Fungal Infection in Critically ill patients
Diaa El-Din Ibrahim Shehatah;
Abstract
The incidence of nosocomial infection caused by fungi had been increased steadily for the past 25 years. This increased incidence of nosocomial infection may be related to impairment of immune response as a result of a variety of genetic disorders, malignancy, burn, organ transplantation, endocrinal disorders, chemotherapy, immunosuppressive drugs, and certain viral infection, notably human immunodeficiency virus (HIV).
There have been changes in the epidemiology of fungal infections in the last decade. Candida infections, a major cause of death in patients with leukemia and recipients of stem cell or solid organ transplants, are now seen more often in patients in the intensive care unit (ICU).
Reports reveal that fungal infection was responsible for 9.65% of nosocomial blood-stream infections and 25% of nosocomial urinary tract infections. Other reports revealed that fungal infection was responsible for 7.9% of all nosocomial infections.
The species of Candida causing infection are more diverse: Candida albicans does not predominate as it once did; Candida glabrata, an organism often resistant to fluconazole, has become prevalent in some hospitals. Changes in the epidemiology of mold infections have also occurred and there has been an increase in infections due to other molds, such as Scedosporium apiospermum, Fusarium species, and zygomycetes, such as Rhizopus and Mucor. These molds are angioinvasive, infiltrating through blood vessels and leading to extensive tissue infarction and widespread dissemination. Many of the emerging molds are resistant to amphotericin B.
Other minor pathogens include Fusarium species, Cryptococcus neoformans, Pneumocystis carinii, Mucormycosis, Phaeohyphomycosis, Trichosporon, and Malassezi.
The concomitant use of culture and non-culture techniques for the diagnosis and confirmation of systemic mycotic infections is recommended. A diagnosis based on a single specimen and method, especially when the results are negative, is not always conclusive. The testing of multiple or serial specimens increases the chances for establishing a rapid and definitive diagnosis.
Direct methods include microscopic detection in wet film or stained smear, and antigen detection. Direct methods also include chemical detection (of specific metabolites or certain fungal components) or detection through Polymerase chain reaction. Indirect methods include detection of serum antibodies against certain pathogen.
Paralleling these changes in the epidemiology of fungal infections has been the introduction of new
There have been changes in the epidemiology of fungal infections in the last decade. Candida infections, a major cause of death in patients with leukemia and recipients of stem cell or solid organ transplants, are now seen more often in patients in the intensive care unit (ICU).
Reports reveal that fungal infection was responsible for 9.65% of nosocomial blood-stream infections and 25% of nosocomial urinary tract infections. Other reports revealed that fungal infection was responsible for 7.9% of all nosocomial infections.
The species of Candida causing infection are more diverse: Candida albicans does not predominate as it once did; Candida glabrata, an organism often resistant to fluconazole, has become prevalent in some hospitals. Changes in the epidemiology of mold infections have also occurred and there has been an increase in infections due to other molds, such as Scedosporium apiospermum, Fusarium species, and zygomycetes, such as Rhizopus and Mucor. These molds are angioinvasive, infiltrating through blood vessels and leading to extensive tissue infarction and widespread dissemination. Many of the emerging molds are resistant to amphotericin B.
Other minor pathogens include Fusarium species, Cryptococcus neoformans, Pneumocystis carinii, Mucormycosis, Phaeohyphomycosis, Trichosporon, and Malassezi.
The concomitant use of culture and non-culture techniques for the diagnosis and confirmation of systemic mycotic infections is recommended. A diagnosis based on a single specimen and method, especially when the results are negative, is not always conclusive. The testing of multiple or serial specimens increases the chances for establishing a rapid and definitive diagnosis.
Direct methods include microscopic detection in wet film or stained smear, and antigen detection. Direct methods also include chemical detection (of specific metabolites or certain fungal components) or detection through Polymerase chain reaction. Indirect methods include detection of serum antibodies against certain pathogen.
Paralleling these changes in the epidemiology of fungal infections has been the introduction of new
Other data
| Title | Fungal Infection in Critically ill patients | Other Titles | العدوى الفطرية فى مرضى الرعاية المركزة | Authors | Diaa El-Din Ibrahim Shehatah | Issue Date | 2014 |
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