Thibaud Garcin1,2, Anne-Sophie Gauthier1, Emmanuel Crouzet1, Zhiguo He1, Pascal Herbepin1, Chantal Perrache1, Sophie Acquart3, Fabrice Cognasse3, Fabien Forest1,4, Philippe Gain1,2, Gilles Thuret1,2,5. 1. Corneal Graft Biology, Engineering and Imaging Laboratory, BiiGC, EA2521, Federative Institute of Research in Sciences and Health Engineering, Faculty of Medicine, Jean Monnet University, Saint-Etienne, France. 2. Ophthalmology Department, University Hospital, Saint-Etienne, France. 3. Eye Bank, French Blood Center, Saint-Etienne, France. 4. Pathology Department, University Hospital, Saint-Etienne, France. 5. Institut Universitaire de France, Boulevard Saint-Michel, Paris, France.
Abstract
BACKGROUND: Corneal storage for the very long term, without degradation, would make it possible to optimize a very limited resource worldwide. We previously demonstrated the superiority, compared to conventional 4-week passive organ culture (OC), of an active storage machine (ASM) that restores intraocular pressure and medium renewal. Here, we investigate eye banking for up to 3 months. METHODS: In a randomized preclinical trial with 24 paired corneas, 1 was stored in OC and the other in ASM, using the same medium. Assessments were done on the second day and at 3 months: endothelial cell density (ECD in cells/mm), corneal transparency and thickness. At day 86, OC corneas were deswelled in a common hyperosmotic medium, but not the ASM corneas, which had remained thin. In addition, at day 88, viable ECD was measured using a live/dead assay, and endothelial expression of Na/K ATPase, Cox IV, ZO-1, N-CAM, and CD166 was observed. RESULTS: The ASM extended storage to 3 months with unprecedented endothelial cell quality: no OC corneas remained suitable for transplantation, but one-third of ASM corneas were compliant (ECD > 2000/mm). Given that corneas with ECD > 1600/mm were also usable for emergency, 58% of ASM corneas were usable versus 33% in OC. EC survival was 53% higher in ASM (P < 0.001), structural and functional proteins of ECs were much better preserved in ASM, and it prevented the constant major edema of OC. CONCLUSIONS: By extending graft survival to 3 months, the ASM will optimize eye banking and open up new perspectives in experimental research.
RCT Entities:
BACKGROUND:Corneal storage for the very long term, without degradation, would make it possible to optimize a very limited resource worldwide. We previously demonstrated the superiority, compared to conventional 4-week passive organ culture (OC), of an active storage machine (ASM) that restores intraocular pressure and medium renewal. Here, we investigate eye banking for up to 3 months. METHODS: In a randomized preclinical trial with 24 paired corneas, 1 was stored in OC and the other in ASM, using the same medium. Assessments were done on the second day and at 3 months: endothelial cell density (ECD in cells/mm), corneal transparency and thickness. At day 86, OC corneas were deswelled in a common hyperosmotic medium, but not the ASM corneas, which had remained thin. In addition, at day 88, viable ECD was measured using a live/dead assay, and endothelial expression of Na/K ATPase, Cox IV, ZO-1, N-CAM, and CD166 was observed. RESULTS: The ASM extended storage to 3 months with unprecedented endothelial cell quality: no OC corneas remained suitable for transplantation, but one-third of ASM corneas were compliant (ECD > 2000/mm). Given that corneas with ECD > 1600/mm were also usable for emergency, 58% of ASM corneas were usable versus 33% in OC. EC survival was 53% higher in ASM (P < 0.001), structural and functional proteins of ECs were much better preserved in ASM, and it prevented the constant major edema of OC. CONCLUSIONS: By extending graft survival to 3 months, the ASM will optimize eye banking and open up new perspectives in experimental research.