UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autoimmune regulator (AIRE) gene is a responsible gene for the rare autosomal recessive autoimmune disease: autoimmune-polyendocrinopathy-candidiasis ectodermal dystrophy (APECED). Although it has been reported that AIRE is expressed in the thymic epithelial cells and monocyte-dendritic cell lineage, the regulatory mechanisms of AIRE gene expression have as yet been poorly understood. Here we show that the expression of AIRE gene was induced in granulo-monocyte colony stimulating factor (GM-CSF)-stimulated myelomonocytic leukemia OTC-4 cells. In GM-CSF-stimulated OTC-4 cells, stat5 was not phosphorylated, while mitogen-activated protein kinases (MAPKs), including MAPK kinase (MEK) 1/2 and p38 MAPK, were phosphorylated, indicating activation of MAPK pathway. In addition, the expression of AIRE gene was inhibited by specific p38 MAPK inhibitor (SB203580), whereas the expression was rather enhanced by the MEK1/2 inhibitor (U0126), suggesting that AIRE gene expression is regulated by mitogen-activated protein kinase pathway.
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PMID:Mitogen-activated protein kinase pathway controls autoimmune regulator (AIRE) gene expression in granulo-monocyte colony stimulating factor (GM-CSF)-stimulated myelomonocytic leukemia OTC-4 cells. 1589 21

Most hematogenous candidiasis originates from endogeneous host flora. Fungal flora of gastrointestinal system are important source of infection especially in immunosupressed patients. The purpose of this study was to investigate the fecal fungal flora of pediatric patients with hematologic malignancy or disorders and to compare the results with healthy volunteers. For this purpose, fungal etiological agents were investigated retrospectively in stool samples of 80 patients followed in Bone marrow transplantation and Hematology-Oncology units. The diagnosis of patients were as follows: 26 acute myelogeneous leukemia, 19 acute lymphocytic leukemia, 5 lymphoma, 3 chronic myelogeneous leukemia, 2 solid tumor, 4 neuroblastoma and 21 hematologic disorders. In patients, totally 102 fungal growth was detected and 42 (41.2%) C. albicans and 51 (50%) non-albicans Candida species and 9 (8.8%) yeast other than Candida and mould was isolated. The results were compared prospectively with growth in stool samples of 61 healthy children. C. albicans was detected in 16 (43.2%) and non-albicans Candida species in 15 (40.5%) and yeasts other than Candida and mould in 6 (16.2%) of 37 fungal growth in controls. Non-albicans Candida species growth was found significantly higher and C. glabrata was more prevelant in patients than in controls (p < 0.001).
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PMID:Fecal fungal flora of pediatric healthy volunteers and immunosuppressed patients. 1598 37

We report the observation of hepato-splenic and kidneys candidiasis complicating the chemotherapy of a myeloblastic leukemia (LAM5b). Following the lack of effectiveness of a first line treatement, using amphotericine B liposomale and 5-fluorocytosine, implementation of an association of new molecules, a triazole of second generation (voriconazole) and an echinocandine (caspofungine) has allowed a successful result.
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PMID:[Hepatosplenic and kidneys candidasis complicating an acute myeloblastic leukemia. A case treated with voriconazole and caspofungin]. 1606 41

Chronic disseminated candidiasis is a serious fungal infection in immunocompromised patients, particularly those undergoing therapy for acute leukemia. Coordination between innate and adaptive immune system is critical to resistance or susceptibility to Candida infection. In order to investigate possible genetic contribution to chronic disseminated candidiasis of key molecules in the innate immune pathway, we performed a case control study using the candidate gene approach. Forty subjects with chronic disseminated candidiasis and 50 controls without chronic disseminated candidiasis but an underlying diagnosis of leukemia were enrolled in the Helsinki University Central Hospital during the period 1980-1998. Candidate genes were selected for analysis based upon the following criteria: a common polymorphism (>5% frequency) and existence a priori of clinical and biological data suggesting a role for the variant in the pathogenesis of chronic disseminated candidiasis. Six genes were selected from critical microbicidal and innate immune pathways, including three low-affinity Fcgamma receptors (FCGR2A, FCGR3A and FCGR3B), chitotriosidase (CHIT1), p22-phox NADPH oxidase (CYBA), and mannose binding lectin (MBL2). There was no statistically significant association of susceptibility to chronic disseminated candidiasis with the polymorphisms in this study. Common variants in the six studied genes most likely do not contribute to the risk for chronic disseminated candidiasis in patients with acute leukemia.
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PMID:Common polymorphisms in critical genes of innate immunity do not contribute to the risk for chronic disseminated candidiasis in adult leukemia patients. 1611 Jul 81

There are two main types of fungal infections in the oncology patient: primary cutaneous fungal infections and cutaneous manifestations of fungemia. The main risk factor for all types of fungal infections in the oncology patient is prolonged and severe neutropenia; this is especially true for disseminated fungal infections. Severe neutropenia occurs most often in leukemia and lymphoma patients exposed to high-dose chemotherapy. Fungal infections in cancer patients can be further divided into five groups: (i) superficial dermatophyte infections with little potential for dissemination; (ii) superficial candidiasis; (iii) opportunistic fungal skin infections with distinct potential for dissemination; (iv) fungal sinusitis with cutaneous extension; and (v) cutaneous manifestations of disseminated fungal infections. In the oncology population, dermatophyte infections (i) and superficial candidiasis (ii) have similar presentations to those seen in the immunocompetent host. Primary cutaneous mold infections (iii) are especially caused by Aspergillus, Fusarium, Mucor, and Rhizopus spp. These infections may invade deeper tissues and cause disseminated fungal infections in the neutropenic host. Primary cutaneous mold infections are treated with systemic antifungal therapy and sometimes with debridement. The role of debridement in the severely neutropenic patient is unclear. In some patients with an invasive fungal sinusitis (iv) there may be direct extension to the overlying skin, causing a fungal cellulitis of the face. Aspergillus, Rhizopus, and Mucor spp. are the most common causes. We also describe the cutaneous manifestations of disseminated fungal infections (v). These infections usually occur in the setting of prolonged neutropenia. The most common causes are Candida, Aspergillus, and Fusarium spp. Therapy is with systemic antifungal therapy. The relative efficacies of amphotericin B, fluconazole, itraconazole, voriconazole, and caspofungin are discussed. Recovery from disseminated fungal infections is unlikely, however, unless the patient's neutropenia resolves.
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PMID:Cutaneous fungal infections in the oncology patient: recognition and management. 1648 41

Invasive fungal infections (IFIs) are a leading cause of infection-related mortality in patients with acute leukemia and prolonged neutropenia and in allogeneic hematopoietic stem cell transplant (HSCT) recipients with graft-versus-host disease (GVHD). Although invasive candidiasis was the principal IFI predating fluconazole prophylaxis, invasive aspergillosis and other mold infections now cause most deaths from fungal infection in this patient population. The availability of broad-spectrum antifungal agents that can be safely administered over prolonged periods has stimulated interest in using mold-active prophylactic agents early as prophylaxis rather than later as therapy for suspected or documented IFIs. Two recent, prospective, randomized trials have shown a clear benefit of posaconazole prophylaxis in patients with myelodysplastic syndrome and acute mye-logenous leukemia with prolonged neutropenia and in allogeneic HSCT recipients with severe GVHD. In contrast, the peer-reviewed published database on the strategy of preemptive antifungal therapy, in which yeast-active prophylaxis (fluconazole) or no antifungal prophylaxis is used initially and modifications are triggered by a combination of laboratory markers and chest CT scans, is currently limited to an open-label feasibility study. Does sufficient evidence currently exist that the net benefit of the preemptive approach is at least on a par with posaconazole prophylaxis in the specific patient groups that were studied? The authors believe not and that more research is needed before the preemptive strategy can be recommended.
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PMID:Broad-spectrum antifungal prophylaxis in patients with cancer at high risk for invasive mold infections: point. 1831 50

Posaconazole is a novel oral antifungal triazole with potent and broad-spectrum antifungal activity, favourable pharmacokinetic properties and a limited spectrum of adverse events. The compound has documented clinical efficacy in the settings of oropharyngeal candidiasis, refractory aspergillosis, fusariosis, zygomycosis, and as antifungal prophylaxis in high-risk patients with acute myeloblastic leukaemia or graft-vs.-host disease. Whereas, posaconazole is approved for use in adults, however, the appropriate dosage and the safety of the compound have not been systematically investigated in paediatric age groups. This paper reviews the relevant pharmacological characteristics of posaconazole, the published data on its use in paediatric patients without therapeutic alternative and perspectives for the clinical development in paediatric patients at risk for invasive fungal infections.
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PMID:Posaconazole for paediatric patients: status of development and future perspectives. 1872 28

We discuss different strategies for the treatment of invasive fungal infections (IFI) in high risk patients with a focus on patients experiencing profound and prolonged neutropenia, comprising those with acute myelogenous leukaemia (AML) or myelodysplastic syndrome (MDS) during remission induction chemotherapy and on patients undergoing allogeneic haematopoietic stem cell transplantation (SCT). Among these patients, invasive aspergillosis (IA) is the most frequently observed form of IFI, as opposed to high risk intensive care unit (ICU) patients in whom an increased incidence of invasive candidiasis (IC) can be observed. In both groups, initiation of early treatment has a profound impact on mortality rates, but adequate diagnostic tools are lacking. These circumstances have led to the parallel use of different treatment strategies, e.g. prophylaxis, empiric, pre-emptive and targeted treatment of IFI. The optimum treatment strategies for these severe infections are a matter of extensive research and discussion. A review of major clinical trials on the issue reveals that comparisons between different treatment strategies cannot be made. Considering the complexity of the issue, we advocate an eclectic treatment approach that reduces morbidity and mortality from IFI without compromising tolerability. In allogeneic HSCT recipients, patients receiving induction chemotherapy for AML or MDS and those under immunosuppressive medication for graft vs. host disease after allogeneic HSCT, we recommend prophylaxis with posaconazole. For empiric treatment of persistently febrile neutropenic patients, we opt for caspofungin as first and liposomal amphotericin B deoxycholate (L-AmB) as second line choice. If the diagnosis of IA can be established, voriconazole should be favoured over the alternative, liposomal amphotericin B (L-AmB). While high risk ICU patients benefit from fluconazole prophylaxis for IC, the choice of an optimal agent for targeted therapy depends largely on the neutrophil count. In non-neutropenic patients, we recommend an echinocandin as the first line treatment option. Patients with susceptible Candida spp. may be switched to fluconazole. Caspofungin or micafungin might be preferred to anidulafungin in the neutropenic patient. L-AmB is a valuable second line treatment option for both groups of patients.
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PMID:Antifungal treatment strategies in high risk patients. 1872 31

When and how to treat invasive fungal infections (IFIs) is discussed in this review, with a focus on the two most prevalent non-endemic IFIs, namely invasive aspergillosis and invasive candidiasis. Early treatment initiation in patients with IFIs has a profound impact on mortality rates, but reliable diagnostic measures are lacking. This situation has led to the parallel use of different treatment strategies, e.g. prophylaxis, empirical and pre-emptive treatment, as well as targeted treatment in response to a definite diagnosis of IFI. Identifying high-risk patients is the first step in reducing IFI-related mortality. Patients at risk of invasive aspergillosis comprise (i) those with acute myelogenous leukaemia (AML) or myelodysplastic syndrome (MDS) during remission induction chemotherapy; (ii) patients undergoing allogeneic haematopoietic stem cell transplantation (HSCT); (iii) recipients of solid organ transplants; and (iv) those with other conditions of severe and prolonged immunosuppression. Patients at high risk of invasive candidiasis are less well defined. Risk factors are diverse and include haematological malignancy, neutropenia, age <1 month or >65 years, and recent abdominal surgery. The individual risk further depends on the presence of a variety of other risk factors, including central venous catheters, use of broad spectrum antibacterials, prolonged intensive care unit (ICU) stay, total parenteral nutrition, mucosal Candida spp. colonization and renal failure.Extensive research has been conducted to facilitate the best possible treatment strategies for these severe infections. Optimal timing and choice of antifungal agents largely remain a matter of controversy. After having reviewed the major clinical trials, we conclude that comparisons between different treatment strategies cannot be made, neither at present nor in the near future. The complexity of the clinical problem leads to an eclectic treatment approach to reduce morbidity and mortality from IFIs without compromising tolerability. We recommend prophylaxis with posaconazole for allogeneic HSCT recipients, patients receiving induction chemotherapy for AML or MDS, and those undergoing immunosuppressive therapy for graft-versus-host disease after allogeneic HSCT. For the empirical treatment of persistently febrile neutropenia, caspofungin is our first- and liposomal amphotericin B deoxycholate (LAmB) our second-line choice. Once a diagnosis of invasive aspergillosis has been established, voriconazole should be the preferred treatment option, with LAmB being an alternative. Fluconazole prophylaxis for invasive candidiasis should remain restricted to high-risk ICU patients. Once a diagnosis has been established, the drug of choice for adequate treatment depends largely on neutrophil count and haemodynamic stability. In non-neutropenic patients, an echinocandin should be considered the first-line treatment option, while patients with susceptible Candida spp. may be switched to fluconazole. In neutropenic patients, caspofungin or micafungin might be preferred to anidulafungin as first-line treatment. LAmB is a second-line treatment option in both settings.Early diagnosis of IFIs is imperative to facilitate treatment success. In all patients at risk for IFIs, blood cultures, galactomannan antigen and diagnostic imaging should be rigorously enforced.
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PMID:Patients at high risk of invasive fungal infections: when and how to treat. 1877 18

Hepatosplenic candidiasis (HSC) in patients with acute leukemia poses management challenges because the therapeutic limitations of the present antifungal armamentarium may adversely impact on treatment outcomes of the underlying leukemia. We report a patient with acute myeloid leukemia who developed HSC during post-remission consolidation chemotherapy and was treated with a prolonged course of caspofungin followed by fluconazole. The stabilization of infection permitted further chemotherapy and autologous hematopoietic cell transplant (HCT) without breakthrough fungemia and further dissemination of candidiasis. The favorable outcome provides further evidence that with optimal treatment, the presence of stable or non-progressive HSC is not an absolute contraindication for HCT. The use of caspofungin in the primary treatment of HSC appears to be a promising approach. The favorable outcome seen in this case is encouraging, although further study on its efficacy is warranted.
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PMID:Successful intensive chemotherapy followed by autologous hematopoietic cell transplantation in a patient with acute myeloid leukemia and hepatosplenic candidiasis: case report and review of literature. 1922 46

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