Ascomycota |
Scientific classification |
Kingdom: |
Fungi |
Division: |
Ascomycota |
Class: |
Euascomycetes |
Order: |
Onygenales |
Family: |
Onygenaceae |
Genus: |
Coccidioides |
Binomial name |
Coccidioides immitis
G.W. Stiles |
Sputum culture of
Coccidioides immitis on Sabouraud's medium, showing white, cottony fungus growth
Microscopic appearance of an old culture of
Coccidioides immitis, showing fragmented chlamydospores. This is the infective form of the fungus occurring in nature
Septate hyphae of Coccidioides immitis with 90 degree branching and thick walled barrel shaped arthroconidia alternating with empty cells
Coccidioides immitis is a pathogenic fungus that resides in the soil in certain parts of the southwestern United States, northern Mexico, and a few other areas in the Western Hemisphere.[1]
Contents
- 1 Epidemiology
- 2 Clinical manifestation
- 3 Treatment
- 3.1 Azoles
- 3.2 Amphotericin
- 3.3 Duration of therapy and costs
- 4 HHS select agents listing
- 5 In popular culture
- 6 See also
- 7 References
- 8 External links
Epidemiology[edit]
Coccidioides immitis, along with its relative Coccidioides posadasii,[2] is most commonly seen in the desert regions of the southwestern United States, including certain areas of Arizona, California, New Mexico, Nevada, Texas, and Utah; and in Central and South America in Argentina, Brazil, Colombia, Guatemala, Honduras, Mexico, Nicaragua, Paraguay, and Venezuela.[3] C. immitis largely found in California, while C. posadasii in Texas, northern Mexico and in Central and South America. Both C. immitis and C. posadasii are present in Arizona.[4]
Clinical manifestation[edit]
C. immitis can cause a disease called coccidioidomycosis, or (Valley fever).[5][6] Its incubation period varies, lasting from 7 to 21 days.[7] Coccidioidomycosis is not easily diagnosed on the basis of vital signs and symptoms, which are usually vague and nonspecific. Even a chest X-ray or CT scan cannot reliably distinguish Valley fever from another lung diseases, including lung cancer. Blood or urine tests are administered, which aim for discovering coccidioides antigens (antibodies). However, because the coccidioides create a mass that can mimic a lung tumor, the correct diagnosis may require a tissue sample (biopsy). A Gomori methenamine silver (GMS) stain can then confirm the presence of the coccidioides organism's characteristic spherules within the tissue. The Coccidioides immitis organism can be cultured from a patient sample, but the culture can take weeks to grow and requires special precautions on a part of the laboratory staff while handling it (screw cap vials and sterile transfer hoods are recommended[8]). It is reported as a tenth most often acquired infection in the laboratory conditions with two documented death.[1] Until October 2012, Coccidioides immitis has been listed as a select agent by both the U.S. Department of Health and Human Services and the U.S. Department of Agriculture, and was considered a biosafety level 3 pathogen.
Treatment[edit]
- Most Coccidioides infections have an incubation period from one to four weeks[1] and resolve without specific therapy; few clinical trials have assessed outcomes in less-severe disease.
- Commonly used indicators to judge the severity of illness:[9]
-
- Continuous fever for longer than 1 month
- Body-weight loss of more than 10%
- Intense night sweats that persist for more than 3 weeks
- Infiltrates that involve more than half of one lung or portions of both lungs
- Prominent or persistent hilar adenopathy
- Anticoccidioidal complement fixation (CF) IgG titers of 1:16 or higher
- Absence of dermal hypersensitivity to coccidioidal antigens
- Inability to work
- Symptoms that persist for more than 2 months
- Risk factors for dissemination (for which treatment should be initiated):
-
- Primary infection during infancy
- Primary infection during pregnancy, especially in the third trimester or immediately postpartum
- Immunosuppression (e.g., patients with HIV/AIDS, transplant recipients, patients receiving high-dose corticosteroids, those receiving anti–tumor necrosis factor [TNF] medications)
- Chronic debilitation or underlying disease, including diabetes mellitus or preexisting cardiopulmonary disease
- High inoculum exposures
- Certain ethnicities, such as Filipino, black, or Hispanic
- Age greater than 55 years
Azoles[edit]
- The introduction of azoles revolutionized treatment for coccidioidomycosis,[10] and these agents are usually the first line of therapy. However, none of the azoles is safe to use in pregnancy and lactation because they have shown teratogenicity in animal studies.
-
- Of the azoles, ketoconazole is the only one that is approved by the U.S. Food and Drug Administration (FDA) for treatment of coccidioidomycosis. Nevertheless, although it was initially used in the long-term treatment of nonmeningeal extrapulmonary disease, more-potent, less-toxic triazoles (fluconazole and itraconazole) have replaced it.
-
- Itraconazole (400 mg/day) appears to have efficacy equal to that of fluconazole in the treatment of nonmeningeal infection and have the same relapse rate after therapy is discontinued. However, itraconazole seems to perform better in skeletal lesions,[64] whereas fluconazole performs better in pulmonary and soft tissue infection. Serum levels of itraconazole are commonly obtained at the onset of long-term therapy because its absorption is sometimes erratic and unpredictable.
- Dosages vary. Common dosages:
-
- Ketoconazole - 400 mg/day orally
- Itraconazole - 200 mg 2-3 times/day orally
- Fluconazole - 400–800 mg/day orally or IV
- For patients who are unresponsive to fluconazole, options are limited. Several case reports have studied the efficacy of 3 newer antifungal agents in the treatment of disease that is refractory to first-line therapy: posaconazole and voriconazole (triazole compounds similar in structure to fluconazole) and caspofungin (glucan synthesis inhibitor of the echinocandin structural class).[65, 66, 67] However, these drugs have not been FDA approved, and clinical trials are lacking. Susceptibility testing of Coccidioides species in one report revealed uniform susceptibility to most antifungal agents, including these newer drugs.
- In very severe cases, combination therapy with amphotericin B and an azole have been postulated, although no trials have been conducted. Caspofungin in combination with fluconazole has been cited as beneficial in a case report of a 31-year-old Asian patient with coccidioidal pneumonia. In a case report of a 23-year-old Black male with HIV and coccidioidal meningitis, combination therapy of amphotericin B and posaconazole led to clinical improvement.
- Posaconazole has been approved by the European Commission as a salvage therapy for refractory coccidioidomycosis. Clinical trials are now ongoing for further evaluation.
- Voriconazole is also being studied in salvage therapy for refractory cases. A case report indicated that voriconazole in combination with amphotericin B as salvage therapy for disseminated coccidioidomycosis was successful.
- Several case reports have studied caspofungin, with differing results. Caspofungin 50 mg/day following administration of amphotericin B in a patient with acute pulmonary coccidioidomycosis who had undergone transplantation showed promising results. In a patient with disseminated coccidioidomycosis, first-line therapy with amphotericin B and caspofungin alone failed to elicit a response, but the patient was then given caspofungin combined with fluconazole, with good results.
- A published report described a patient with disseminated and meningeal coccidioidomycosis in whom conventional therapy with fluconazole, voriconazole, and amphotericin B failed; caspofungin 50 mg/day after a loading dose of 70 mg IV was also unsuccessful.
Amphotericin[edit]
- Amphotericin B, introduced in 1957, remains the treatment of choice for severe infections. It is usually reserved for worsening disease or lesions located in vital organs such as the spine. It can be administered either in the classic amphotericin B deoxycholate formulation or as a lipid formulation. No studies have directly compared amphotericin B with azole therapy.
- Dosage:
- Amphotericin B deoxycholate - 0.5-1.5 mg/kg/day IV
- Lipid formulations of amphotericin B - 2–5 mg/kg/day IV
- Complications:
- Renal toxicity, bone marrow toxicity, local systemic effects (fever, rigors)
Duration of therapy and costs[edit]
- The objectives of treatment are resolution of infection, decrease of antibody titers, return of function of involved organs, and prevention of relapse. The duration of therapy is dictated by the clinical course of the illness, but it should be at least 6 months in all patients and often a year or longer in others. Therapy is tailored based on a combination of resolution of symptoms, regression of radiographic abnormalities, and changes in CF IgG titers. Immunocompromised patients and patients with a history of meningeal involvement require lifelong treatment.
The cost of antifungal therapy is high, from $5,000 to $20,000 per year. These costs increase for critical patients in need of intensive care. Arizona spent an average of $33,762 per patient with coccidioidomycosis between 1998 and 2001.
HHS select agents listing[edit]
Along with Coccidioides posadasii, coccidioides immitis was featured on the select agents and toxins list compiled by the U.S. Department of Health and Human Services (HHS), as evident from the Code of Federal Regulations (42 CFR 73).[11] However, on October 5, 2012 due to advances in medical research and development of a number of licensed treatments, both pathogens were removed from the HHS select agents listing.[12]
In popular culture[edit]
Coccidioides immitis is used as a plot device in Thunderhead, a novel by Douglas Preston and Lincoln Child. The fungus (prepared from infected victims) is revealed to be the principal agent in corpse powder (based on corpse poison used by Witch). It was also mentioned by the fictional antihero Dr. Gregory House (played by actor Hugh Laurie) on the Television Series, House MD (episode Lines in the Sand).
See also[edit]
- Coccidioides
- Coccidioides posadasii
- Coccidioidomycosis
References[edit]
- ^ a b c "Infectious Disease Index: Coccidioides immitis". MDSC Online. Public Health Agency of Canada (PHAC). Retrieved 16 July 2013.
- ^ "Coccidioides group database". Broad Institute. Retrieved 11 July 2013.
- ^ Frederick S. Fisher, Mark W. Bultman, and Demosthenes Pappagianis. "Operational Guidelines (version 1.0) for Geological Fieldwork in Areas Endemic for Coccidioidomycosis (Valley Fever)". U.S. Geological Survey Open-File Report 00-348 Version 1.0. U.S. Department of the Interior. Retrieved 12 July 2013.
- ^ Hospenthal, Duane R., and Michael G. Rinaldi. Diagnosis and Treatment of Human Mycoses. Totowa, N.J.: Humana Press, 2007, p. 296-297.
- ^ "Coccidioidomycosis (Valley Fever)". Centers for Disease Control and Prevention (CDC). Retrieved 11 July 2013.
- ^ "Fungal pneumonia: a silent epidemic - Coccidioidomycosis (valley fever)". Centers for Disease Control and Prevention (CDC). Retrieved 11 July 2013.
- ^ Loretta S. Chang, Tom M. Chiller. "Infectious Diseases Related To Travel". Centers for Disease Control and Prevention (CDC). Retrieved 12 July 2013.
- ^ "Coccidioides immitis". Tom Volk's Fungus of the Month. Tom Volk's Fungi. Retrieved 11 July 2013.
- ^ "Symptoms of Coccidioidomycosis (Valley Fever)". Centers for Disease Control and Prevention (CDC). Retrieved 11 July 2013.
- ^ "Treatment and Outcomes for Coccidioidomycosis (Valley Fever)". Centers for Disease Control and Prevention (CDC). Retrieved 11 July 2013.
- ^ "HHS select agents and toxins". Code of Federal Regulations (CFR), Title 42 - Public Health. Office of the Federal Register. Retrieved 11 July 2013.
- ^ "HHS select agents and toxins". Code of Federal Regulations (CFR), Title 42, Part 73 (Volume 77, Number 194) - Public Health. Office of the Federal Register. Retrieved 11 July 2013.
External links[edit]
- Identification of Coccidioides immitis and Coccidioides posadasii, a presentation by Nancy L Wengenack, PhD, Director of the Mycology and Mycobacteriology Laboratories and Associate Professor of Laboratory Medicine and Pathology in the Division of Clinical Microbiology at Mayo Clinic
- Infectious diseases
- Mycoses and Mesomycetozoea (B35–B49, 110–118)
|
|
Superficial and
cutaneous
(dermatomycosis):
Tinea = skin;
Piedra (exothrix/
endothrix) = hair |
Ascomycota |
Dermatophyte
(Dermatophytosis) |
By location |
- Tinea barbae/Tinea capitis
- Tinea corporis
- Tinea cruris
- Tinea manuum
- Tinea pedis (Athlete's foot)
- Tinea unguium/Onychomycosis
- (White superficial onychomycosis
- Distal subungual onychomycosis
- Proximal subungual onychomycosis
- Tinea corporis gladiatorum
- Tinea faciei
- Tinea imbricata
- Tinea incognito
- Favus
|
|
By organism |
- Epidermophyton floccosum
- Microsporum canis
- Microsporum audouinii
- Trichophyton interdigitale/mentagrophytes
- Trichophyton tonsurans
- Trichophyton schoenleini
- Trichophyton rubrum
|
|
|
Other |
- Hortaea werneckii
- Piedraia hortae
|
|
|
Basidiomycota |
- Malassezia furfur
- Tinea versicolor
- Pityrosporum folliculitis
- Trichosporon spp
|
|
|
Subcutaneous,
systemic,
and opportunistic |
Ascomycota |
Dimorphic
(yeast+mold) |
Onygenales |
- Coccidioides immitis/Coccidioides posadasii
- Coccidioidomycosis
- Disseminated coccidioidomycosis
- Primary cutaneous coccidioidomycosis. Primary pulmonary coccidioidomycosis
- Histoplasma capsulatum
- Histoplasmosis
- Primary cutaneous histoplasmosis
- Primary pulmonary histoplasmosis
- Progressive disseminated histoplasmosis
- Histoplasma duboisii
- Lacazia loboi
- Paracoccidioides brasiliensis
|
|
Other |
- Blastomyces dermatitidis
- Blastomycosis
- North American blastomycosis
- South American blastomycosis
- Sporothrix schenckii
- Penicillium marneffei
|
|
|
Yeast-like |
- Candida albicans
- Candidiasis
- Oral
- Esophageal
- Vulvovaginal
- Chronic mucocutaneous
- Antibiotic candidiasis
- Candidal intertrigo
- Candidal onychomycosis
- Candidal paronychia
- Candidid
- Diaper candidiasis
- Congenital cutaneous candidiasis
- Perianal candidiasis
- Systemic candidiasis
- Erosio interdigitalis blastomycetica
- C. glabrata
- C. tropicalis
- C. lusitaniae
- Pneumocystis jirovecii
- Pneumocystosis
- Pneumocystis pneumonia
|
|
Mold-like |
- Aspergillus
- Aspergillosis
- Aspergilloma
- Allergic bronchopulmonary aspergillosis
- Primary cutaneous aspergillosis
- Exophiala jeanselmei
- Fonsecaea pedrosoi/Fonsecaea compacta/Phialophora verrucosa
- Geotrichum candidum
- Pseudallescheria boydii
|
|
|
Basidiomycota |
- Cryptococcus neoformans
- Cryptococcosis
- Trichosporon spp
- Trichosporonosis
|
|
Zygomycota
(Zygomycosis) |
Mucorales
(Mucormycosis) |
- Rhizopus oryzae
- Mucor indicus
- Lichtheimia corymbifera
- Syncephalastrum racemosum
- Apophysomyces variabilis
|
|
Entomophthorales
(Entomophthoramycosis) |
- Basidiobolus ranarum
- Conidiobolus coronatus/Conidiobolus incongruus
|
|
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Microsporidia
(Microsporidiosis) |
- Enterocytozoon bieneusi/Encephalitozoon intestinalis
|
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Mesomycetozoea |
|
|
Ungrouped |
- Alternariosis
- Fungal folliculitis
- Fusarium
- Granuloma gluteale infantum
- Hyalohyphomycosis
- Otomycosis
- Phaeohyphomycosis
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