease stabilization and improvement in performance status was observed in 49% of evaluable patients who had disease progression before CAI. Disease stabilization and associated improvement in performance status was seen in patients with renal cell carcinoma (7 months), pancreaticobiliary carcinomas (3, 5, and 5 months), melanoma (7 months), ovarian cancer (7 months), and non-small cell lung cancer (3 months). The recommended Phase II doses from this trial are 150 mg/m2/day in the liquid formation and 100 mg/m2/day in the gelatin capsule formation.
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PMID:Clinical investigation of a cytostatic calcium influx inhibitor in patients with refractory cancers. 856 73

Neutrophil depletion is commonly used to examine the role of neutrophils in lung injury. However, the effect of neutrophil depletion per se on mechanisms of pulmonary vascular smooth muscle relaxation is unknown. The purpose of this study was to examine the effect of neutropenia on the following mechanisms of cGMP-mediated pulmonary vasorelaxation: (1) receptor-dependent endothelium-dependent relaxation (response to acetylcholine (ACh)), (2) receptor-independent endothelium-dependent relaxation (response to the calcium ionophore A23187), and (3) endothelium-independent relaxation (response to sodium nitroprusside (SNP)). Neutropenia (<75 neutrophils/mu l) was induced with anti-neutrophil antibody serum 24 hr prior to lung harvest in five rats. Saline-injected rats were controls (n = 5). Dose-response curves to ACh, A23187, and SNP were generated in isolated pulmonary artery rings preconstricted with phenylepherine. Statistical comparison was performed using one-way ANOVA with post-hoc Bonferroni-Dunn, and P < 0.05 was accepted as significant. Relaxation to ACh, A23187, and SNP was complete in both control and neutropenic rats. Thus, antibody-mediated depletion does not impair endothelial-dependent or -independent cGMP-mediated pulmonary vasorelaxation.
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PMID:Antibody-mediated neutrophil depletion preserves pulmonary vasomotor function. 860 14

Reperfusion injury, precipitated by lack of oxygen, is likely to play a major role in many clinical conditions, including shock, coronary artery occlusion disease, and solid organ transplantation. Certain tissues, such as the intestinal mucosa, may be especially susceptible because of the specific microvascular anatomy. Structural changes include not only swelling of the organelles but also the entire cell due to the entry of water and electrolytes. Lysosomal ruptures precede cell death. Other key substances which either participate in or are part of oxygen free radical formation in tissue injury are calcium ions, leukocytes, and bacteria. Leukocyte adhesion has been implicated as a critical step in vascular endothelium injury, leading to increased microvascular permeability and thrombosis. Induction of neutropenia or the administration of antileukocyte adhesion monoclonal antibodies, preventing typical injuries, implies a central role of the white blood cells in reperfusion injury. Specifically, oxygen free radical formation in the intestines may trigger or cause injury in other distant organs, e.g., the heart and lungs, and affect overall vascular function. So-called "bacterial translocation" from the intestines to the lymphatic vessels and the bloodstream is a more recently discovered phenomenon whose role is largely unknown. Ischemic preconditioning is still another concept, mainly tested in the canine heart, that has potential clinical applications. Reperfusion of ischemic tissue occurs with solid organ transplantation, often after considerable cold ischemia time. Protective mechanisms include oxygen free radical scavengers, i.e., allopurinol and superoxide dismutase. Other measures proven to be effective during the implantation are blood volume expansion with colloid solutions and/or electrolyte solutions, and the administration of a calcium antagonist. The mechanisms of these measures are likely related to improved renal microcirculation and relief of vasospasm.
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PMID:Reperfusion injury. 877 98

Neutropenia and degranulation of neutrophils during hemodialysis with cellulosic membranes have been linked to complement activation, whereas in the synthetic polymethyl methacrylate (PMMA) membrane, degranulation occurs without notable complement activation. The mechanisms of neutrophil degranulation under these conditions have not yet been elucidated. Ionized calcium is an important prerequisite of granulocyte activation during in vitro blood contact with both types of artificial surfaces. This study compared the effect of normal ionized calcium during heparin anticoagulation with the effect of extracorporeal calcium depletion during regional citrate anticoagulation on activation of blood components. Because ionized calcium is reduced only in the extra-corporeal circuit, citrate anticoagulation in addition helps to differentiate between extracorporeal and systemic activation phenomena. Twelve chronic hemodialysis patients were dialyzed with polymethyl methacrylate (PMMA, 16 treatments) or cuprophane (CUP, 16 treatments) membranes either during regional citrate anticoagulation or while anticoagulated with heparin. During hemodialysis with CUP, anticoagulation with citrate significantly reduced neutropenia, C3a levels, and lactoferrin release. Elastase concentrations, however, were not reduced by citrate, probably because elastase release occurred not locally in the cuprophane dialyzer, but mostly in the systemic circulation of the patient. PMMA did not elevate C3a levels, and neutropenia was only mild. Both parameters were not influenced by citrate anti-coagulation. However, PMMA profoundly induced elastase and lactoferrin release during heparin anti-coagulation. Depletion of ionized calcium markedly reduced PMMA-mediated neutrophil degranulation in the extracorporeal circuit. The results indicate that ionized calcium is a requirement for neutrophil degranulation during hemodialysis. In PMMA membranes, neutrophil degranulation occurs independent of high complement levels, occurs at least partially inside the dialyzer, and requires the presence of ionized calcium in the extracorporeal circuit. In cuprophane membranes, degranulation was uncoupled from neutropenia and did not correlate with the degree of complement activation. Even in cuprophane dialysis, degranulation of secondary granules was markedly dependent on ionized calcium levels in the extracorporeal circuit.
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PMID:Reduction of granulocyte activation during hemodialysis with regional citrate anticoagulation: dissociation of complement activation and neutropenia from neutrophil degranulation. 878 92

The therapeutic effect of most immunosuppressive agents is unspecific and therefore often limited by an increased risk of infection by viral, bacterial or fungal organisms as well as by an increased incidence of malignant neoplasms. This short review includes the most commonly used immunosuppressants such as corticosteroids, azathioprine, methotrexate, cyclophosphamide and cyclosporine. The most common risks of long-term corticosteroid treatment are Cushing-like changes, decreased glucose tolerance and the usually benign steroid diabetes. Also clinically important is osteoporosis, since it can be prevented by physical training, calcium supplementation and treatment with vitamin D if necessary. Although there is still no proof of a significantly increased risk of peptic ulcer during steroid therapy, patients may develop gastrointestinal hemorrhage and even perforation without producing pain while being treated with corticosteroids. Mineralocorticoid effects, such as salt and water retention, are seen only with hydrocortisone and prednisone, whereas with synthetic steroids such as dexamethasone, sodium retention is absent despite their strong antiphlogistic activity. The most important side effect of the cytotoxic agents azathioprine, methotrexate and cyclophosphamide is marrow suppression. Due to the high turnover of neutrophils, patients most frequently suffer neutropenia rather than thrombocytopenia or anemia. Neutropenia, as well as impaired humoral and cellular immune mechanisms, are responsible for increased susceptibility to bacterial, viral or parasitic diseases during immunosuppressive therapy. Hepatotoxicity has been reported among patients receiving azathioprine (cholestatic hepatitis) and methotrexate (elevated AST levels and, rarely, liver fibrosis or cirrhosis). Cyclophosphamide causes hemorrhagic cystitis in a substantial proportion of patients, as well as an increased incidence of urothelial neoplasms. Both these side effects may be prevented by Mesna. The most important side effects of cyclosporine are acute and chronic nephrotoxicity usually associated with significantly elevated plasma levels of the drug. It must be borne in mind that severe nephrotoxicity may occur in patients receiving cyclosporine and ketoconazole together, since the latter may inappropriately increase the plasma cyclosporine level.
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PMID:[Immunosuppression--a tightrope walk between iatrogenic harm and therapy]. 892 65

Human mitochondrial DNA (mt DNA) lesions can cause a heterogeneous group of mitochondrial degenerative disorders. We report on a 5-year-old patient suffering from the full-blown picture of Pearson syndrome. His symptoms started in the first year of life with failure to thrive, followed by chronic diarrhoea and lactic acidosis at 18 months of age. Analysis of mitochondrial DNA revealed large amounts of mt DNA molecules with a 2.7 kb deletion in all tissues examined. The diagnosis of Pearson syndrome was made initially in the absence of haematological disturbances. In the following months neutropenia, sideroblastic anaemia and hypoparathyroidism developed. Daily administration of dichloroacetate (DCA) and bicarbonate controls the lactic acidosis, while episodic treatments with filgastrim (Neupogen) reverse episodes of severe neutropenia. Calcium and vitamin D supplementation compensate for the hypoparathyroidism. Chronic administration of DCA and supportive treatment for a long period help to stabilize patients with multiorgan dysfunction.
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PMID:Pearson marrow pancreas syndrome: a molecular study and clinical management. 921 83

Vesnarinone is a new and novel inotropic drug that has unique and complex mechanisms of action. It inhibits phosphodiesterase, thereby leading to increased intracellular calcium, and also affects numerous myocardial ion channels, resulting in the prolongation of the opening time of sodium channels and the decrease in the delayed outward and inward rectifying potassium current. In vitro, it has also demonstrated significant effects on cytokine production, which may account for some of its observed clinical benefits. Hemodynamic studies in humans with congestive heart failure reveal that vesnarinone can improve ventricular function. Placebo-controlled studies in large numbers of patients with heart failure have suggested a morbidity and mortality benefit with a 60 mg daily dose. There is increased mortality with vesnarinone at the 120 mg daily dose, however, suggesting a narrow therapeutic window for the drug. Its predominant toxic side effect is a 2% incidence of reversible neutropenia.
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PMID:Vesnarinone: a new inotropic agent for treating congestive heart failure. 942 Jun 57

Paclitaxel (Taxol) is an anticancer agent with clinical activity against various human cancer types. Paclitaxel blocks cell division by stabilizing microtubules, a mechanism that also underlies its major side effects (neutropenia and neurotoxicity). Paclitaxel can also alter cardiac function, and to elucidate the mechanism of this activity, we tested the mechanical and electrical effects of paclitaxel and a series of analogs (docetaxel, taxol B, taxol C and N-methyltaxol C; 5-20 microM) on two different cardiac preparations, the isolated coronary perfused heart and the papillary muscle of the guinea pig. Paclitaxel and N-methyltaxol C induced conduction arrhythmias and reduced coronary flow and left ventricular systolic pressure in the isolated heart, whereas the other taxol derivatives tested had no significant effect. Moreover, paclitaxel blocked the vasodilator effect of bradykinin in the isolated heart. Paclitaxel and N-methyltaxol C produced a positive inotropic effect in papillary muscle, without alterations in the action potential. In the latter preparation, no significant variations were observed after treatment with the other taxol derivatives. The in vitro cardiodepressant and arrhythmogenic activity of paclitaxel is similar to that reported after its clinical administration and might be due to coronary vasoconstriction. The precise role of microtubules as modulators of intracellular calcium in cardiac and smooth muscle cells is at present unclear, because docetaxel and other taxol analogs, though they exhibited similar activity on tubulin, lacked cardiac effects.
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PMID:Differential effects of paclitaxel and derivatives on guinea pig isolated heart and papillary muscle. 945 98

In an experimental study we measured changes in hematological, biochemical and cortisol parameters in 6-week-old Swiss mice continuously exposed to ELF generated by a transformer station and high current bus bars. Mean daily exposure of 5.0 microT was maintained for 350 days. Hematological parameters were compared to those of control mice (n=12) exposed to a field level lower than 0.1 microT. Serum biochemical parameters (sodium, potassium, chloride, calcium, magnesium, phosphorus, amylase, creatine phosphokinase, and lactate dehydrogenase) were measured after 28 days of exposure and serum cortisol after 90 and 190 days. Granulocyte/macrophage colony-forming cells (GM-CFC) were counted at the end of the 350-day exposure. On day 20, exposed animals showed a significant decrease in leukocyte, erythrocyte, lymphocyte and monocyte counts and in hemoglobin and hematocrit values, while MCV increased. On days 43 and 63 no significant difference was observed in leukocyte and erythrocyte values, as if hemopoiesis had recovered. On day 90, a significant fall in the leukocyte, polynuclear neutrophil and eosinophil counts was observed in the exposed animals. No significant difference was noted in the biochemical parameters studied. On day 190, exposed animals had neutropenia and a decrease in the cortisol value. On day 350, no significant difference in hematological parameters was noted. Individual differences in sensitivity were observed, as 8 mice in the exposed group showed a significant decrease in the leukocyte, polymorphonuclear neutrophil and GM-CFC counts, while in two mice there was a significant increase in these same values compared to those unexposed mice.
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PMID:Alterations of biological parameters in mice chronically exposed to low-frequency (50 Hz) electromagnetic fields. 957 Mar 42

Novel recombinant human C5a receptor antagonists were discovered through modification of the C terminus of C5a. The C5a1-71T1M,C27S,Q71C monomer, (C5aRAM; CGS 27913), was a pure and potent functional antagonist. The importance of a C-terminal cysteine at position 71 to antagonist properties of C5aRAM was confirmed by studying C5a1-71 derivatives with replacements of Q71, C5a derivatives of various lengths (70-74) with C-terminal cysteines, and C5a derivatives of various lengths (71-74) with Q71C replacements. The majority of C5a1-71Q71 derivatives were agonists (C5a-like) in the human neutrophil C5a-induced intracellular calcium mobilization assay. The C5a1-71Q71C derivative was an antagonist. C5a derivatives of lengths 73 and 74 with C-terminal cysteines were agonists, while lengths 70 to 72 were antagonists. C5a derivatives of lengths 72, 73, and 74 with Q71C replacements were agonists, while, again, C5a1-71Q71C was an antagonist. C5aRAM and its adducts, including its dimer, C5aRAD (CGS 32359), were pure antagonists. Additionally, CSaRAM and CSaRAD inhibited binding of 125I-labeled recombinant human C5a to neutrophil membranes (Ki = 79 and 2 pM, respectively), C5a-stimulated neutrophil intracellular calcium mobilization (8 and 13 nM), CD11b integrin up-regulation (10 and 1 nM), superoxide generation (182 and 282 nM), lysozyme release (1 and 2 microM), and chemotaxis (11 and 7 microM). In vivo, intradermal injection of C5aRAM inhibited C5a-induced dermal edema in rabbits. Furthermore, a 5-mg/kg i.v. bolus of C5aRAD significantly inhibited C5a-induced neutropenia in micropigs when challenged with C5a 30 min after C5aRAD administration. C5aRAM and C5aRAD are novel, potent C5a receptor antagonists devoid of agonist or proinflammatory activity with demonstrated efficacy in vitro and in vivo.
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PMID:Novel C5a receptor antagonists regulate neutrophil functions in vitro and in vivo. 960 67

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