Aspergillus: Difference between revisions
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Aspergillus
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== |
==Background== |
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===Microbiology=== |
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*''Aspergillus'' is a mold with hyaline (lightly-pigmented) hyphae, septated, and usually branched at acute angle (45ΒΊ) |
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*Named for the appearance of the sporulating head, which looks like an aspergillum used to sprinkle holy water (in 1729) |
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*Most species reproduce asexually, although ''A. fumigatus'' and a few others have teleomorphs (sexual form with fruiting body) |
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*Culture is important, but molecular methods are often required to identify the particular species |
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** |
**Pathogenic species grow quickly on common media |
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** |
**Can grow at 37ΒΊ C, and ''A. fumigatus'' can grow up to 50ΒΊ C |
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* |
*Organized into complexes, which cannot be differentiated phenotypically, but rather need molecular methods |
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** |
**Fumigatus: ''A. fumigatus'', ''A. lentulus'', ''A. udagawae'' |
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** |
**Ustus: ''A. calidoustus'' (often resistant to ampho B) |
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** |
**Niger: ''A. tubingensis'' and ''A. niger'' |
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** |
**Versicolor: ''A. versicolor'' and ''A. sydowii'' |
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{| class="wikitable" |
{| class="wikitable" |
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! |
!'''Species''' |
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!'''Colonies''' |
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!'''Conidiophore''' |
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!'''Phialides''' |
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!'''Other''' |
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! '''Other''' |
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|''A. flavus'' |
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|Yellow green, yellow, brownish |
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|Rough colourless |
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| [[File:media/image11.png]] |
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|Uniseriate and biseriate |
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| Rough colourless |
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|Sclerotia sometimes present |
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| Uniseriate and biseriate |
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| Sclerotia sometimes present |
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|''A. fumigatus'' complex |
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|Grey-green, blue green, yellowish |
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|Smooth, colourless or greenish |
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| [[File:media/image5.png]] |
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|Uniseriate |
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| Smooth, colourless or greenish |
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|Good growth at 48ΒΊC |
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| Uniseriate |
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| Good growth at 48ΒΊC |
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|''A. glaucus'' |
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|Green and yellow, yellowish, brown |
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|Smooth, colourless |
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| [[File:media/image2.png]] |
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|Uniseriate |
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| Smooth, colourless |
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|Yellow to orange cleistothecia present |
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| Uniseriate |
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| Yellow to orange cleistothecia present |
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|''A. nidulans'' |
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|Green buff, purplish red, olive |
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|Smooth, brown |
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| [[File:media/image8.png]] |
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|Biseriate |
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| Smooth, brown |
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|Round hΓΌlle cells and cleistothecia with purple ascospores usually present |
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| Biseriate |
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| Round hΓΌlle cells and cleistothecia with purple ascospores usually present |
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|''A. niger'' |
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|Black, white, yellowish |
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|Smooth, colourless or brown |
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| [[File:media/image1.png]] |
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|Biseriate |
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| Smooth, colourless or brown |
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| Biseriate |
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|''A. terreus'' |
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|Brown cinnamon, yellowish brown |
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|Smooth, colourless |
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| [[File:media/image4.png]] |
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|Biseriate |
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| Smooth, colourless |
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|Round, solitary aleurioconidia produced directly on hyphae |
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| Biseriate |
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| Round, solitary aleurioconidia produced directly on hyphae |
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|''A. ustus'' |
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|Light brown, grayish brown, yellowish brown |
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|Smooth, brown |
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|Biseriate |
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| Smooth, brown |
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|Long, brown-walled conidiophores, small vesicles, rough-walled conidia |
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| Biseriate |
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| Long, brown-walled conidiophores, small vesicles, rough-walled conidia |
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|''A. versicolor'' |
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|White, buff, yellow, pink, pale green, white, yellow, purplish red |
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|Smooth, colourless |
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|Biseriate |
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| Smooth, colourless |
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|Round hΓΌlle cells sometimes present |
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| Biseriate |
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| Round hΓΌlle cells sometimes present |
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|} |
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* |
*Of note, ''A. ustus'' complex (''A. caladustus'') are resistant to [[azoles]] and [[echinocandins]], and variable resistance to [[amphotericin]] (but susceptible to [[terbinafine]]) |
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== |
===Epidemiology=== |
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* |
*Ubiquitous worldwide, found in soil, water, food, air, and decaying vegetation |
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*There is increasing antifungal resistance worldwide |
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*Outbreaks can occur with construction |
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*May also be possible to have activation of latent infecton or colonization, making infection control more difficult |
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=== |
====High-Risk Populations==== |
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*The major risk factor is defective function or decreased number of neutrophils |
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*Highest risk, in order, are: [[CGD]], allogeneic [[hematopoietic stem cell transplantation]] with [[GVHD]], [[AML]] with induction or (worse) reinduction, everyone else |
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*[[Hematopoietic stem cell transplantation|Hematopoitic stem cell transplantion]] is high risk (7% allo, 1% auto) |
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* CGD is the highest risk disease; other at-risk groups include lung disease, AIDS, etc. |
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**Peaks <40 days and >100 days |
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* Hematopoitic stem cell transplants are highest risk (7% allo, 1% auto) |
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**With or without neutropenia, most likely related to steroid use |
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** Peaks <40 days and >100 days |
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*[[Hematologic malignancy|Hematologic malignancies]] |
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** With or without neutropenia, most likely related to steroid use |
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**Usually following induction chemotherapy, or refractory or recurrenct disease (50% mortality) |
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* Hematologic malignancies |
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**3+7 AML induction usually 14-21 days of [[neutropenia]] |
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** Usually following induction chemotherapy, or refractory or recurrenct disease (50% mortality) |
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*[[Solid organ transplantation]] |
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** 3+7 AML induction usually 14-21 days of neutropenia |
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**Highest among [[lung transplantation]] recipients (6%) due to ongoing environmental exposure, decreased ciliary clearance, and common concomitant ''Aspergillus'' colonization |
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* Solid-organ transplants |
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**Followed by small bowel, [[Liver transplantation|liver]] (4%), [[Heart transplantation|heart]] (2%), and [[Renal transplantation|kidney]] (0.5%) |
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** Highest among lung transplant recipients (6%) due to ongoing environmental exposure, decreased ciliary clearance, and common concomitant ''Aspergillus'' colonization |
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**Usually diagnosed at 6 to 12 months (half within the first 3 months) |
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** Followed by liver (4%), heart (2%), and kidney (0.5%) |
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*Therapeutic immunosuppression, including [[prednisone]] and [[TNF-Ξ± inhibitors]] |
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** Usually diagnosed at 6 to 12 months |
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*[[GVHD]] increases the risk, due to the additional immune suppression |
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* Therapeutic immunosuppression, including prednisone and anti-TNF-alpha |
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**Highest risk within GVHD is with gut involvement |
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* GVHD increases the risk, due to the additional immune suppression |
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*Solid maligancies are relatively low risk due to the short courses of [[neutropenia]], but increasing risk with newer chemotherapies |
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** Highest risk within GVHD is with gut involvement |
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* Solid maligancies are relatively low risk due to the short courses of neutropenia, but increasing risk with newer chemotherapies |
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==== Other Risk Factors ==== |
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== Pathophysiology == |
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* HIV (2.2 per 10,000/year), associated with low CD4 counts, neutropenia, cirrhosis, liver transplantation, and glucocorticoid therapy |
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* Initially acquired by inhalation of conidia into lungs or sinuses, or rarely from local tissue invasion |
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* Liver cirrhosis (0.3%) |
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* The conidia grow and germinate, transforming into hyphae and invading the vasculature |
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* Immunocompetent patients in critical condition from [[ARDS]], [[COPD]], influenza, pneumonia, burns, severe bacterial sepsis, surgery, or malnutrition |
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** Hydrocortisone appears to be a growth factor for ''Aspergillus'' |
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** Glucocorticoid therapy is most common risk factor in these patients |
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** Vascular invasion is typical of invasive aspergillosis |
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** May cause pulmonary infarction |
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* This can be followed by hematogenous dissemination |
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* The host immune response begins with ciliary clearance to prevent the conidia from reaching the alveoli |
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* Once in the alveoli, the response depends on pulmonary macrophages to phagocytose the conidia |
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* Following germination and growth of hyphae, PMNs act to kill hyphae and swollen conidia |
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** This is helped by opsonization of conidia by complement |
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** Antibodies are common, given the mold's ubiquity, but not protective |
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* ''A. fumigatus'' has small conidia, allowing it to reach the alveoli more easily, and also produces a complement inhibitor |
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===Pathophysiology=== |
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== Clinical Presentation == |
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*Initially acquired by inhalation of conidia into lungs or sinuses, or rarely from local tissue invasion |
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=== Colonization and superficial infections === |
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*The conidia grow and germinate, transforming into hyphae and invading the vasculature |
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**[[Hydrocortisone]] appears to be a growth factor for ''Aspergillus'' |
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**Vascular invasion is typical of invasive aspergillosis |
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**May cause pulmonary infarction |
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*This can be followed by hematogenous dissemination |
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*The host immune response begins with ciliary clearance to prevent the conidia from reaching the alveoli |
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*Once in the alveoli, the response depends on pulmonary macrophages to phagocytose the conidia |
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*Following germination and growth of hyphae, PMNs act to kill hyphae and swollen conidia |
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**This is helped by opsonization of conidia by complement |
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**Antibodies are common, given the mold's ubiquity, but not protective |
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*''A. fumigatus'' has small conidia, allowing it to reach the alveoli more easily, and also produces a complement inhibitor |
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==Clinical Manifestations== |
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==== Aspergilloma (fungal ball) ==== |
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===Colonization and Superficial Infections=== |
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* Ball of hyphae growing in a preexisting cavity, often in bullous emphysema, sarcoidosis, tuberculosis, histoplasmosis, congenital cysts, bacterial lung abscesses, or ''Pneumocystis'' bleb |
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* Often asymptomatic, but the most common symptom is hemoptysis, which can be fatal |
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* Can also occur in the sinuses |
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====Aspergilloma (Fungal Ball)==== |
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==== Other supreficial infections ==== |
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*Ball of hyphae growing in a preexisting cavity, often in bullous emphysema, sarcoidosis, tuberculosis, histoplasmosis, congenital cysts, bacterial lung abscesses, or ''Pneumocystis'' bleb |
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* Otomycosis: chronic otitis externa caused by ''A. niger'' or ''A. fumigatus'' |
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*Often asymptomatic, but the most common symptom is [[Causes::hemoptysis]], which can be fatal |
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* Onychomycosis |
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*Can also occur in the sinuses |
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* Keratitis |
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====Other Superficial Infections==== |
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=== Allergic syndromes === |
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*[[Otomycosis]]: chronic otitis externa caused by ''A. niger'' or ''A. fumigatus'' |
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==== Allergic bronchopulmonary aspergillosis (ABPA) ==== |
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*[[Onychomycosis]] |
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*[[Keratitis]] |
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===Allergic Syndromes=== |
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* Caused by a Th2 response to ''Aspergillus'', usually in patients with asthma or cystic fibrosis |
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* Criteria include: asthma, central bronchiectasis on CT, positive skin test for ''Aspergillus'', total IgE >417 IU/mL, IgE or IgG antibodies to ''A. fumigatus'', transient CXR infiltrates, ''Aspergillus'' precipitans, and eosinophilia |
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* Supported by ''Aspergillus'' on sputum culture, brown mucous plugs with dead eosinophils, and CXR showing bronchiectasis |
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* The course is characterized by exacerbations and remissions, leading to eventual pulmonary fibrosis and chronic pulmonary aspergillosis |
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==== |
====Allergic Bronchopulmonary Aspergillosis (ABPA)==== |
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*Allergic reaction to airway colonization, usually in patients with [[asthma]] or [[cystic fibrosis]] |
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* Can be ''Aspergillus'' or other molds |
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*Characterized by poorly-controlled asthma or pneumonia, mucoid impaction, persistent eosinophilia |
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* Mangement is mostly surgical |
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*See also [[Allergic bronchopulmonary aspergillosis]] |
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====Allergic Fungal Sinusitis==== |
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=== Chronic cavitary pulmonary aspergillosis (CCPA) === |
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*Can be ''Aspergillus'' or other molds |
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* One or more cavities that can contain solid or liquid material or a fungal ball, usually following creation of multiple cavities from another process |
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*Management is mostly surgical |
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* May present with pulmonary or constitutional symptoms, including hemoptysis, dyspnea, and productive cough |
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** Weight loss and fatigue are common and profound, while fevers are less common |
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** May mimic TB |
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* Diagnosis requires: |
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** 3 months of symptoms or chronic illness or progressive radiological abnormalities with cavitation, pleural thickening, perivacitary infiltrates +/- fungal ball |
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** ''Aspergillus'' IgG antibodies |
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** No or minimal immunocompromise |
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* Must rule out other causes of symptoms, including other causes of weight loss |
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=== Chronic Pulmonary Aspergillosis (CPA) === |
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=== Invasive aspergillosis === |
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* Inclues chronic cavitary pulmonary aspergillosis (CCPA), chronic necrotising pulmonary aspergillosis (CNPA), and chronic fibrosing aspergillosis |
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* aka. angioinvasive, invading the vasculature |
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==== Chronic |
==== Chronic Cavitary Pulmonary Aspergillosis (CCPA) ==== |
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*One or more cavities that can contain solid or liquid material or a fungal ball, usually following creation of multiple cavities from another process |
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*May present with pulmonary or constitutional symptoms, including hemoptysis, dyspnea, and productive cough |
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**Weight loss and fatigue are common and profound, while fevers are less common |
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**May mimic TB |
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*Diagnosis requires: |
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**3 months of symptoms or chronic illness or progressive radiological abnormalities with cavitation, pleural thickening, perivacitary infiltrates +/- fungal ball |
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**''Aspergillus'' IgG antibodies |
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**No or minimal immunocompromise |
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*Must rule out other causes of symptoms, including other causes of weight loss |
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==== Chronic Necrotising Pulmonary Aspergillosis (CNPA) ==== |
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* With mild or moderate immunosuppression, patients may develop chronic necrotizing pulmonary aspergillosis (CNPA), essentially a subacute form of invasive aspergillosis |
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==== |
==== Chronic Fibrosing Aspergillosis (CFA) ==== |
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===Invasive Aspergillosis=== |
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* Usually after 10 to 12 days of severe neutropenia |
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* Non-productive cough, dyspnea, pleuritic chest pain, and fever with pulmonary infiltrates despite broad-spectrum antibiotics |
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** Symptoms may be less prominent in patients with defective immunity |
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** Fever dampened by high dose steroids |
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* Also hemoptysis, pleural effusion, and pneumothorax |
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** Can mimic a pulmonary embolism |
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* Imaging may show multiple dense nodular pulmonary infiltrates without air bronchograms, suggesting extensive infection |
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** Classic, though, is pleural-based wedge-shaped densities or cavitary lesions |
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** Pleural effusions are common |
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** A nodular lesion wth a halo is suggestive of early aspergillosis, followed by cavitation in later disease |
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*aka. angioinvasive, invading the vasculature |
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==== Other sites of invasive respiratory aspergillosis ==== |
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====Subacute Invasive Aspergillosis==== |
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* Ulcerative tracheobronchitis, a high concern in lung transplant |
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** May mimic graft rejection |
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* Invasive rhinosinusitis, with mortality of 10-20% |
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* Hematogenous dissemination to any organ, associated with 90% mortality |
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*Previously called chronic necrotizing pulmonary aspergillosis |
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*Occurs in mildly immunocompromised or very debilitated patients |
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**Risk factors include diabetes mellitus, malnutrition, alcoholism, advanced age, prolonged corticosteroids or other immunosuppressive agents, chronic obstructive lung disease, connective tissue disorders, radiation therapy, non-tuberculous mycobacterial infection, or HIV infection |
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*Similar clinical and radiological findings as chronic cavitary pulmonary aspergillosis, but progresses more rapidly into frank invasive pulmonary aspergillosis |
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====Invasive Pulmonary Aspergillosis==== |
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* Cerebral aspergillosis, which may explain half of all CNS lesions in HSCT |
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** Presents >100 days after transplant, usually with concomitant pulmonary disease |
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** Presents with focal neuro signs, altered mental status, and headaches |
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* Osteomyelitis |
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** Vertebral osteomyelitis may result from extension of empyema, but is also the most common site of hematogenous dissemination |
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* Skin and soft tissue infection |
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** Either from hematogenous spread or local invasion |
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** Often around IVs or adhesive dressings |
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** Neutropenic patients as well as burns and surgical sites |
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*Usually after 10 to 12 days of severe [[neutropenia]] |
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=== Specific risk groups === |
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*Non-productive [[Causes::cough]], [[Causes::dyspnea]], [[Causes::pleuritic chest pain]], and [[Causes::fever]] with pulmonary infiltrates despite broad-spectrum antibiotics |
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**Symptoms may be less prominent in patients with defective immunity |
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**Fever dampened by high dose steroids |
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*Also [[Causes::hemoptysis]], [[Causes::pleural effusion]], and [[Causes::pneumothorax]] |
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**Can mimic a pulmonary embolism |
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*Imaging may show multiple dense nodular pulmonary infiltrates without air bronchograms, suggesting extensive infection |
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**Classic, though, is pleural-based wedge-shaped densities or cavitary lesions |
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**[[Pleural effusion|Pleural effusions]] are common |
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**A nodular lesion wth a halo is suggestive of early aspergillosis, followed by cavitation in later disease |
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====Other Sites of Invasive Respiratory Aspergillosis==== |
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* For CGD and AML induction and SOT, it tends to be isolated pulmonary aspergillosis |
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* In SCT with GVHD, you tend to see more CNS aspergillosis and disseminated aspergillosis |
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*Ulcerative tracheobronchitis, a high concern in lung transplant |
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== Diagnosis == |
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**May mimic graft rejection |
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*Invasive [[rhinosinusitis]], with mortality of 10-20% |
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*Hematogenous dissemination to any organ, associated with 90% mortality |
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====Other Sites of Invasive Aspergillosis==== |
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* '''Culture''' positive for ''Aspergillus'' and histology with invasive hyphae |
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** Only 10-30% of patients with IA have a positive BAL culture, improved with use of fungal media |
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* '''Serology''' |
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** Antibodies is unhelpful, given that the mold is ubiquitous |
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** '''Galactomannan''' by EIA |
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*** Best-studied and most sensitive in HSCT patients |
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*** It is a meleased from the fungal cell wall on growth |
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*** Cutoff of 0.5 is good, 80% Sn and Sp (up to 90% in HSCT patients' serum) |
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*** BAL is more sensitive, but prophylaxis decreases sensitivity |
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*** Can be done from CSF |
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*** False-positives may occur with pip/tazo and other beta-lactams (though mostly of historical interest now) |
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** '''1,3-beta-D-glucan''' (BDG): can detect ''Candida'' and ''Pneumocystis'' as well, so less specific. May be useful in combination with GM. |
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*** Utility in invasive fungal infections: from [https://doi.org/10.1371/journal.pone.0131602 a systematic review in 2015], it is about 80% sensitive and 85% specific for IFI. Identified ''Candida'' and ''Aspergillus''. In [https://doi.org/10.1016/j.jinf.2014.04.008 a retrospective review from 2014], it had similar specific and inferior sensitivity compared to GM. |
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** Combination serologies: GM (BAL) Sn 43-56% and Sp 97%; BDG (blood) Sn 56-65% and Sp 97%; combination of ''either'' test positive Sn 78-92%% and Sp 93%, while PCR did not have any additional benefit ([https://doi.org/10.1016/j.cmi.2016.06.021 source]). |
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* '''Molecular testing''' |
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** '''Fungal PCR''' possible, but not routinely done; may not be helpful since the fungus is ubiquitous and wouldnβt differentiate invasive disease vs. colonization. |
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** '''Microarray DNA''': Microbiologic diagnostics are often combined with imaging to diagnose probable invasive fungal infection. |
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* '''Imaging''' can be helpful |
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** Halo sign on CT is present for about the first 7 days of disease in neutropenic patients |
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** Can also have nodules, pleural-based infarctions, or vacitation, as well as non-specific consolidation |
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*[[Cerebral aspergillosis]], which may explain half of all CNS lesions in HSCT |
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== Management == |
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**Presents >100 days after transplant, usually with concomitant pulmonary disease |
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**Presents with focal neurological signs, altered mental status, and headache |
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*[[Osteomyelitis]] |
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**Vertebral osteomyelitis may result from extension of empyema, but is also the most common site of hematogenous dissemination |
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*[[Skin and soft tissue infection]] |
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**Either from hematogenous spread or local invasion |
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**Often around IVs or adhesive dressings |
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**Neutropenic patients as well as burns and surgical sites |
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===Specific Risk Groups=== |
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=== Antifungal resistance === |
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*For [[CGD]], [[AML]] induction, and [[SOT]], it tends to be isolated pulmonary aspergillosis |
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* '''Broth microdilution''' is the main method for determining ''Aspergillus'' susceptibility recommended by CLSI and EUCAST. Microdilution results are affected by a number of factors (shape of the microdilution well, inoculum concentration, temperature and length of incubation time), so testing must be rigorously standardized. |
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*In [[HSCT]] with [[GVHD]], you tend to see more CNS aspergillosis and disseminated aspergillosis |
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* '''Antifungal mechanisms''' |
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** '''Polyenes''' (amphotericin): binds ergosterol to create pores within the cell membrane. |
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==Diagnosis== |
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** '''Triazoles''' (except fluconazole): inhibit sterol synthesis of ergosterol by disrupting 14-alpha demethylase. The mechanisms of resistance are myriad: modification of target enzymes, an increased expression of drug efflux mechanisms, an overexpression of target enzymes, an incorporation of exogenous cholesterol, an overexpression of HSP90 and of a sterole-regulatory element binding protein. |
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** '''Echinocandins''' (the fungins): disrupt synthesis of beta-glucan in the cell wall by inhibiting 1,3-beta glucan synthase. |
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*'''Culture''' positive for ''Aspergillus'' and histology with invasive hyphae |
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* '''Resistance patterns''' |
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**Only 10-30% of patients with IA have a positive BAL culture, improved with use of fungal media |
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** All species are resistant to fluconazole. Historically, amphotericin has been the most reliable anti-''Aspergillus'' antifungal; now, voriconazole is the standard. |
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*'''Serology''' |
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** Resistance to amphotericin is seen in ''A. terreus'', ''A. flavus'', and other less common species. |
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**Antibodies is unhelpful, given that the mold is ubiquitous |
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** ''A. niger'' has variable susceptibility to azoles. There is increasing ''A. fumigatus'' resistance to azoles, with reports being most common from Europe. ''A. calidoustus'' (within ''A. ustus'' complex) is a growing cause, with late presentation, intrinsic antifungal resistance, and high mortality. |
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**'''Galactomannan''' by EIA |
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***Best-studied and most sensitive in HSCT patients |
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***It is a released from the fungal cell wall on growth |
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***Cutoff of 0.5 is good, 80% Sn and Sp (up to 90% in HSCT patients' serum) |
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***BAL is more sensitive, but prophylaxis decreases sensitivity |
|||
***Can be done from CSF |
|||
***False-positives may occur with pip/tazo and other beta-lactams (though mostly of historical interest now) |
|||
**'''1,3-beta-D-glucan''' (BDG): can detect ''Candida'' and ''Pneumocystis'' as well, so less specific. May be useful in combination with GM. |
|||
***Utility in invasive fungal infections: from [https://doi.org/10.1371/journal.pone.0131602 a systematic review in 2015], it is about 80% sensitive and 85% specific for IFI. Identified ''Candida'' and ''Aspergillus''. In [https://doi.org/10.1016/j.jinf.2014.04.008 a retrospective review from 2014], it had similar specific and inferior sensitivity compared to GM. |
|||
**Combination serologies: GM (BAL) Sn 43-56% and Sp 97%; BDG (blood) Sn 56-65% and Sp 97%; combination of ''either'' test positive Sn 78-92%% and Sp 93%, while PCR did not have any additional benefit ([https://doi.org/10.1016/j.cmi.2016.06.021 source]). |
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*'''Molecular testing''' |
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**'''Fungal PCR''' possible, but not routinely done; may not be helpful since the fungus is ubiquitous and wouldnβt differentiate invasive disease vs. colonization. |
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**'''Microarray DNA''': Microbiologic diagnostics are often combined with imaging to diagnose probable invasive fungal infection. |
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*'''Imaging''' can be helpful |
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**Halo sign on CT is present for about the first 7 days of disease in neutropenic patients |
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**Can also have nodules, pleural-based infarctions, or vacitation, as well as non-specific consolidation |
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**See review [[CiteRef::franquet2001sp]] |
|||
==Management== |
|||
===Antifungal Resistance=== |
|||
*'''Broth microdilution''' is the main method for determining ''Aspergillus'' susceptibility recommended by CLSI and EUCAST. Microdilution results are affected by a number of factors (shape of the microdilution well, inoculum concentration, temperature and length of incubation time), so testing must be rigorously standardized. |
|||
*'''Antifungal mechanisms''' |
|||
**'''Polyenes''' ([[amphotericin]]): binds ergosterol to create pores within the cell membrane. |
|||
**'''Triazoles''' (except [[fluconazole]]): inhibit sterol synthesis of ergosterol by disrupting 14-alpha demethylase. The mechanisms of resistance are myriad: modification of target enzymes, an increased expression of drug efflux mechanisms, an overexpression of target enzymes, an incorporation of exogenous cholesterol, an overexpression of HSP90 and of a sterole-regulatory element binding protein. |
|||
**'''Echinocandins''' (the fungins): disrupt synthesis of beta-glucan in the cell wall by inhibiting 1,3-beta glucan synthase. |
|||
*'''Resistance patterns''' |
|||
**All species are resistant to [[fluconazole]]. Historically, [[amphotericin]] has been the most reliable anti-''Aspergillus'' antifungal; now, [[voriconazole]] is the standard. |
|||
**Resistance to [[amphotericin]] is seen in ''A. terreus'', ''A. flavus'', and other less common species. |
|||
**''A. niger'' has variable susceptibility to azoles. There is increasing ''A. fumigatus'' resistance to azoles, with reports being most common from Europe. ''A. calidoustus'' (within ''A. ustus'' complex) is a growing cause, with late presentation, intrinsic antifungal resistance, and high mortality. |
|||
{| class="wikitable" |
{| class="wikitable" |
||
! |
!Organism |
||
! |
!AmB |
||
! |
!Fluc |
||
! |
!Itra |
||
! |
!Vori |
||
! |
!Posa |
||
! |
!Anidula |
||
! |
!Caspo |
||
! |
!Mica |
||
! |
!Flucyt |
||
|- |
|- |
||
| |
|''Aspergillus'' spp. |
||
| + |
| + |
||
| |
|β |
||
| + |
| + |
||
| + |
| + |
||
Line 267: | Line 275: | ||
| + |
| + |
||
| + |
| + |
||
| |
|β |
||
|- |
|- |
||
| |
|''βA. flavus'' |
||
| |
|Β± |
||
| |
|β |
||
| + |
| + |
||
| + |
| + |
||
Line 278: | Line 286: | ||
| + |
| + |
||
| + |
| + |
||
| |
|β |
||
|- |
|- |
||
| |
|''βA. fumigatus'' |
||
| + |
| + |
||
| |
|β |
||
| + |
| + |
||
| + |
| + |
||
Line 289: | Line 297: | ||
| + |
| + |
||
| + |
| + |
||
| |
|β |
||
|- |
|- |
||
| |
|''βA. terreus'' |
||
| |
|β |
||
| |
|β |
||
| + |
| + |
||
| + |
| + |
||
Line 300: | Line 308: | ||
| + |
| + |
||
| + |
| + |
||
| |
|β |
||
|- |
|- |
||
| |
|''βA. niger'' |
||
| + |
| + |
||
| |
|β |
||
| |
|Β± |
||
| + |
| + |
||
| + |
| + |
||
Line 311: | Line 319: | ||
| + |
| + |
||
| + |
| + |
||
| |
|β |
||
|} |
|} |
||
=== |
===Aspergilloma=== |
||
* |
*If asymptomatic and single aspergilloma, monitor |
||
* |
*If symptoms, especially hemoptysis, surgical resection (if possible) |
||
* |
*No role for antifungals |
||
=== |
===Allergic Bronchopulmonary Aspergillosis (ABPA)=== |
||
*Not always treated with antifungals |
|||
* Indications for treatment |
|||
*See [[Allergic bronchopulmonary aspergillosis#Management|Allergic bronchopulmonary aspergillosis]] |
|||
** Diagnose with ''Aspergillus''-IgE |
|||
** If ongoing symptoms despite appropriate management of asthma (including oral steroids), treat with itraconazole |
|||
** If CF patient has frequent exacerbations or falling FEV1, treat with itraconazole |
|||
* Itraconazole 200 mg/day for 16 weeks, which decreases steroid use and increases patient function |
|||
=== |
===Allergic Fungal Rhinosinusitis=== |
||
* |
*Polypectomy and sinus washout |
||
* |
*Topical nasal steroids |
||
* |
*Oral antifungal therapy can be tried if above does not work, but rarely effective |
||
=== |
===Chronic Cavitary Pulmonary Aspergillosis (CCPA)=== |
||
* |
*If asymptomatic, monitor every 3-6 months, with investigations every 3-12 months including |
||
** |
**Low-dose CT chest or CXR |
||
** |
**ESR/CRP |
||
** |
**''Aspergillus'' IgG titres |
||
** |
**Annual PFTs |
||
* |
*If pulmonary symptoms, constitutional symptoms, or worsening lung function, treat with 6+ months of antifungal therapy |
||
** |
**[[Itraconazole]] or [[voriconazole]] |
||
** |
**If this fails, try IV [[micafungin]], [[caspofungin]], or [[amphotericin B]] |
||
**An RCT of [[itraconazole]] found that the relapse rate was significantly lower with 12 months of therapy compared to 6 months[[CiteRef::sehgal2022ef]] |
|||
* If hemoptysis, treat with tranexamic acid, pulmonary artery embolization, or antifungal therapy |
|||
*If [[hemoptysis]], treat with [[tranexamic acid]], pulmonary artery embolization, or antifungal therapy |
|||
* May need surgical resection if localized disease refractory to medical management |
|||
*May need surgical resection if localized disease refractory to medical management |
|||
=== |
===Invasive Aspergillosis=== |
||
* |
*[[Voriconazole]] 6 mg/kg IV q12h x2 then 4 mg/kg IV q12h, or 200 mg po q12h |
||
** |
**Alternative: [[liposomal amphotericin B]] 3 mg/kg/day |
||
** |
**Salvage: echinocandins ([[caspofungin]], or other) |
||
** |
**If hepatotoxicity with [[voriconazole]], switch to [[posaconazole]] |
||
** |
**[[Voriconazole]] is superior to [[amphotericin]] for mortality |
||
** |
**Combination [[voriconazole]] plus [[anidulafungin]] is no better than [[voriconazole]] except in post-hoc analysis of possible early treatment |
||
**[[Isuvaconazole]] may be superior to [[voriconazole]] |
|||
** In the future, watch out for isuvaconazoleβmay be superior to vori |
|||
* |
*Duration 6-12 weeks depending on immunosuppression |
||
* |
*Follow-up CT after a minimum of 2 weeks, or earlier if deterioration |
||
*Non-pharmacologic management for neutropenic patients includes: |
|||
**Reducing or eliminating immunosuppression |
|||
**Granulocyte colony-stimulating factor |
|||
**Granulocyte transfusions |
|||
===Breakthrough Infection=== |
|||
*Base empiric treatment on local epidemiology |
|||
*Probably fewer breakthroughs in HSCT patients with posaconazole prophylaxis |
|||
=== Therapeutic Drug Monitoring === |
|||
{| class="wikitable" |
|||
!Antifungal |
|||
!When to Measure Trough Level |
|||
!Target for Treatment |
|||
!Target for Prophylaxis |
|||
!Target for Safety |
|||
|- |
|||
|[[Itraconazole]] |
|||
|day 5 of therapy |
|||
|1-4 mg/L by HPLC |
|||
3-17 mg/L by bioassay |
|||
|0.5-4 mg/L by HPLC |
|||
3-17 mg/L by bioassay |
|||
|β€~4 mg/L by HPLC |
|||
β€17.1 mg/L by bioassay |
|||
|- |
|||
|[[Voriconazole]] |
|||
|after 2 to 5 days of therapy, and 4 days after any change |
|||
|1-5.5 mg/L |
|||
|1-5.5 mg/L |
|||
| |
|||
|- |
|||
|[[Posaconazole]] |
|||
|day 5 of therapy |
|||
|>1 mg/L |
|||
|>0.7 mg/L |
|||
|β€3.75 mg/L |
|||
|- |
|||
|[[Isavuconazole]] |
|||
|day 5 of therapy, but not clearly needed |
|||
| |
|||
| |
|||
| |
|||
|} |
|||
===Failure=== |
|||
=== Breakthrough infection === |
|||
*Technically should be assessed at 6 weeks (2 weeks at a minimum, based on pharmacokinetics) |
|||
* Base empiric treatment on local epidemiology |
|||
* Probably fewer breakthroughs in HSCT patients with posaconazole prophylaxis |
|||
== |
==Prevention== |
||
*For high-risk patients in hospital (e.g. HSCT), use air filters, frequent air exchanges, and positive-pressure ventilation |
|||
* Technically should be assessed at 6 weeks (2 weeks at a minimum, based on pharmacokinetics) |
|||
===Antifungal Prophylaxis=== |
|||
== Prevention == |
|||
*Posaconazole prophylaxis is first to demonstrate survival benefit for AML/induction patients |
|||
* For high-risk patients in hospital (e.g. HSCT), use air filters, frequent air exchanges, and positive-pressure ventilation |
|||
*'''AML induction''': [[posaconazole]], [[voriconazole]], or [[micafungin]] |
|||
**[[Caspofungin]] probably also effective |
|||
**[[Itraconazole]] also effective but poorly tolerated |
|||
*'''HSCT with moderate to severe GVHD:''' [[posaconazole]] ([[voriconazole]] is alternative) |
|||
**Reduces invasive fungal infections, but no mortality benefit |
|||
*'''Immunosuppression for GVHD:''' prophylaxis for duration of immunosuppression ([[steroids]] >1mg/kg/d for >2 weeks, or lymphocyte-depleting agents, or [[TNF-Ξ± inhibitors]]) |
|||
*'''Lung transplant:''' [[voriconazole]], [[itraconazole]], or inhaled [[amphotericin B]] for 3 to 4 months after transplant, and when receiving [[thymoglobulin]], [[alemtuzumab]], or high-dose [[steroids]] |
|||
*'''Other solid organ transplant:''' decision based on per-patient risk factors |
|||
*'''Prior IA requiring new immunosuppression:''' may also benefit from prophylaxis |
|||
*'''[[Chronic granulomatous disease]]''': [[itraconazole]] and [[interferon-Ξ³]] |
|||
==Further Reading== |
|||
=== Antifungal prophylaxis === |
|||
*Practice Guidelines for the Diagnosis and Management of Aspergillosis: 2016 Update by the IDSA. ''Clin Infect Dis''. 2016;63(4):e1-e60. doi: [https://doi.org/10.1093/cid/ciw326 10.1093/cid/ciw326] |
|||
* Posaconazole prophylaxis is first to demonstrate survival benefit for AML/induction patients |
|||
*Diagnosis and management of Aspergillus diseases: executive summary of the 2017 ESCMID-ECMM-ERS guideline. ''Clin Microbiol Infect''. 2018. doi: [https://doi.org/10.1016/j.cmi.2018.01.002 10.1016/j.cmi.2018.01.002] |
|||
* '''AML induction''': posaconazole, voriconazole, or micafungin |
|||
** Caspofungin probably also effective |
|||
** Itraconazole also effective but poorly tolerated |
|||
* '''HSCT with moderate to severe GVHD:''' posaconazole (voriconazole is alternative) |
|||
** Reduces invasive fungal infections, but no mortality benefit |
|||
* '''Immunosuppression for GVHD:''' prophylaxis for duration of immunosuppression (steroids >1mg/kg/d for >2 weeks, or lymphocyte-depleting agents, or TNF-alpha inhibition) |
|||
* '''Lung transplant:''' vori/itra/inhaled amphoB for 3 to 4 months after transplant, and when receiving thymoglobulin, alemtuzumab, or high-dose steroids |
|||
* '''Other solid-organ transplant:''' decision based on per-patient risk factors |
|||
* '''Prior IA requiring new immunosuppression:''' may also benefit from prophylaxis |
|||
{{DISPLAYTITLE:''Aspergillus'' |
{{DISPLAYTITLE:''Aspergillus''}} |
||
[[Category:Hyaline molds]] |
[[Category:Hyaline molds]] |
Latest revision as of 11:18, 20 March 2024
Background
Microbiology
- Aspergillus is a mold with hyaline (lightly-pigmented) hyphae, septated, and usually branched at acute angle (45ΒΊ)
- Named for the appearance of the sporulating head, which looks like an aspergillum used to sprinkle holy water (in 1729)
- Most species reproduce asexually, although A. fumigatus and a few others have teleomorphs (sexual form with fruiting body)
- Culture is important, but molecular methods are often required to identify the particular species
- Pathogenic species grow quickly on common media
- Can grow at 37ΒΊ C, and A. fumigatus can grow up to 50ΒΊ C
- Organized into complexes, which cannot be differentiated phenotypically, but rather need molecular methods
- Fumigatus: A. fumigatus, A. lentulus, A. udagawae
- Ustus: A. calidoustus (often resistant to ampho B)
- Niger: A. tubingensis and A. niger
- Versicolor: A. versicolor and A. sydowii
Species | Colonies | Conidiophore | Phialides | Other |
---|---|---|---|---|
A. flavus | Yellow green, yellow, brownish | Rough colourless | Uniseriate and biseriate | Sclerotia sometimes present |
A. fumigatus complex | Grey-green, blue green, yellowish | Smooth, colourless or greenish | Uniseriate | Good growth at 48ΒΊC |
A. glaucus | Green and yellow, yellowish, brown | Smooth, colourless | Uniseriate | Yellow to orange cleistothecia present |
A. nidulans | Green buff, purplish red, olive | Smooth, brown | Biseriate | Round hΓΌlle cells and cleistothecia with purple ascospores usually present |
A. niger | Black, white, yellowish | Smooth, colourless or brown | Biseriate | |
A. terreus | Brown cinnamon, yellowish brown | Smooth, colourless | Biseriate | Round, solitary aleurioconidia produced directly on hyphae |
A. ustus | Light brown, grayish brown, yellowish brown | Smooth, brown | Biseriate | Long, brown-walled conidiophores, small vesicles, rough-walled conidia |
A. versicolor | White, buff, yellow, pink, pale green, white, yellow, purplish red | Smooth, colourless | Biseriate | Round hΓΌlle cells sometimes present |
- Of note, A. ustus complex (A. caladustus) are resistant to azoles and echinocandins, and variable resistance to amphotericin (but susceptible to terbinafine)
Epidemiology
- Ubiquitous worldwide, found in soil, water, food, air, and decaying vegetation
- There is increasing antifungal resistance worldwide
- Outbreaks can occur with construction
- May also be possible to have activation of latent infecton or colonization, making infection control more difficult
High-Risk Populations
- The major risk factor is defective function or decreased number of neutrophils
- Highest risk, in order, are: CGD, allogeneic hematopoietic stem cell transplantation with GVHD, AML with induction or (worse) reinduction, everyone else
- Hematopoitic stem cell transplantion is high risk (7% allo, 1% auto)
- Peaks <40 days and >100 days
- With or without neutropenia, most likely related to steroid use
- Hematologic malignancies
- Usually following induction chemotherapy, or refractory or recurrenct disease (50% mortality)
- 3+7 AML induction usually 14-21 days of neutropenia
- Solid organ transplantation
- Highest among lung transplantation recipients (6%) due to ongoing environmental exposure, decreased ciliary clearance, and common concomitant Aspergillus colonization
- Followed by small bowel, liver (4%), heart (2%), and kidney (0.5%)
- Usually diagnosed at 6 to 12 months (half within the first 3 months)
- Therapeutic immunosuppression, including prednisone and TNF-Ξ± inhibitors
- GVHD increases the risk, due to the additional immune suppression
- Highest risk within GVHD is with gut involvement
- Solid maligancies are relatively low risk due to the short courses of neutropenia, but increasing risk with newer chemotherapies
Other Risk Factors
- HIV (2.2 per 10,000/year), associated with low CD4 counts, neutropenia, cirrhosis, liver transplantation, and glucocorticoid therapy
- Liver cirrhosis (0.3%)
- Immunocompetent patients in critical condition from ARDS, COPD, influenza, pneumonia, burns, severe bacterial sepsis, surgery, or malnutrition
- Glucocorticoid therapy is most common risk factor in these patients
Pathophysiology
- Initially acquired by inhalation of conidia into lungs or sinuses, or rarely from local tissue invasion
- The conidia grow and germinate, transforming into hyphae and invading the vasculature
- Hydrocortisone appears to be a growth factor for Aspergillus
- Vascular invasion is typical of invasive aspergillosis
- May cause pulmonary infarction
- This can be followed by hematogenous dissemination
- The host immune response begins with ciliary clearance to prevent the conidia from reaching the alveoli
- Once in the alveoli, the response depends on pulmonary macrophages to phagocytose the conidia
- Following germination and growth of hyphae, PMNs act to kill hyphae and swollen conidia
- This is helped by opsonization of conidia by complement
- Antibodies are common, given the mold's ubiquity, but not protective
- A. fumigatus has small conidia, allowing it to reach the alveoli more easily, and also produces a complement inhibitor
Clinical Manifestations
Colonization and Superficial Infections
Aspergilloma (Fungal Ball)
- Ball of hyphae growing in a preexisting cavity, often in bullous emphysema, sarcoidosis, tuberculosis, histoplasmosis, congenital cysts, bacterial lung abscesses, or Pneumocystis bleb
- Often asymptomatic, but the most common symptom is hemoptysis, which can be fatal
- Can also occur in the sinuses
Other Superficial Infections
- Otomycosis: chronic otitis externa caused by A. niger or A. fumigatus
- Onychomycosis
- Keratitis
Allergic Syndromes
Allergic Bronchopulmonary Aspergillosis (ABPA)
- Allergic reaction to airway colonization, usually in patients with asthma or cystic fibrosis
- Characterized by poorly-controlled asthma or pneumonia, mucoid impaction, persistent eosinophilia
- See also Allergic bronchopulmonary aspergillosis
Allergic Fungal Sinusitis
- Can be Aspergillus or other molds
- Management is mostly surgical
Chronic Pulmonary Aspergillosis (CPA)
- Inclues chronic cavitary pulmonary aspergillosis (CCPA), chronic necrotising pulmonary aspergillosis (CNPA), and chronic fibrosing aspergillosis
Chronic Cavitary Pulmonary Aspergillosis (CCPA)
- One or more cavities that can contain solid or liquid material or a fungal ball, usually following creation of multiple cavities from another process
- May present with pulmonary or constitutional symptoms, including hemoptysis, dyspnea, and productive cough
- Weight loss and fatigue are common and profound, while fevers are less common
- May mimic TB
- Diagnosis requires:
- 3 months of symptoms or chronic illness or progressive radiological abnormalities with cavitation, pleural thickening, perivacitary infiltrates +/- fungal ball
- Aspergillus IgG antibodies
- No or minimal immunocompromise
- Must rule out other causes of symptoms, including other causes of weight loss
Chronic Necrotising Pulmonary Aspergillosis (CNPA)
Chronic Fibrosing Aspergillosis (CFA)
Invasive Aspergillosis
- aka. angioinvasive, invading the vasculature
Subacute Invasive Aspergillosis
- Previously called chronic necrotizing pulmonary aspergillosis
- Occurs in mildly immunocompromised or very debilitated patients
- Risk factors include diabetes mellitus, malnutrition, alcoholism, advanced age, prolonged corticosteroids or other immunosuppressive agents, chronic obstructive lung disease, connective tissue disorders, radiation therapy, non-tuberculous mycobacterial infection, or HIV infection
- Similar clinical and radiological findings as chronic cavitary pulmonary aspergillosis, but progresses more rapidly into frank invasive pulmonary aspergillosis
Invasive Pulmonary Aspergillosis
- Usually after 10 to 12 days of severe neutropenia
- Non-productive cough, dyspnea, pleuritic chest pain, and fever with pulmonary infiltrates despite broad-spectrum antibiotics
- Symptoms may be less prominent in patients with defective immunity
- Fever dampened by high dose steroids
- Also hemoptysis, pleural effusion, and pneumothorax
- Can mimic a pulmonary embolism
- Imaging may show multiple dense nodular pulmonary infiltrates without air bronchograms, suggesting extensive infection
- Classic, though, is pleural-based wedge-shaped densities or cavitary lesions
- Pleural effusions are common
- A nodular lesion wth a halo is suggestive of early aspergillosis, followed by cavitation in later disease
Other Sites of Invasive Respiratory Aspergillosis
- Ulcerative tracheobronchitis, a high concern in lung transplant
- May mimic graft rejection
- Invasive rhinosinusitis, with mortality of 10-20%
- Hematogenous dissemination to any organ, associated with 90% mortality
Other Sites of Invasive Aspergillosis
- Cerebral aspergillosis, which may explain half of all CNS lesions in HSCT
- Presents >100 days after transplant, usually with concomitant pulmonary disease
- Presents with focal neurological signs, altered mental status, and headache
- Osteomyelitis
- Vertebral osteomyelitis may result from extension of empyema, but is also the most common site of hematogenous dissemination
- Skin and soft tissue infection
- Either from hematogenous spread or local invasion
- Often around IVs or adhesive dressings
- Neutropenic patients as well as burns and surgical sites
Specific Risk Groups
- For CGD, AML induction, and SOT, it tends to be isolated pulmonary aspergillosis
- In HSCT with GVHD, you tend to see more CNS aspergillosis and disseminated aspergillosis
Diagnosis
- Culture positive for Aspergillus and histology with invasive hyphae
- Only 10-30% of patients with IA have a positive BAL culture, improved with use of fungal media
- Serology
- Antibodies is unhelpful, given that the mold is ubiquitous
- Galactomannan by EIA
- Best-studied and most sensitive in HSCT patients
- It is a released from the fungal cell wall on growth
- Cutoff of 0.5 is good, 80% Sn and Sp (up to 90% in HSCT patients' serum)
- BAL is more sensitive, but prophylaxis decreases sensitivity
- Can be done from CSF
- False-positives may occur with pip/tazo and other beta-lactams (though mostly of historical interest now)
- 1,3-beta-D-glucan (BDG): can detect Candida and Pneumocystis as well, so less specific. May be useful in combination with GM.
- Utility in invasive fungal infections: from a systematic review in 2015, it is about 80% sensitive and 85% specific for IFI. Identified Candida and Aspergillus. In a retrospective review from 2014, it had similar specific and inferior sensitivity compared to GM.
- Combination serologies: GM (BAL) Sn 43-56% and Sp 97%; BDG (blood) Sn 56-65% and Sp 97%; combination of either test positive Sn 78-92%% and Sp 93%, while PCR did not have any additional benefit (source).
- Molecular testing
- Fungal PCR possible, but not routinely done; may not be helpful since the fungus is ubiquitous and wouldnβt differentiate invasive disease vs. colonization.
- Microarray DNA: Microbiologic diagnostics are often combined with imaging to diagnose probable invasive fungal infection.
- Imaging can be helpful
- Halo sign on CT is present for about the first 7 days of disease in neutropenic patients
- Can also have nodules, pleural-based infarctions, or vacitation, as well as non-specific consolidation
- See review 1
Management
Antifungal Resistance
- Broth microdilution is the main method for determining Aspergillus susceptibility recommended by CLSI and EUCAST. Microdilution results are affected by a number of factors (shape of the microdilution well, inoculum concentration, temperature and length of incubation time), so testing must be rigorously standardized.
- Antifungal mechanisms
- Polyenes (amphotericin): binds ergosterol to create pores within the cell membrane.
- Triazoles (except fluconazole): inhibit sterol synthesis of ergosterol by disrupting 14-alpha demethylase. The mechanisms of resistance are myriad: modification of target enzymes, an increased expression of drug efflux mechanisms, an overexpression of target enzymes, an incorporation of exogenous cholesterol, an overexpression of HSP90 and of a sterole-regulatory element binding protein.
- Echinocandins (the fungins): disrupt synthesis of beta-glucan in the cell wall by inhibiting 1,3-beta glucan synthase.
- Resistance patterns
- All species are resistant to fluconazole. Historically, amphotericin has been the most reliable anti-Aspergillus antifungal; now, voriconazole is the standard.
- Resistance to amphotericin is seen in A. terreus, A. flavus, and other less common species.
- A. niger has variable susceptibility to azoles. There is increasing A. fumigatus resistance to azoles, with reports being most common from Europe. A. calidoustus (within A. ustus complex) is a growing cause, with late presentation, intrinsic antifungal resistance, and high mortality.
Organism | AmB | Fluc | Itra | Vori | Posa | Anidula | Caspo | Mica | Flucyt |
---|---|---|---|---|---|---|---|---|---|
Aspergillus spp. | + | β | + | + | + | + | + | + | β |
βA. flavus | Β± | β | + | + | + | + | + | + | β |
βA. fumigatus | + | β | + | + | + | + | + | + | β |
βA. terreus | β | β | + | + | + | + | + | + | β |
βA. niger | + | β | Β± | + | + | + | + | + | β |
Aspergilloma
- If asymptomatic and single aspergilloma, monitor
- If symptoms, especially hemoptysis, surgical resection (if possible)
- No role for antifungals
Allergic Bronchopulmonary Aspergillosis (ABPA)
- Not always treated with antifungals
- See Allergic bronchopulmonary aspergillosis
Allergic Fungal Rhinosinusitis
- Polypectomy and sinus washout
- Topical nasal steroids
- Oral antifungal therapy can be tried if above does not work, but rarely effective
Chronic Cavitary Pulmonary Aspergillosis (CCPA)
- If asymptomatic, monitor every 3-6 months, with investigations every 3-12 months including
- Low-dose CT chest or CXR
- ESR/CRP
- Aspergillus IgG titres
- Annual PFTs
- If pulmonary symptoms, constitutional symptoms, or worsening lung function, treat with 6+ months of antifungal therapy
- Itraconazole or voriconazole
- If this fails, try IV micafungin, caspofungin, or amphotericin B
- An RCT of itraconazole found that the relapse rate was significantly lower with 12 months of therapy compared to 6 months2
- If hemoptysis, treat with tranexamic acid, pulmonary artery embolization, or antifungal therapy
- May need surgical resection if localized disease refractory to medical management
Invasive Aspergillosis
- Voriconazole 6 mg/kg IV q12h x2 then 4 mg/kg IV q12h, or 200 mg po q12h
- Alternative: liposomal amphotericin B 3 mg/kg/day
- Salvage: echinocandins (caspofungin, or other)
- If hepatotoxicity with voriconazole, switch to posaconazole
- Voriconazole is superior to amphotericin for mortality
- Combination voriconazole plus anidulafungin is no better than voriconazole except in post-hoc analysis of possible early treatment
- Isuvaconazole may be superior to voriconazole
- Duration 6-12 weeks depending on immunosuppression
- Follow-up CT after a minimum of 2 weeks, or earlier if deterioration
- Non-pharmacologic management for neutropenic patients includes:
- Reducing or eliminating immunosuppression
- Granulocyte colony-stimulating factor
- Granulocyte transfusions
Breakthrough Infection
- Base empiric treatment on local epidemiology
- Probably fewer breakthroughs in HSCT patients with posaconazole prophylaxis
Therapeutic Drug Monitoring
Antifungal | When to Measure Trough Level | Target for Treatment | Target for Prophylaxis | Target for Safety |
---|---|---|---|---|
Itraconazole | day 5 of therapy | 1-4 mg/L by HPLC
3-17 mg/L by bioassay |
0.5-4 mg/L by HPLC
3-17 mg/L by bioassay |
β€~4 mg/L by HPLC
β€17.1 mg/L by bioassay |
Voriconazole | after 2 to 5 days of therapy, and 4 days after any change | 1-5.5 mg/L | 1-5.5 mg/L | |
Posaconazole | day 5 of therapy | >1 mg/L | >0.7 mg/L | β€3.75 mg/L |
Isavuconazole | day 5 of therapy, but not clearly needed |
Failure
- Technically should be assessed at 6 weeks (2 weeks at a minimum, based on pharmacokinetics)
Prevention
- For high-risk patients in hospital (e.g. HSCT), use air filters, frequent air exchanges, and positive-pressure ventilation
Antifungal Prophylaxis
- Posaconazole prophylaxis is first to demonstrate survival benefit for AML/induction patients
- AML induction: posaconazole, voriconazole, or micafungin
- Caspofungin probably also effective
- Itraconazole also effective but poorly tolerated
- HSCT with moderate to severe GVHD: posaconazole (voriconazole is alternative)
- Reduces invasive fungal infections, but no mortality benefit
- Immunosuppression for GVHD: prophylaxis for duration of immunosuppression (steroids >1mg/kg/d for >2 weeks, or lymphocyte-depleting agents, or TNF-Ξ± inhibitors)
- Lung transplant: voriconazole, itraconazole, or inhaled amphotericin B for 3 to 4 months after transplant, and when receiving thymoglobulin, alemtuzumab, or high-dose steroids
- Other solid organ transplant: decision based on per-patient risk factors
- Prior IA requiring new immunosuppression: may also benefit from prophylaxis
- Chronic granulomatous disease: itraconazole and interferon-Ξ³
Further Reading
- Practice Guidelines for the Diagnosis and Management of Aspergillosis: 2016 Update by the IDSA. Clin Infect Dis. 2016;63(4):e1-e60. doi: 10.1093/cid/ciw326
- Diagnosis and management of Aspergillus diseases: executive summary of the 2017 ESCMID-ECMM-ERS guideline. Clin Microbiol Infect. 2018. doi: 10.1016/j.cmi.2018.01.002
References
- ^ Inderpaul S Sehgal, Sahajal Dhooria, Valliappan Muthu, Kuruswamy T Prasad, Ashutosh N Aggarwal, Arunaloke Chakrabarti, Hansraj Choudhary, Mandeep Garg, Ritesh Agarwal. Efficacy of 12-months oral itraconazole versus 6-months oral itraconazole to prevent relapses of chronic pulmonary aspergillosis: an open-label, randomised controlled trial in India. The Lancet Infectious Diseases. 2022. doi:10.1016/s1473-3099(22)00057-3.