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)

Fluconazole is a triazole antifungal agent which is now an established part of therapy in patients with immune deficiencies. It is effective against oropharyngeal/oesophageal candidiasis (candidosis) when used orally once daily either as treatment or secondary prophylaxis in patients with AIDS or as treatment or primary prophylaxis in neutropenia associated with cancer therapy. Fluconazole also resolves symptoms in up to 60% of patients with cryptococcal meningitis and AIDS. However, in this infection its efficacy as treatment relative to that of amphotericin B is equivocal, and its major role is as the drug of choice for maintenance therapy following amphotericin B induction. In this regard, fluconazole has been proven superior to amphotericin B and to itraconazole 200 mg/day. Comparisons with other drugs used for the treatment of mucosal candidiasis in patients with AIDS show fluconazole to be superior to nystatin, similar to itraconazole and at least as effective as clotrimazole and ketoconazole; it was more so than the latter azole in 1 study. In patients undergoing chemotherapy or bone marrow transplantation, fluconazole as primary prophylaxis has produced greater clinical benefit than a clotrimazole regimen. The incidence of adverse events appears to be somewhat higher in patients with AIDS compared with HIV-negative cohorts, but the qualitative pattern of events is similar. The most frequent events are gastrointestinal complaints, headache and skin rash: rare exfoliative skin reactions and isolated instances of clinically overt hepatic dysfunction have occurred in patients with AIDS. Issues yet to be clarified include: the use of fluconazole in children with AIDS, in whom results have been promising; its efficacy against other fungal infections encountered in immunocompromised patients; whether the drug influences mortality, as has been suggested by one placebo-controlled trial in patients undergoing bone marrow transplant; and the appropriateness of its potential for use as primary prophylaxis against cryptococcal meningitis in patients with AIDS, where it shows efficacy but there is concern over increasing risk of development of secondary resistance. Notwithstanding these undefined aspects of its clinical profile, fluconazole is now confirmed as an important antifungal drug in the management of fungal infections in patients with immune deficiencies. In patients with AIDS it is the present drug of choice as maintenance therapy against cryptococcal meningitis and is a preferred agent for secondary prophylaxis against candidal infections; it is also a favoured agent for primary prophylaxis in patients at risk because of neutropenia associated with chemotherapy or bone marrow transplantation .
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PMID:Fluconazole. An update of its pharmacodynamic and pharmacokinetic properties and therapeutic use in major superficial and systemic mycoses in immunocompromised patients. 853 53

The authors estimated the incidence of mycotic infections among children patients with histological diagnosis of solid tumors during the period of neutropenia. Superficial mycoses including mucoses were observed in 35.3% of analysed patients, while a disseminated mycotic infections of a severe clinical course were seen in 2.9% neutropenic patients. Prophylactic administration of Diflucan (1-2 mg/kg/24h)(fluconazole) in neutropenic patients proved efficient in great majority of children, preventing the occurrence of severe mycotic complications.
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PMID:[Clinical course and risk of fungal infections development in children with treated with chemo- and radiotherapy for solid tumors]. 865 39

The incidence of invasive fungal infections is increasing and new fungal species are emerging as important pathogens. In cancer patients, the main risk factor for the development of systemic fungal disease is severe, prolonged neutropenia. Other factors, such as mucosal damage, presence of a central venous line, immunosuppressive therapy and treatment with broad spectrum antibiotics are contributory. Candida spp. are the fungi most commonly isolated in neutropenic patients. There has been a dramatic increase in non-C. albicans species, such as C. glabrata and C. krusei, largely as a result of extensive prophylactic and therapeutic use of fluconazole, to which these species are largely resistant. In neutropenic patients with candidaemia, amphotericin B is the drug of choice although the conventional formulation may be poorly tolerated. Lipid-based forms of amphotericin B, such as Abelcet, are better tolerated and can be given at a much higher dose and should therefore be considered in patients who fail on or are intolerant to the conventional agent. Aspergillosis is the second most frequent fungal infection in neutropenic patients. Primary invasive aspergillosis usually presents on chest X-ray with lung lesions and the brain is a frequent site of secondary infection. Fluconazole is inactive against Aspergillus spp. and amphotericin B is the standard treatment. Again, lipid-based forms are better tolerated than the conventional formulation in this setting, and have been shown to achieve response rates of 60% or more in a number of trials. Other potentially life-threatening fungal infections in which lipid-based amphotericin B may play an important therapeutic role in the future include cryptococcosis (increasingly problematic in AIDS patients), trichosporonosis, fusariosis and mucormycosis. Further randomized studies should be performed in a range of fungal infections to compare Abelcet with conventional amphotericin B and other lipid-based antifungal agents.
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PMID:The changing epidemiology of fungal infections: are the lipid-forms of amphotericin B an advance? 870 11

We report on two children with malignancy who showed fungemia despite the antifungal treatment with fluconazole. Case 1 was a 7-year-old girl with a recurrence of stage IV neuroblastoma. She had profound neutropenia and fungemia developed after a month-long treatment with fluconazole. Her peripheral blood smear showed phagocytosis in the neutrophils and they were identified as fungi by immunofluorescence method (Fungi flora Y). She died two days after the diagnosis of fungemia. Rhodotorula rubra was isolated after her death. Case 2 was a 2-year-old boy with disseminated Langerhans cell histiocytosis. He had profound neuropenia and fungemia developed after treatment with fluconazole for 6 months. His peripheral blood smear also showed phagocytosis in the neutrophils and they were identified as fungi by Fungi flora Y. He was treated with intravenously administered amphotericin-B. However, he died 13 days after the diagnosis of fungemia. Candida guilliermondii was isolated after his death. Careful observation of the peripheral blood smear is important for early detection of fungi and Fungi flora Y is a quick and useful method to identify fungi. Fluconazole-resistant fungus should be considered when patients with neutorpenia are treated prophylactically with fluconazole for a long time.
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PMID:[Phagocytosis of fungi in the peripheral blood neutrophils of two children with cancer during treatment with fluconazole]. 931 Dec 73

Fluconazole-resistant Candida albicans and intrinsically fluconazole-resistant Candida species have been reported as bloodstream isolates. However, an association between the isolation of fluconazole-resistant Candida from the bloodstream and patient risk factors for fungemia has not been established. The purpose of this study was to determine the prevalence of fluconazole resistance in bloodstream isolates of Candida species and Cryptococcus neoformans collected from patients with neutropenia, one of the most important risk factors for fungemia. MICs of voriconazole, fluconazole, itraconazole, ketoconazole, amphotericin B, and flucytosine were determined by the National Committee for Clinical Laboratory Standards M27-A method (1997). Voriconazole, on a per-weight basis, was the most active azole tested. Fluconazole resistance (MIC >/= 64 microg/ml) was not identified in any of the C. albicans (n = 513), Candida parapsilosis (n = 78), Candida tropicalis (n = 62), or C. neoformans (n = 38) isolates tested.
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PMID:In vitro susceptibilities of Candida and Cryptococcus neoformans isolates from blood cultures of neutropenic patients. 1034 71

Fluconazole is widely used as antifungal prophylaxis but it is ineffective against Aspergillus. Itraconazole has a broader spectrum of activity but the capsules give erratic bioavailability in neutropenic patients. We compared itraconazole oral solution (which has an improved pharmacokinetic profile) with fluconazole for antifungal prophylaxis. Adults with haematological malignancies receiving chemotherapy or bone marrow transplants were randomly allocated 5 mg/kg/d itraconazole (itra) solution (288 episodes) or 100 mg fluconazole suspension (flu) (293 episodes) from before the onset of neutropenia until neutrophil recovery or suspected fungal infection. Outcomes were assessed by independent reviewers unaware of the prophylaxis allocation. More proven systemic fungal infections occurred in flu (Aspergillus four, Candida tropicalis one, C. krusei one) than itra (C. albicans one) and more of these were fatal (four versus nil). This difference reached statistical significance when first study episodes were considered separately (six flu versus nil itra, P = 0.03). Significantly more deaths of presumed fungal origin occurred in flu than itra (seven versus nil, P = 0.024). There were significantly more cases of proven aspergillosis in flu than itra (six versus nil, P = 0.038, 5/6 cases were fatal) if those occurring outside the study period are included. Significantly more patients receiving flu required amphotericin B (58 v 39, P = 0.043) but this may have been affected by the fact that the study was not blinded. There were 11 proven mucosal candidal infections in flu and four in itra. Itraconazole solution and fluconazole provide effective prophylaxis against Candida but itraconazole affords greater protection against fatal aspergillosis.
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PMID:A randomized controlled trial of itraconazole versus fluconazole for the prevention of fungal infections in patients with haematological malignancies. U.K. Multicentre Antifungal Prophylaxis Study Group. 1071 3

Invasive fungal infections in cancer patients are on the increase. Candidemia is now the fourth leading cause of bloodstream infections in many intensive care units (ICUs). Although a number of risk factors have been identified, antifungal therapy should not be started in non-neutropenic patients until a diagnosis of invasive candidiasis or candidemia is made or presumed in order to avoid the development of resistance. Even a single positive blood culture should be treated, and requires removal of intravascular lines. Fluconazole is the first line agent for treatment candidemia other than that caused by Candida glabrata or C. krusei. High-resolution CT scan pictures showing a halo sign or crescent air sign are helpful for establishing the diagnosis of invasive aspergillosis. Sandwich ELISA can be used to detect circulating galactomannan in serial serum samples. Polymerase chain reaction (PCR) of blood samples may also be used. There are only a few randomized studies of newly developed antifungal drugs compared to conventional amphotericin B (AmB). So far, both AmB colloidal dispersion and AmB lipid complex have failed to show more favorable efficacy or lesser toxicity rates, except for nephrotoxicity. Liposomal AmB, used during febrile neutropenia, did have a significantly lower toxicity rate. In neutropenic patients with invasive fungal infections liposomal AmB proved to be better than conventional AmB in terms of clinical efficacy, mortality and nephrotoxicity rates. The use of tests to achieve an earlier diagnosis combined with more potent treatment formulations such as liposomal AmB may be significant steps towards successful management of invasive fungal infections.
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PMID:New developments in the diagnosis and management of invasive fungal infections. 1062 98

Children suffering malignant diseases can experience phases of bone marrow depression during intensive chemotherapy. The influence of antibiotic sequence therapy on the course of diseases was examined in 41 pediatric patients with malignant diseases. Inclusion criteria were neutropenia (ANC < 500/microL), rectal body temperature over 38.5 degrees C, and increased C-reactive protein (CRP, cutoff > 5.0 mg/L). The first stage of therapy comprised the following antibiotics: piperacillin, teicoplanin, and gentamicin. In stage 2 imipenem, teicoplanin, and tobramycin were administered. Fluconazole was the antifungal drug of choice in stages 1 and 2. In the first level of antibiotic therapy 68% of the patients showed a positive reaction. The C-reactive protein was a sensitive parameter, which significantly decreased with 3 days of therapy. A total of 72% of the bacteriological smears were sterile. All patients survived the septic phase.
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PMID:Antibiotic sequential therapy for febrile neutropenia in pediatric patients with malignancy. 1068 19

Antifungal prophylaxis in cancer patients who are undergoing chemotherapy is associated with prolonged neutropenia. We measured the effect of fluconazole on doxorubicin pharmacokinetics in nonhuman primates to determine if neutropenia is related to a pharmacokinetic interaction that delays the clearance of the chemotherapeutic agent. Fluconazole pretreatment had no effect on doxorubicin pharmacokinetics.
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PMID:Effect of fluconazole on the pharmacokinetics of doxorubicin in nonhuman primates. 1072 23

Systemic fungal infections are a major problem in bone marrow transplant recipients who have prolonged neutropenia or who receive high-dose corticosteroids. Prophylaxis with Fluconazole or low-dose amphotericin B reduces, but does not eliminate these infections. To determine which prophylactic agent is better, we performed a prospective randomized study. Patients undergoing allogeneic (related or unrelated) or autologous marrow or peripheral stem cell transplantation were randomized to receive Fluconazole (400 mg/day p. o. or i.v.) or amphotericin B (0.2 mg/kg/day i.v.) beginning 1 day prior to stem cell transplantation and continuing until recovery of neutrophils to >500/microl. Patients were removed from their study drug for drug-associated toxicity, invasive fungal infection or suspected fungal infection (defined as the presence of fever >38 degrees C without positive culture while on broad-spectrum anti-bacterial antibiotics). Proven or suspected fungal infections were treated with high-dose amphotericin B (0.5-0.7 mg/kg/day). Patients were randomized at each institution and stratified for the type of transplant. The primary end-point of the study was prevention of documented fungal infection; secondary endpoints included fungal colonization, drug toxicity, duration of hospitalization, duration of fever, duration of neutropenia, duration and total dose of high-dose amphotericin B and overall survival to hospital discharge. From July 1992 to October 1994, a total of 355 patients entered into the trial with 159 patients randomized to amphotericin B and 196 to Fluconazole. Patient groups were comparable for diagnosis, age, sex, prior antibiotic or antifungal therapy, use of corticosteroids prior to transplantation and total duration of neutropenia. Amphotericin B was significantly more toxic than Fluconazole especially in related allogeneic transplantation where 19% of patients developed toxicity vs 0% of Fluconazole recipients (p < 0.05). Approximately 44% of all patients were removed from prophylaxis for presumed fungal infection. Proven fungal infections occurred in 4.1% and 7.5% of Fluconazole and amphotericin-treated patients, respectively. Proven fungal infections occurred in 9.1% and 14.3% of related allogeneic marrow recipients receiving Fluconazole or amphotericin B, respectively, and 2.1% and 5.6% of autologous marrow recipients receiving Fluconazole or amphotericin B, respectively (P > 0.05). In this prospective trial, low-dose amphotericin B prophylaxis was as effective as Fluconazole prophylaxis, but Fluconazole was significantly better tolerated.
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PMID:Fluconazole vs low-dose amphotericin B for the prevention of fungal infections in patients undergoing bone marrow transplantation: a study of the North American Marrow Transplant Group. 1080 6

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