ABSTRACT
Neurotrophic keratopathy is an uncommon degenerative corneal disorder characterized by compromised corneal sensory innervation resulting in the formation of epithelial defects and nonhealing corneal ulcers. Various treatment modalities are available to stabilize disease progression, improve patient well-being, and prevent vision loss. For eligible patients, medical and surgical reinnervation have emerged as pioneering therapies, holding promise for better management. We present a comprehensive review of the disorder, providing an update relevant to ophthalmologists on pathogenesis, diagnosis, treatment options, and novel therapies targeting pathophysiological pathways.
Subject(s)
Cornea , Humans , Cornea/innervation , Corneal Diseases/therapy , Corneal Diseases/diagnosis , Corneal Diseases/physiopathology , Corneal Diseases/etiologyABSTRACT
PURPOSE: To evaluate the efficacy of a prophylactic regimen of daily topical 0.5% moxifloxacin and 5% povidone-iodine (PI) in patients with Boston type I keratoprosthesis (KPro) and to assess the applicability of a novel molecular diagnostic technique to analyze the ocular surface microbiota in these patients. METHODS: Ten patients had their inferior conjunctival fornix sampled for standard culture methods before the addition of topical 5% PI to the prophylactic regimen and were considered the control group (group 1). The inferior conjunctival fornix and the KPro-donor cornea interface of 10 patients treated with the mentioned prophylactic regimen were sampled and analyzed by standard culture methods and using a polymerase chain reaction/electrospray ionization mass spectrometry assay (group 2). RESULTS: Samples from the inferior conjunctival fornix were positive for coagulase-negative staphylococcus in 3 patients and for Aerobasidium pullulans in 1 patient in group 1. The inferior conjunctival fornix and the KPro-donor cornea interface scrapings were positive for coagulase-negative staphylococcus in 2 patients and 1 patient, respectively, in group 2. No bacteria and fungi growth were detected in any patient from group 2 with the molecular diagnostic approach. None of the patients with culture-positive results developed keratitis or endophthalmitis during the study. CONCLUSIONS: Topical 0.5% moxifloxacin associated with topical 5% PI is an effective prophylactic regimen in patients with Boston type I KPro. The molecular diagnostic approach using serial polymerase chain reaction and mass spectrometry was comparable with standard microbiologic techniques as a surveillance tool in these patients.
Subject(s)
Aza Compounds/administration & dosage , Eye Infections, Bacterial/prevention & control , Gram-Positive Bacterial Infections/prevention & control , Povidone-Iodine/administration & dosage , Prostheses and Implants/adverse effects , Quinolines/administration & dosage , Adult , Anti-Bacterial Agents/administration & dosage , Anti-Infective Agents, Local/administration & dosage , Antibiotic Prophylaxis , Corneal Diseases/surgery , Drug Therapy, Combination , Endophthalmitis/prevention & control , Eye Infections, Bacterial/etiology , Eye Infections, Bacterial/microbiology , Female , Fluoroquinolones , Humans , Male , Molecular Diagnostic Techniques/methods , Moxifloxacin , Prospective Studies , Staphylococcus aureus/isolation & purificationABSTRACT
PURPOSE: To evaluate the transfer of heterologous genes carrying a Green Fluorescent Protein (GFP) reporter cassette to primary corneal epithelial cells ex vivo. METHODS: Freshly enucleated rabbit corneoscleral tissue was used to obtain corneal epithelial cell suspension via enzymatic digestion. Cells were plated at a density of 5×10³ cells/cm² and allowed to grow for 5 days (to 70-80 percent confluency) prior to transduction. Gene transfer was monitored using fluorescence microscopy and fluorescence activated cell sorter (FACS). We evaluated the transduction efficiency (TE) over time and the dose-response effect of different lentiviral particles. One set of cells were dual sorted by fluorescence activated cell sorter for green fluorescent protein expression as well as Hoechst dye exclusion to evaluate the transduction of potentially corneal epithelial stem cells (side-population phenotypic cells). RESULTS: Green fluorescent protein expressing lentiviral vectors were able to effectively transduce rabbit primary epithelial cells cultured ex vivo. Live cell imaging post-transduction demonstrated GFP-positive cells with normal epithelial cell morphology and growth. The transduction efficiency over time was higher at the 5th post-transduction day (14.1 percent) and tended to stabilize after the 8th day. The number of transduced cells was dose-dependent, and at the highest lentivirus concentrations approached 7 percent. When double sorted by fluorescence activated cell sorter to isolate both green fluorescent protein positive and side population cells, transduced side population cells were identified. CONCLUSIONS: Lentiviral vectors can effectively transfer heterologous genes to primary corneal epithelial cells expanded ex vivo. Genes were stably expressed over time, transferred in a dose-dependence fashion, and could be transferred to mature corneal cells as well as presumable putative stem cells.
OBJETIVO: Avaliar a transferência de genes heterólogos expressando a proteína "Green Fluorescent Protein" (GFP) para células corneanas epiteliais primárias ex vivo utilizando vetor lentivírus. MÉTODOS: Tecido corneoescleral de coelhos foi usado para obtenção de suspensão de células corneanas epitelias. As células foram semeadas na densidade de 5×10³ células/cm² e expandidas por 5 dias até uma confluência de 70-80 por cento antes de serem transduzidas. A transferência genética foi monitorada por microscopia fluorescente e por um separador de células ativadas por fluorescência. Foram avaliadas a eficiência de transdução ao longo do tempo e o efeito dose-resposta de diferentes quantidades de partículas virais. Um grupo de células foi analisado pelo separador de células ativadas por fluorescência para avaliar a transdução de células com fenótipo de células tronco do epitélio corneano (baseado na exclusão do corante "Hoechst dye"). RESULTADOS: Os vetores lentivírus foram efetivos na transdução de células corneanas epiteliais primárias de coelhos ex vivo. Fotodocumentação das células vivas demonstrou células epiteliais de morfologia normal e expressando o gene fluorescente (GFP). A eficiência de transdução ao longo do tempo foi maior no quinto dia após a transdução (14,1 por cento) e demonstrou uma tendência à estabilidade a partir do oitavo dia após a transdução. O número de células transduzidas foi dose-dependente e atingiu 7 por cento com as maiores concentrações de partículas virais. Quando analisadas pelo separador de células ativadas por fluorescência para detecção de células transduzidas e também de células que excluíram o corante "Hoechst dye", foi detectado que células com fenótipo de células tronco do epitélio corneano ("side-population") também foram transduzidas. CONCLUSÕES: Os vetores lentivirais podem transferir genes heterolólogos para células corneanas epiteliais primárias expandidas ex vivo de forma eficiente. Os genes foram expressos de forma estável ao longo do tempo e puderam ser transferidos tanto para células epiteliais maduras como para presumíveis células tronco epiteliais. A eficiência de transdução foi obtida de forma dose-dependente.
Subject(s)
Animals , Rabbits , Epithelium, Corneal/metabolism , Genetic Vectors/administration & dosage , Green Fluorescent Proteins/genetics , Lentivirus/genetics , Transduction, Genetic/methods , Analysis of Variance , Epithelium, Corneal/cytology , Genetic Therapy/methods , Green Fluorescent Proteins/administration & dosage , Models, AnimalABSTRACT
PURPOSE: To evaluate the transfer of heterologous genes carrying a Green Fluorescent Protein (GFP) reporter cassette to primary corneal epithelial cells ex vivo. METHODS: Freshly enucleated rabbit corneoscleral tissue was used to obtain corneal epithelial cell suspension via enzymatic digestion. Cells were plated at a density of 5×10³ cells/cm² and allowed to grow for 5 days (to 70-80% confluency) prior to transduction. Gene transfer was monitored using fluorescence microscopy and fluorescence activated cell sorter (FACS). We evaluated the transduction efficiency (TE) over time and the dose-response effect of different lentiviral particles. One set of cells were dual sorted by fluorescence activated cell sorter for green fluorescent protein expression as well as Hoechst dye exclusion to evaluate the transduction of potentially corneal epithelial stem cells (side-population phenotypic cells). RESULTS: Green fluorescent protein expressing lentiviral vectors were able to effectively transduce rabbit primary epithelial cells cultured ex vivo. Live cell imaging post-transduction demonstrated GFP-positive cells with normal epithelial cell morphology and growth. The transduction efficiency over time was higher at the 5(th) post-transduction day (14.1%) and tended to stabilize after the 8(th) day. The number of transduced cells was dose-dependent, and at the highest lentivirus concentrations approached 7%. When double sorted by fluorescence activated cell sorter to isolate both green fluorescent protein positive and side population cells, transduced side population cells were identified. CONCLUSIONS: Lentiviral vectors can effectively transfer heterologous genes to primary corneal epithelial cells expanded ex vivo. Genes were stably expressed over time, transferred in a dose-dependence fashion, and could be transferred to mature corneal cells as well as presumable putative stem cells.