Intraoperative Photoactivated Chromophore for Infectious Keratitis–Corneal Cross-Linking (PACK-CXL) During Penetrating Keratoplasty for the Management of Fungal Keratitis in an Immunocompromised Patient
To present a novel intraoperative application of photoactivated chromophore for infectious keratitis–corneal cross-linking (PACK-CXL) in the management of post-penetrating keratoplasty (PKP) multiresistant fungal keratitis in a patient with irradiation-related local immunosuppression.
A 62-year-old female underwent uneventful PKP for the management of post-irradiation actinic keratopathy. Three months postoperatively, she presented with a diffuse corneal melting abscess that was infiltrating the donor-recipient junction. Despite intensive antibiotic and antifungal therapy, corneal melting progressed to graft perforation. A repeat PKP combined with intraoperative PACK-CXL was performed. PACK-CXL was applied initially on the infected graft, involving the corneoscleral rim and then following placement of the donor button. No intra- or postoperative graft-related complications were encountered. No signs of infection were noted, and the graft remained clear during the 9-month follow-up period.
Intraoperative PACK-CXL combined with PKP appears to be a safe and effective technique for the management of post-PKP resistant fungal keratitis.
KeywordsCorneal cross-linking Fungal keratitis PACK-CXL Penetrating keratoplasty
Infectious keratitis constitutes a devastating complication of penetrating keratoplasty (PKP) with a reported incidence ranging from 1.76 to 4.9%. Fungal keratitis incidence has increased considerably from 9.8 to 66.7% of infectious keratitis following PKP, accounting for 4.3% of PKPs overall . Typically, post-PKP fungal keratitis is managed with intensive topical and systemic antifungal therapy including intrastromal or intracameral antifungal injections . Nevertheless, graft viability is often put at risk resulting in graft failure necessitating a repeat keratoplasty or even evisceration in the case of intractable intraocular spreading of the infection. Corneal cross-linking (CXL) has been recently introduced in the management of infectious keratitis with an increasing number of publications verifying its successful microbicidal properties [2, 3]. Nevertheless, studies on the efficacy of the photoactivated chromophore for infectious keratitis–corneal cross-linking (PACK-CXL) in the therapeutic profile of fungal corneal infections remain somewhat inconclusive [4, 5, 6, 7]. Herein, we present a novel intraoperative application of PACK-CXL in the management of post-PKP extensive resistant fungal keratitis in a patient with irradiation-induced local immunosuppression.
Written informed consent for the publication of this article was obtained from the patient prior to submission of the manuscript.
To the best of our knowledge, this is the first report of intraoperative PACK-CXL application combined with penetrating keratoplasty for the management of refractory fungal keratitis on a corneal graft specifically in a patient with irradiation-related local immunosuppression. Control of the infection was achieved without complications; graft viability was not jeopardized, and visual acuity improved to the level of pre-infection vision.
A growing body of evidence supports the role of CXL in the treatment of infectious keratitis [2, 3]. Its microbicidal properties make PACK-CXL a promising alternative to conventional antimicrobial therapy in the management of multi-drug-resistant corneal infections. Experimental and clinical studies have demonstrated the antimicrobial efficacy of CXL in vitro and in vivo in refractory infectious keratitis, with higher efficiency in the early period after diagnosis. It is worth noting that PACK-CXL can be employed as an adjunct treatment modality supplementary to antimicrobial medication  as well as first-line therapy . In addition to its pathogen-eradicating properties, the synergistic effect of UV-A light and riboflavin increases tissue resistance to enzymatic degradation, thus halting the corneal melting process. In the setting of penetrating keratoplasty, theoretically, it enhances graft-recipient adhesion, while diminishing the risk of graft rejection.
Nevertheless, evidence remains controversial regarding the antifungal effect of PACK-CXL. Kashiwabuchi et al.  reported no visible efficacy in their in vitro study. In contrast, Zhu et al.  showed a significant effect against Fusarium solani both in vitro and in vivo. Fungal infections typically present with deep invasion of the corneal stroma, usually disseminating to the anterior chamber, thus limiting the efficacy of PACK-CXL and risking endothelial cell damage with subsequent corneal edema. Uddaraju et al.  reported no efficacy of PACK-CXL as adjuvant to standard medical treatment in recalcitrant deep stromal fungal ulcers and risk of perforation. This observation was also supported by a more recent study from Kasetsuwan et al. . Therefore, the therapeutic effect of PACK-CXL appears greater in early fungal corneal infections before deeper progression occurs. In our case, cultures revealed the presence of Purpureocillium lilacinum (Paecilomyces sp.), a filamentous fungus that comprises an extremely rare cause of fungal keratitis . Moreover, due to the previous history of ocular irradiation, the eye of our case was immunocompromised, which could have contributed to the inadequate therapeutic response to the topical and systemic antifungal treatment employed.
The extensive stromal infection of the corneal graft and the subsequent significant corneal melting and graft perforation which occurred in our immunocompromised patient made a repeat PKP inevitable. Therapeutic keratoplasty aims to decrease the infection load and preserve globe integrity and may effectively treat infectious keratitis along with medical therapy . In our case, it was combined with PACK-CXL, which was performed with an irradiation zone adapted to cover the corneoscleral rim to eradicate any residual infection. It has been shown that application of CXL on the limbus does not affect the regenerative capacity of limbal epithelial cells . A previous report  has demonstrated the successful management of post-PKP resistant MRSA keratitis with PACK-CXL performed on the graft. Conversely to ours in that case, the abscess was limited to the 3–5 o’clock area and was not associated with corneal melting and graft failure. In a recent case report, Balparda et al.  proposed the application of PACK-CXL combined with PKP for the treatment of severe marginal Fusarium spp. keratitis on a virgin cornea. Due to the corneal perforation in that case, the authors performed PKP followed by decentered PACK-CXL on the graft to eradicate the residual peripheral fungal elements.
We report a case where intraoperative PACK-CXL application was combined successfully with penetrating keratoplasty in the management of refractory fungal keratitis in a patient with irradiation-related local immunosuppression. This approach led to elimination of the infection without complications and graft viability. Fungal infections after keratoplasty represent a significant challenge to the corneal surgeon. Our case highlights the fact that in these testing circumstances the application of PACK-CXL appears to be a safe and potentially effective approach.
No funding or sponsorship was received for this study or the publication of this article.
All named authors meet the International Committee of Medical Journal Editors (ICMJE) criteria for authorship for this article, take responsibility for the integrity of the work as a whole, and have given their approval for this version to be published.
Dimitrios G. Mikropoulos, George D. Kymionis, Nafsika Voulgari, Eirini Kaisari, Konstantinos A. Nikolakopoulos and Andreas Katsanos have nothing to disclose. Anastasios G. Konstas is a member of the journal’s Editorial Board.
Compliance with ethics guidelines
Written informed consent for the publication of this report was obtained from the patient.
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