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

Here we report two patients with hematological malignancies associated with complications of fatal cardiac zygomycosis. The first case, a 72-year-old man with myelodysplastic syndrome being treated with low-dose cytarabine, died of sudden cardiac arrest. An autopsy revealed disseminated zygomycosis accompanied with occlusion of the coronary artery by fungal thrombi. The second case, a 52-year-old woman with acute lymphoblastic leukemia, developed febrile neutropenia and skin eruptions with induration on the face and extremities during the first induction chemotherapy. She experienced sudden bradycardia with unstable hemodynamics and died of acute myocardial infarction. Histological examination of a skin biopsy demonstrated zygomycosis. In light of the above, it should be kept in mind that cardiac zygomycosis might occur in hematologically compromised patients presenting with acute myocardial infarction.
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PMID:Zygomycosis presenting as acute myocardial infarction during hematological malignancies. 1845 76

Posaconazole is a second-generation triazole antifungal agent with a broad spectrum of activity that includes Aspergillus spp., Candida spp. and the Zygomycetes. In the US, posaconazole oral suspension administered three times daily is indicated for prophylaxis against invasive Aspergillus and Candida infections in patients aged > or =13 years who are at high risk of developing these infections because of immunosuppression, such as haematopoietic stem cell transplant (HSCT) recipients with graft-versus-host disease (GVHD), or those with haematological malignancies with prolonged neutropenia as a result of chemotherapy. EU-approved prophylactic indications for posaconazole are similar to those in the US. Posaconazole provided effective prophylaxis against invasive fungal infections and was generally well tolerated in two large, well designed trials in HSCT recipients with GVHD, or patients receiving induction-remission chemotherapy for acute myeloid leukaemia (AML) or myelodysplastic syndrome (MDS) that was expected to result in prolonged neutropenia. It offers coverage of clinically relevant pathogens and is potentially associated with fewer drug-drug interactions than other licensed triazole antifungal agents. Its usefulness in some patients may be limited by the lack of an intravenous formulation, although one is currently being developed. As with other antifungal agents, concerns remain regarding the potential emergence of resistance to broad-spectrum antifungal prophylaxis with posaconazole. Despite this, posaconazole is a valuable emerging option for use as prophylaxis against invasive fungal infections in immunocompromized patients who are at high risk of developing these infections.
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PMID:Posaconazole : a review of its use in the prophylaxis of invasive fungal infections. 1845 64

Combined histological and mycological study of tissue specimens established a proven diagnosis of cutaneous zygomycosis in four patients. All patients had been treated with wide spectrum antibiotics and one patient (liver transplantation) was in addition also treated with cyclosporine. All had acidosis and cutaneous breaks and four had also been treated with systemic corticosteroids. The infecting organisms were Absidia corymbifera (n=2), Rhizopus stolonifer (n=1) and Mucor circinelloides (n=1). Combined treatment with i.v. conventional and liposomal formulations of amphotericin B and surgical treatment lead to a favourable clinical and mycological cure in three patients (A. corymbifera and R. stolonifer infections). One lymphoma patient with suspected Rhizopus pusillus infection of the lungs (presence of hyphae in sputum and positive culture) had an unfavourable outcome. The patient had been treated with wide spectrum antibiotics, corticosteroids and showed severe neutropenia and acidosis. The clinical presentations are outlined, including the outcomes and predisposing factors and focus on the diagnostic procedures, treatment and preventive measures.
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PMID:[Five cases of zygomycosis.]. 1847 94

Invasive fungal infections (IFIs) are an important cause of morbidity and mortality, particularly in patients with underlying risk factors (e.g., neutropenia, cancer chemotherapy, transplantation, AIDS). Although Candida species remain a relevant cause of IFI, other organisms (particularly moulds) have become increasingly prevalent. In particular, Aspergillus species are the leading cause of mould infections although other moulds including Fusarium species and Zygomycetes are increasing in frequency, and are associated with a high mortality rate. Options available for the prevention and treatment of these infections include standard and liposomal formulations of amphotericin B, but toxicity concerns limit their use; fluconazole is effective for the prevention and treatment of candidiasis but its inactivity against moulds and increasing resistance are limiting factors. Newer azoles, particularly voriconazole and posaconazole, have an enhanced spectrum of activity that includes Candida species, Aspergillus species, Cryptococcus species, dimorphic fungi, Fusarium species, and, for posaconazole, Zygomycetes. Recent data suggest that these agents are highly effective in a variety of clinical settings. Echinocandins have good activity against Candida species and Aspergillus species but their spectrum generally does not include Fusarium species, Cryptococcus species, Trichosporon species, Zygomycetes, and dematiaceous moulds. While these agents are unlikely to exhibit crossresistance with polyenes or azoles, they must be administered intravenously. Knowledge of the pathogenesis of IFIs and the activity, efficacy, and limitations of available treatment options will allow the selection of an appropriate antifungal agent for individual patients.
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PMID:Aspergillus to Zygomycetes: causes, risk factors, prevention, and treatment of invasive fungal infections. 1864 9

Although Zygomycetes, Fusarium spp, and Scedosporium spp are far less frequent causes of invasive fungal disease than Aspergillus and Candida, they are emerging. These types of infections in severely immunocompromised patients have a common feature: a poor clinical response to antifungal therapy. Infection is usually airborne, although local infections in cases of skin trauma are also possible. These fungi are resistant to some common antifungal agents; therefore, surgical debridement of the necrotic tissue, when possible, should be combined with specific systemic antifungal treatment in immunocompromised patients. In the absence of randomized clinical trials, most experience in the treatment of these infections is with amphotericin B. Experience with new antifungal agents is still limited, and recovery from neutropenia remains the main predictor of a favorable outcome.
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PMID:Treatment options in emerging mold infections. 1894 88

Mucormycosis (zygomycosis) is an acute and often fatal opportunistic fungal infection. Predisposing factors in the development of mucormycosis are nonspecific and include hyperglycemia, hematologic malignancies, neutropenia, pharmacologic immunosuppression, solid organ or bone marrow/stem cell transplantation, burns, trauma, malnutrition, and intravenous drug use. Mucormycosis has also been described in patients with iron and aluminum overload, patients on dialysis, and patients receiving iron chelating therapy. We describe a 75-year-old man with myelodysplastic syndrome and iron overload secondary to multiple red blood cell transfusions who had been treated with deferoxamine chelation therapy. He was admitted to the hospital for atrial fibrillation, developed multiple organ failure, and died. Pulmonary invasive mucormycosis was demonstrated at autopsy. This case further documents an association between invasive mucormycosis, iron overload, and deferoxamine therapy.
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PMID:Pulmonary invasive mucormycosis in a patient with secondary iron overload following deferoxamine therapy. 1898 78

Zygomycosis is an invasive fungal infection with extremely high mortality caused by filamentous fungi which belong to Class Zygomycetes (Rhizopus spp., Mucor spp., Cunninghamella spp., etc). Despite of the similarities of the ecological characteristics and of the patients' backgrounds, zygomycosis is much rarer than invasive aspergillosis. In addition to well known immunosuppressive risk factors (hematological malignancy, hematopoietic stem cell or solid organ transplant, prolonged neutropenia, corticosteroid, etc), diabetic ketoacidosis, iron overload, and administration of deferoxamine are specific factors predisposing zygomycosis. Rhinocerebral, pulmonary and disseminated disease is characteristic forms. The mainstay of the treatment is surgical resection, reversal of immunosuppressive factors, and administration of high-dose amphotericin B or its liposomal formulation. Because of the difficulty of culture detection and the absence of reliable serological diagnostic methods, premortem diagnosis and no delaying of effective treatment remain a challenge to physicians.
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PMID:[Zygomycosis]. 1906 5

Recent years have seen the release of multiple new systemic antifungal agents, significantly increasing options for the treatment of most serious fungal infections. Newly available drugs include those in the echinocandin class, including caspofungin, micafungin, and anidulafungin, as well as the newer generation triazoles, voriconazole and posaconazole. Ordering of these agents is variably restricted, depending on a given institution's policies, and all are costly. In this review we examine the available evidence and outline the role of newer antifungal medications in several common and/or important situations, including invasive and mucocutaneous Candida infection, febrile neutropenia, invasive aspergillosis, zygomycosis, and endemic mycoses.
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PMID:Clinical indications for newer antifungal agents. 1921 26

Liposomal amphotericin B (AmBisome) is a lipid-associated formulation of the broad-spectrum polyene antifungal agent amphotericin B. It is active against clinically relevant yeasts and moulds, including Candida spp., Aspergillus spp. and filamentous moulds such as Zygomycetes, and is approved for the treatment of invasive fungal infections in many countries worldwide. It was developed to improve the tolerability profile of amphotericin B deoxycholate, which was for many decades considered the gold standard of antifungal treatment, despite being associated with infusion-related events and nephrotoxicity. In well controlled trials, liposomal amphotericin B had similar efficacy to amphotericin B deoxycholate and amphotericin B lipid complex as empirical therapy in adult and paediatric patients with febrile neutropenia. In addition, caspofungin was noninferior to liposomal amphotericin B as empirical therapy in adult patients with febrile neutropenia. For the treatment of confirmed invasive fungal infections, liposomal amphotericin B was more effective than amphotericin B deoxycholate treatment in patients with disseminated histoplasmosis and AIDS, and was noninferior to amphotericin B deoxycholate in patients with acute cryptococcal meningitis and AIDS. In adults, micafungin was shown to be noninferior to liposomal amphotericin B for the treatment of candidaemia and invasive candidiasis. Data from animal studies suggested that higher dosages of liposomal amphotericin B might improve efficacy; however, in the AmBiLoad trial in patients with invasive mould infection, there was no statistical difference in efficacy between the standard dosage of liposomal amphotericin B 3 mg/kg/day and a higher 10 mg/kg/day dosage, although the standard dosage was better tolerated. Despite being associated with fewer infusion-related adverse events and less nephrotoxicity than amphotericin B deoxycholate and amphotericin B lipid complex, liposomal amphotericin B use is still limited to some extent by these adverse events. Both echinocandins were better tolerated than liposomal amphotericin B. The cost of liposomal amphotericin B therapy may also restrict its use, but further pharmacoeconomic studies are required to fully define its cost effectiveness compared with other antifungal agents. Based on comparative data from well controlled trials, extensive clinical experience and its broad spectrum of activity, liposomal amphotericin B remains a first-line option for empirical therapy in patients with febrile neutropenia and in those with disseminated histoplasmosis, and is an option for the treatment of AIDS-associated cryptococcal meningitis, and for invasive Candida spp. or Aspergillus spp. infections. Amphotericin B, a macrocyclic, polyene antifungal agent, is thought to act by binding to ergosterol, the principal sterol in fungal cell membranes and Leishmania cells. This results in a change in membrane permeability, causing metabolic disturbance, leakage of small molecules and, as a consequence, cell death. In vitro and in vivo studies have shown that liposomal amphotericin B remains closely associated with the liposomes in the circulation, thereby reducing the potential for nephrotoxicity and infusion-related toxicity associated with conventional amphotericin B. Amphotericin B shows very good in vitro activity against a broad spectrum of clinically relevant fungal isolates, including most strains of Candida spp. and Aspergillus spp., and other filamentous fungi such as Zygomycetes. Liposomal amphotericin B has proven effective in various animal models of fungal infections, including those for candidiasis, aspergillosis, fusariosis and zygomycosis. Liposomal amphotericin B also shows immunomodulatory effects, although the mechanisms involved are not fully understood, and differ from those of amphotericin B deoxycholate and amphotericin B colloidal dispersion. In adult patients with febrile neutropenia, intravenous liposomal amphotericin B has nonlinear pharmacokinetics, with higher than dose-proportional increases in exposure being consistent with reticuloendothelial saturation and redistribution of amphotericin B in the plasma compartment. Liposomal amphotericin B is rapidly and extensively distributed after single and multiple doses, with steady-state concentrations of amphotericin B attained within 4 days and no clinically relevant accumulation of the drug following multiple doses of 1-7.5 mg/kg/day. In autopsy tissue, the highest concentrations of the drug were found in the liver and spleen, followed by the kidney, lung, myocardium and brain tissue. Elimination of liposomal amphotericin B, like that of amphotericin B deoxycholate, is poorly understood; its route of metabolism is not known and its excretion has not been studied. The terminal elimination half-life is about 7 hours. No dosage adjustment is required based on age or renal impairment. In several randomized, double-blind trials (n = 73-1095) in adult and/or paediatric patients, liposomal amphotericin B was effective as empirical therapy or as treatment for confirmed invasive fungal infections, including invasive candidiasis, candidaemia, invasive mould infection (mainly aspergillosis), histoplasmosis and cryptococcal meningitis. All agents were administered as an intravenous infusion; the typical dosage for liposomal amphotericin B was 3 mg/kg/day. Treatment was generally given for 1-2 weeks. Participants in trials evaluating empirical therapy had neutropenia and a persistent fever despite antibacterial treatment and had received chemotherapy or undergone haematopoietic stem cell transplantation. As empirical therapy in adult and paediatric patients, liposomal amphotericin B appeared to be as effective as amphotericin B deoxycholate (approximately 50% of patients in each group achieved treatment success) or amphotericin B lipid complex (approximately 40% of liposomal amphotericin B recipients experienced treatment success). Of note, in the first trial, results of the statistical test to determine equivalence between treatments were not reported. In the second trial, efficacy was assessed as an 'other' endpoint. In another trial, caspofungin was shown to be noninferior to liposomal amphotericin B, with approximately one-third of patients in each group experiencing treatment success. Liposomal amphotericin B was significantly more effective than amphotericin B deoxycholate for the treatment of moderate to severe disseminated histoplasmosis in patients with AIDS, with 88% and 64% of patients, respectively, having a successful response. Liposomal amphotericin B was noninferior to amphotericin B deoxycholate for the treatment of cryptococcal meningitis in terms of mycological success. Micafungin therapy was shown to be noninferior to liposomal amphotericin B for the treatment of adult patients with candidaemia or invasive candidiasis. In a substudy in paediatric patients, which was not powered to determine noninferiority, liposomal amphotericin B was as effective as micafungin for the treatment of candidaemia or invasive candidiasis. In this patient population, within each trial, 90% of adult patients and approximately three-quarters of paediatric patients in both treatment groups experienced a successful response. In patients with invasive mould infection (mainly aspergillosis), there was no difference in efficacy between a higher dosage of liposomal amphotericin B (10 mg/kg/day) and the standard dosage (3 mg/kg/day), with 46% and 50% of patients experiencing a favourable overall response. In well designed clinical trials, liposomal amphotericin B was generally at least as well tolerated as other lipid-associated formulations of amphotericin B and better tolerated than amphotericin B deoxycholate in adult and paediatric patients. Compared with other amphotericin B formulations, liposomal amphotericin B treatment was associated with a lower incidence of infusion-related adverse events and nephrotoxicity. A higher than recommended dosage of liposomal amphotericin B (10 mg/kg/day) was associated with an increased incidence of nephrotoxicity compared with the standard dosage (3 mg/kg/day), although the incidence of infusion-related reactions did not differ between treatment groups. In general, liposomal amphotericin B treatment was not as well tolerated as echinocandin therapy in well designed clinical trials. As empirical therapy or for the treatment of confirmed invasive fungal infections in adult patients, liposomal amphotericin B recipients experienced more infusion-related events and nephrotoxicity than caspofungin or micafungin recipients. There was no difference in the incidence of these adverse events between the liposomal amphotericin B and micafungin groups in a study in paediatric patients.
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PMID:Liposomal amphotericin B: a review of its use as empirical therapy in febrile neutropenia and in the treatment of invasive fungal infections. 1927 78

A 69-year-old man, who had been receiving prednisolone for 11 months for treatment of interstitial pneumonia, was diagnosed with acute myeloid leukemia. During induction therapy, he developed severe pneumonia. Although meropenem and micafungin were started, he died of circulatory failure owing to massive gastrointestinal bleeding. Autopsy specimens obtained from the stomach revealed fungal hyphae, which had invaded diffusely into submucosal vessels and caused the massive gastric bleeding. The same hyphae were also observed in both lungs. A diagnosis of disseminated zygomycosis was confirmed by its characteristic histopathological findings. Because zygomycetes are spontaneously resistant to the newer antifungal agents, such as voriconazole or micafungin, it seems likely that the prevalence of zygomycosis as a breakthrough infection may increase in the future. Zygomycosis is a rare, but life-threatening, deep fungal infection that appears in immunologically or metabolically compromised hosts. Its manifestations are clinically similar to those of invasive aspergillosis. In addition to the well-established epidemiology of zygomycosis, this case suggests the following new characteristics. (1) Although the gastrointestinal manifestation of zygomycosis is relatively rare, it is observed more frequently than invasive aspergillosis. (2) Gastrointestinal zygomycosis occasionally leads to the development of necrotic ulcers and may induce hemorrhagic shock.(3) We should be cautious of an occurrence of breakthrough zygomycosis when we use echinocandins for patients with known risk factors, especially steroid use and neutropenia. (4) For patients who are receiving broad-spectrum antibiotics and echinocandins, who are negative for culture studies and aspergillus antigen, and who present with unresolved fever, it is important to make a prompt clinical diagnosis of zygomycosis.
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PMID:Breakthrough disseminated zygomycosis induced massive gastrointestinal bleeding in a patient with acute myeloid leukemia receiving micafungin. 2579 21


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