Fungi may infect the cornea, orbit and other ocular structures. Species
of Fusarium, Aspergillus, Candida,
dematiaceous fungi, and Scedosporium predominate. Diagnosis is
aided by recognition of typical clinical features and by direct
microscopic detection of fungi in scrapes, biopsy specimens, and other
samples. Culture confirms the diagnosis. Histopathological,
immunohistochemical, or DNA-based tests may also be needed.
Pathogenesis involves agent (invasiveness, toxigenicity) and host
factors. Specific antifungal therapy is instituted as soon as the
diagnosis is made. Amphotericin B by various routes is the mainstay of
treatment for life-threatening and severe ophthalmic mycoses. Topical
natamycin is usually the first choice for filamentous fungal keratitis,
and topical amphotericin B is the first choice for yeast keratitis.
Increasingly, the triazoles itraconazole and fluconazole are being
evaluated as therapeutic options in ophthalmic mycoses. Medical therapy
alone does not usually suffice for invasive fungal orbital infections,
scleritis, and keratitis due to Fusarium spp.,
Lasiodiplodia theobromae, and Pythium insidiosum.
Surgical debridement is essential in orbital infections, while various
surgical procedures may be required for other infections not responding
to medical therapy. Corticosteroids are contraindicated in most
ophthalmic mycoses; therefore, other methods are being sought to
control inflammatory tissue damage. Fungal infections following
ophthalmic surgical procedures, in patients with AIDS, and due to use
of various ocular biomaterials are unique subsets of ophthalmic
mycoses. Future research needs to focus on the development of rapid,
species-specific diagnostic aids, broad-spectrum fungicidal compounds
that are active by various routes, and therapeutic modalities which
curtail the harmful effects of fungus- and host tissue-derived
factors
Mycotic keratitis (an infection of the cornea) is an important ocular infection, especially in young male outdoor workers. There are two frequent presentations: keratitis due to filamentous fungi (Fusarium, Aspergillus, phaeohyphomycetes and Scedosporium apiospermum are frequent causes) and keratitis due to yeast-like fungi (Candida albicans and other Candida species). In the former, trauma is usually the sole predisposing factor, although previous use of corticosteroids and contact lens wear are gaining importance as risk factors; in the latter, there is usually some systemic or local (ocular) defect. The clinical presentation and clinical features may suggest a diagnosis of mycotic keratitis; increasingly, in vivo (non-invasive) imaging techniques (confocal microscopy and anterior segment optical coherence tomography) are also being used for diagnosis. However, microbiological investigations, particularly direct microscopic examination and culture of corneal scrape or biopsy material, still form the cornerstone of diagnosis. In recent years, the PCR has gained prominence as a diagnostic aid for mycotic keratitis, being used to complement microbiological methods; more importantly, this molecular method permits rapid specific identification of the aetiological agent. Although various antifungal compounds have been used for therapy, management of this condition (particularly if deep lesions occur) continues to be problematic; topical natamycin and, increasingly, voriconazole (given by various routes) are key therapeutic agents. Therapeutic surgery, such as therapeutic penetrating keratoplasty, is needed when medical therapy fails. Increased awareness of the importance of this condition is likely to spur future research initiatives.
Background: A multicentre study was carried out in Ghana and southern India to determine the aetiology of suppurative keratitis in two regions located at similar tropical latitudes. Studies of fungal keratitis from the literature were reviewed. Methods: Patients presenting at rural and urban eye units with suspected microbial keratitis were recruited to the study. Corneal ulceration was defined as loss of corneal epithelium with clinical evidence of infection with or without hypopyon. Microscopy and culture were performed on all corneal specimens obtained. Results: 1090 patients were recruited with suspected microbial keratitis between June 1999 and May 2001. Overall the principal causative micro-organisms in both regions were filamentous fungi (42%): Fusarium species and Aspergillus species were the commonest fungal isolates. Pseudomonas species were most frequently isolated from cases of bacterial keratitis in Ghana but in India the commonest bacterial isolates were streptococci. Conclusion: Infections of the cornea due to filamentous fungi are a frequent cause of corneal damage in developing countries in the tropics and are difficult to treat. Microscopy is an essential tool in the diagnosis of these infections. A knowledge of the "local" aetiology within a region is of value in the management of suppurative keratitis in the event that microscopy cannot be performed.
Purpose To describe key aspects of fungal infections of the cornea, which constitute an important eye problem in outdoor workers in tropical and subtropical regions.
Aim: To assess whether the presence of characteristic clinical features can be used as a diagnostic aid for suppurative keratitis caused by filamentous fungi. Methods: Patients presenting with suppurative keratitis in India underwent detailed clinical examination followed by microbiological investigation of corneal scrapes. A partial diagnostic score based upon the strength of the association, as estimated by the odds ratio, between reported clinical features and laboratory confirmed diagnoses was devised and subsequently tested using a case series from Ghana. Results: Serrated margins, raised slough, dry texture, satellite lesions and coloration other than yellow occurred more frequently in cases of filamentous fungal keratitis than bacterial keratitis (p,0.05). Hypopyon and fibrinous exudate were observed more frequently in bacterial keratitis (p,0.05). When incorporated into a backwards stepwise logisitic regression model only serrated margins, raised slough, and colour were independently associated with fungal keratitis; these features were used in the scoring system. The probability of fungal infection if one clinical feature was present was 63%, increasing to 83% if all three features were present. Conclusions: Microbiological investigations should be performed whenever possible; however, where facilities are not available, a rapid presumptive diagnosis of suppurative keratitis may be possible by scoring clinical features.
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