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

Septicemia in hematologic malignancies and infection of herpes zoster in cancer patients were studied, and trend in organisms in a cancer hospital was investigated. 1) Septicemia in hematologic malignancies. The success rate of antibiotic therapy for septicemia was 76% if the patients were not under antibiotic therapy when septicemia developed. But recovery from septicemia was only 25% if the patients were undergoing antibiotic therapy when septicemia developed. Some 90% of neutropenic patients under 500/microliters, who were not under antibiotic therapy when septicemia developed, recovered from septicemia if the neutrophil count increased in the following 5 days. Change in the neutrophil count was an important factor determining the success or failure of antibiotic therapy for septicemia. The use of granulocyte colony-stimulating factor may prevent chemotherapy-induced neutropenia. Shortening of the period of neutropenia or preventing its occurrence should reduce the incidence and the severity of infection. 2) Infection of herpes zoster in cancer patients. Thirty-four cancer patients were associated with herpes zoster. Eleven of them were patients with malignant lymphoma and ten of them were patients of breast cancer. Most patients were heavily pretreated by chemotherapy and/or radiotherapy before the development of herpes zoster. Marked lymphocytopenia was observed at the onset of herpes zoster. Absolute lymphocyte count was under 1000/microliters in 71% of these patients. Development of herpes zoster in cancer patients was considered to be due to the depression of cell-mediated immunity which was the result of repeated and continued anticancer therapy. Acyclovir was found to be effective to treat herpes zoster in these patients. 3) Trend of organisms detected in cancer hospital. The frequency of organisms isolated from clinical materials in the National Cancer Center Hospital was compared during the period from 1978 to 1982 and the period from 1983 to 1987. The most common organism detected in both periods was P. aeruginosa and no change in frequency was observed. But the frequency of gram-negative bacilli, E. coli, Klebsiella and Serratia, decreased significantly in the latter period while the frequency of gram-positive cocci, Enterococcus and Staphylococcus increased markedly in the latter period. The use of cephems of third generation in the latter period could be one reason for the recent change of organisms detected in the hospital. Appropriate therapy for infection based on the latest and accurate information should be used.
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PMID:[Infection and immunosuppression in cancer patients]. 273 15

18 men with longstanding human immunodeficiency virus (HIV) antigenaemia but no symptoms received zidovudine in low-dose regimens (250 mg 6-hourly, 500 mg 6-hourly, or 500 mg 12-hourly) with or without acyclovir. Serum HIV antigen rose in only 1 patient and declined significantly in 13 (to below cut-off values in 9). In the 1 subject from whom HIV antigen positive cerebrospinal fluid was obtained, the fluid was antigen negative after 12 weeks of treatment. Acyclovir treatment alone or in addition did not seem to influence serum antigen levels. In 7 untreated men serum antigen levels rose or remained stable during follow-up. CD4+ cell counts increased in 14/18 treated subjects and 1/7 untreated subjects. No disease progression was observed in either group. Regression of enlarged lymph nodes was seen in the zidovudine-treated subjects. Adverse reactions to the study drugs were infrequent and mild. Anaemia caused symptoms in 2, but serious leucopenia or neutropenia was not observed.
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PMID:Effect of zidovudine on serum human immunodeficiency virus antigen levels in symptom-free subjects. 289 87

Two consecutive studies are reported. In study 1, 59 patients with acute leukaemia undergoing remission induction therapy or bone marrow transplantation were given either acyclovir (5 mg/kg) or placebo by intravenous infusion twice daily during the period of neutropenia. All patients were seropositive (greater than or equal to 1:8) for herpes simplex virus. Acyclovir provided total protection against herpes simplex virus infection in bone marrow transplant patients with 0/10 versus 5/10 infections in the placebo group (P = 0.033). For the remission induction therapy group 2/19 on acyclovir developed HSV versus 10/20 receiving placebo (P = 0.018). Only one episode of cytomegalovirus (CMV) infection was seen and this was in a patient on acyclovir. Epstein-Barr virus secretion studies were inconclusive. No varicella zoster virus (VZV) infections were seen. In Study 2, 20 consecutive HSV seropositive (greater than or equal to 1:8) bone marrow transplant recipients received oral acyclovir. Five (25%) developed HSV infections, one of which was in a non-compliant patient, who subsequently developed a fatal infection whilst receiving therapeutic (5 mg/kg 8 hourly) intravenous acyclovir for this HSV infection. Intravenous acyclovir is effective in preventing HSV infections in the immunocompromised host but it seems unlikely that CMV will be amenable to acyclovir in its present formulation.
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PMID:Use of acyclovir for prophylaxis of herpes infections in severely immunocompromised patients. 631 94

Valaciclovir, the L-valyl ester of acyclovir, is rapidly and extensively converted in humans to acyclovir after oral administration by first-pass metabolism. A phase I study was conducted in two cohorts of volunteers with advanced human immunodeficiency virus (HIV) disease (absolute CD4 lymphocyte count of < 150 cells per microliters) who received oral valaciclovir at dosages of 1,000 or 2,000 mg four times daily for 30 days. All patients were clinically stable without any changes in underlying HIV-related medications for > or = 6 weeks prior to entry in study; these medications were continued throughout the study. Multiple-dose administration of valaciclovir showed a generally favorable safety profile. Nausea, vomiting, diarrhea, and abdominal pain each were reported in < or = 31% of the patients; of these symptoms, only one episode of diarrhea was considered causally related to valaciclovir exposure. Four patients developed neutropenia (two at each dose level) which was not clinically significant. There were no renal or neurologic adverse events. Valaciclovir was rapidly absorbed and converted to acyclovir, with plasma valaciclovir levels generally undetectable or levels of < or = 0.4 microgram/ml. After 3 h postdosing, valaciclovir was not detectable in plasma. Acyclovir was measurable in plasma as early as 15 min following valaciclovir dosing, and plasma concentrations of acyclovir greatly exceeded those of valaciclovir. The mean values for the maximum concentration of drug in plasma, time to maximum concentration of drug in plasma, area under the concentration-time curve from 0 h to infinity, and apparent half-life of acyclovir obtained after single- and multiple-dose valaciclovir administration in HIV-infected patients were similar to those reported in normal healthy volunteers. The time to maximum concentration in serum and half-life of acyclovir after valaciclovir administration were approximately 2 and 3 h, respectively, which were similar to those reported after oral administration of acyclovir itself. The mean trough and peak acyclovir concentrations and the daily area under the concentration-time curve acyclovir values at steady state were 2.5 and 8.4 micrograms/ml and 120 h micrograms/ml, respectively, after a dosage of 2,000 mg of valaciclovir four times daily. These values were approximately fivefold greater than those achieved with high dosages of oral acyclovir (800 mg, five times daily) and were not affected by continued use of medications necessary for management of advanced HIV disease. Thus, 2,000 mg of valaciclovir given orally four times daily should be evaluated for its potential efficacy in suppressing cytomegalovirus and other herpes group virus infections not optimally managed with current oral acyclovir therapy.
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PMID:Phase I trial of valaciclovir, the L-valyl ester of acyclovir, in patients with advanced human immunodeficiency virus disease. 797 85

Infections of the nervous system remain a significant source of morbidity and mortality in patients with cancer. This paper reviews the main pathogens and emphasizes some of the principles of diagnosis and management of nervous system infections in cancer patients. Due to immunosuppression, diagnosis is more difficult in this group, secondary to the multitude of potential pathogens, and often by their atypical presentations. Fever or headache are often the only symptoms. Clinical history and general examination should guide appropriate studies such as neuroimaging. CSF analysis, cultures, and brain biopsy. Diagnostic evaluation should be pursued rapidly and aggressively since specific treatments can often reduce morbidity and mortality. Bacterial infections are generally due to break-down of the natural barriers and neutropenia. In neutropenia, Pseudomonas aeruginosa, and Enterobacteriae are the most frequent etiology. If all causes of immunodepression are included, Listeria monocytogenes meningitis is the main bacterial infection encountered. Fungal infections have emerged as a major cause of death among cancer patients. The prognosis of cryptococcosis and histoplasmosis meningitis are markedly improved with new antifungal therapy. Aspergillosis and Mucormycosis, which may cause cerebral abcesses and secondary vascular complications, are almost always fatal. The incidence of meningo-cerebral Candidiasis is often underestimated. Similar to Histoplasmosis, it is frequently disseminated. Viral infections are mainly seen in patients with T-lymphocyte defects. Herpes-simplex virus and Varicella-Zoster virus encephalitis should quicky lead to intravenous treatment with Acyclovir. As in AIDS patients, cerebral toxoplasmosis is the most frequent parasitic infection and appropriate therapy greatly reduces morbidity. It should be emphasized that multitude pathogens are often seen in cancer patients. Despite development of new therapeutic agents, central nervous system infections should still be considered life-threatening. Therefore, antibacterial, antifungal, and antiviral prophylaxis should be the rule for all cancer patients.
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PMID:[Central nervous system infections in patients with malignant diseases]. 903 51

Mucositis is a common complication following chemotherapy. Clinical findings similar to herpetic infection are observed in some patients. Acyclovir administered in addition to empirical, antibiotic treatment improves the course of mucositis, and can also bring down the temperature. The aim of our study was to define the etiological influence of herpetic infection on the course of febrile neutropenia in patients with mucositis. A total of 34 patients with febrile neutropenia were divided into 2 groups: 15 with typical herpetic eruption, and 19 with non-specific mucositis. Both groups received 5-10 mg/kg acyclovir every eight hours together with empiric antibiotic treatment. The effect of acyclovir was studied, and results compared in the two patient groups. Body temperatures decreased in both groups, clinical symptoms, however, disappeared more slowly in the group with non-specific mucositis. The beneficial effect of acyclovir treatment was particularly well expressed in seropositive patients. In this group of patients, herpetic infections may recur under further chemotherapy. Thus, it would be useful to administer acyclovir to them prophylactically during risk periods.
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PMID:Herpes simplex infection as possible etiology for febrile neutropenia and mucositis in patients treated for hematological malignancies. 968 Oct 44