A new storage medium containing amphotericin B versus Optisol-GS for preservation of human donor corneas.

BACKGROUND/AIM: We compared the quality of human donor corneas stored in a cold storage medium containing 2.5 µg/ml of amphotericin B (Kerasave, AL.CHI.MI.A. S.R.L., Ponte San Nicolò, Italy) and Optisol-GS (Bausch & Lomb Inc., Bridgewater, NJ, USA) for 14 days. METHODS: Sixteen pairs of human donor corneas were collected in Eusol-C (AL.CHI.MI.A. S.R.L., Ponte San Nicolò, Italy). Next, all tissues underwent the first evaluation that included the assessments of central corneal thickness (CCT), endothelial cell density (ECD) measured using both trypan blue staining and specular microscopy, endothelial cell (EC) mortality and morphology, and corneal transparency within 24 hours from recovery (Day 1). Afterwards, one cornea of each pair was transferred into Kerasave or Optisol-GS. ECD and CCT were also assessed at Day 7, and all the metrics were evaluated again at the end of the storage period (Day 14). RESULTS: At all tested time points, no differences were found in the qualitative (corneal transparency, EC morphology) and quantitative metrics (ECD, CCT, EC mortality) between the Kerasave and the Optisol-GS storage groups. At Day 14, the corneas stored in Kerasave and Optisol-GS showed ECD of 2312±98 and 2335±128 cells/mm2 (p=0.886), CCT of 717±17 and 697±19 µm (p=0.454) and central EC mortality of 0.54%±0.40% and 0.14%±0.14% (p=0.719), respectively. CONCLUSIONS: The new amphotericin B-containing medium Kerasave was comparable to Optisol-GS in terms of preservation of corneal characteristics at 2-8°C for 14 days.

A fine-tuned ß-catenin regulation during proliferation of corneal endothelial cells revealed using proteomics analysis.

Corneal endothelial (CE) dysfunction is the main indication for corneal transplantation, an invasive procedure with several limitations. Developing novel strategies to re-activate CE regenerative capacity is, therefore, of fundamental importance. This goal has proved to be challenging as corneal endothelial cells (CEnC) are blocked in the G0/G1 phase of the cell cycle in vivo and, albeit retaining proliferative capacity in vitro, this is further hindered by endothelial-to-mesenchymal transition. Herein we investigated the mechanisms regulating CEnC proliferation in vitro. Comparing the proteome of non-proliferating (in vivo-G0/G1) and proliferating (in vitro-G2/M) rabbit CEnC (rCEnC), 77 proteins, out of 3,328 identified, were differentially expressed in the two groups (p < 0.005). Literature and Gene Ontology analysis revealed ß-catenin and transforming growth factor (TGF-ß) pathways to be correlated with the identified proteins. Treatment of rCEnC with a ß-catenin activator and inhibitor showed that ß-catenin activation was necessary during rCEnC proliferation, but not sufficient for its induction. Furthermore, both pro-proliferative activity of basic fibroblast growth factor and anti-proliferative effects of TGF-ß were regulated through ß-catenin. Overall, these results provide novel insights into the molecular basis underlying the proliferation process that CEnC re-activate in vitro, consolidating the role of ß-catenin and TGF-ß.

A new approach to extend the storage of donor corneas after 28 days of corneal culture in an Italian eye bank.

This study aimed to evaluate the possibility to extend the storage of unused organ-cultured donor corneas. After 28 days of corneal culture in TISSUE-C (AL.CHI.MI.A. S.R.L., Italy) and 5-day storage in transport/deswelling medium CARRY-C (AL.CHI.MI.A. S.R.L., Italy), 25 corneas that were deemed suitable for transplantation were transferred in fresh TISSUE-C at 31 °C for additional 7 days and then in fresh CARRY-C at room temperature for 24 h. Tissues were assessed for endothelial cell density (ECD), endothelial mortality and morphology after the standard and the extended corneal storage. In addition, the effect of donor age < 85 years and ≥ 85 years on corneal characteristics was assessed. After the extended storage, 6 out of 25 tested corneas (24%) showed ECD values below the acceptance limit (< 2000 cells/mm2). 19 corneas (76%) were still suitable for transplantation and showed a 5.9% loss in ECD, which was not statistically significant (P = 0.0949) compared to standard storage period. The two donor age groups did not show statistically significant differences in any tested parameter, although a trend for lower ECD and higher mortality in Descemet's folds after standard storage was observed in the ≥ 85 age donor group. Thus, the attempt of the current study to provide new sight-restorative options for unused tissues and increasing the availability of corneas in case of shortage gave encouraging results. Although a higher vulnerability of corneas from very old donors could not be statistically demonstrated in the present study, higher sample size could be required for prolonging the shelf life of these tissues.

Method for sterility testing of corneal storage and transport media after removal of interfering antimicrobials: prospective validation study in compliance with the European Pharmacopoeia.

OBJECTIVE: This study aimed at validating the method for sterility testing of the corneal culture medium, TISSUE-C, and the transport/deswelling medium, CARRY-C, according to the method suitability test, as defined by the European Pharmacopoeia (EP), using RESEP, which is a new medical device for removal of antimicrobial agents and an automated culture system. METHODS AND ANALYSIS: The six EP reference strains were inoculated in TISSUE-C and CARRY-C. Half of the samples were treated with RESEP (RESEP+ group) prior to the sterility testing, whereas the remaining samples were untreated (RESEP- group). Growth controls were obtained by direct inoculation of the micro-organisms in the culture broths. Microbial growth was read by an automated light scattering culture system within 48 hours. RESULTS: The use of RESEP allowed detection of microbial growth in 100% of the tested samples, with a mean time to detection (TTD) comparable with that of the growth control group. Significantly lower sensitivity (38.83%±20.03% for both media, P<0.05) and TTD variability, depending on the tested micro-organism, were observed in the RESEP- group. The method specificity was 100% for both groups. CONCLUSION: The use of RESEP increased the sensitivity of the sterility testing method to 100% and, for the first time, allowed validation of the method for sterility testing of corneal storage media according to the EP method suitability test. This further increases the safety of the corneas intended for transplantation.

A donor cornea with metastatic cells from a cutaneous malignant melanoma.

PURPOSE: To describe the case of a donor cornea that showed hematogenous metastatic spread of cutaneous melanoma to the sclerocorneal limbus. METHODS: Corneal tissue obtained from a donor with cutaneous malignant melanoma was evaluated for endothelial cell density, corneal transparency, and epithelial morphology. Subsequently, hematoxylin and eosin staining and immunohistochemical characterization using S100, HMB45, Melan-A, and CD34 antibodies were performed on the corneal sections. RESULTS: The corneal tissue was transparent with high endothelial cell density; it was graded as being suitable for transplantation according to the current eye bank criteria. However, the aggressiveness of the donor's cancer and the diffuse melanosis of the sclera led to the suspicion of malignant melanoma metastasis to the cornea. Histochemical analysis of the corneoscleral rim showed small aggregates rich in pigmented cells that were localized in cleft-like structures in the sclera, at the sclerocorneal interface and in the peripheral avascular portion of the cornea. The aggregates were positive for the melanocytic tumor markers S100, HMB45, and Melan-A; the rims of the clefts expressed the panvascular CD34 antigen, which was suggestive of neovascularization. CONCLUSIONS: Corneal tissue from a donor with malignant cutaneous melanoma displayed neoplastic lesions of melanocytic origin that had spread from a primitive melanoma through hematogenous routes to the sclerocorneal limbus. On the basis of this finding, we believe that having a metastatic cutaneous malignant melanoma could in some cases be reviewed as an exclusionary criterion for undergoing cornea transplantation.

Protective effects of deswelling on stromal collagen denaturation after a corneal femtosecond laser cut.

PURPOSE: To evaluate the effect of corneal deswelling prior to a microkeratome and femtosecond (fs) laser cut and the impact of the fs laser energy settings on the tissue surface and collagen quality. METHODS: Porcine and human corneas were incubated in THIN-C (deswelled) or EUSOL-C (control) at 4°C for 4 hours. Porcine corneas were cut using a microkeratome or an Intralase fs laser 150 Hz and 0.75 µJ energy. Human corneas were cut using the laser at different energy settings. The tissue thickness was measured using Visante OCT and the endothelial cell density (ECD) was evaluated by an Eye Bank KeratoAnalyzer or trypan blue staining. The tissue was analyzed using scanning electron microscopy (SEM). RESULTS: In porcine corneas, tissue deswelling resulted in a reduction of 14% in the central corneal thickness (CCT), a regular surface, and increased tissue stiffness without affecting ECD. After fs laser cutting, the control corneas showed superficial collagen denaturation that was absent in the deswelled corneas. The deswelled human corneas showed a CCT reduction of 20%, better surface smoothness, preserved collagen, and increased stiffness after fs laser cutting at 1.0 to 1.2 µJ, compared with controls. Surface smoothness decreased and collagen fibers showed a melted-like aspect both in deswelled and control corneas at greater than 1.4 µJ. CONCLUSIONS: Fs laser cutting parameters can reduce corneal surface smoothness and increase collagen melting damage. The use of a deswelling medium resulted in tissues for Descemet stripping automated endothelial keratoplasty (DSAEK) with increased stiffness, smooth surfaces, and no thermal damage to the collagen matrix.