PLoS ONE (Jan 2017)

Real-time assessment of corneal endothelial cell damage following graft preparation and donor insertion for DMEK.

  • Maninder Bhogal,
  • Chan N Lwin,
  • Xin-Yi Seah,
  • Elavazhagan Murugan,
  • Khadijah Adnan,
  • Shu-Jun Lin,
  • Gary Peh,
  • Jodhbir S Mehta

DOI
https://doi.org/10.1371/journal.pone.0184824
Journal volume & issue
Vol. 12, no. 10
p. e0184824

Abstract

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To establish a method for assessing graft viability, in-vivo, following corneal transplantation.Optimization of calcein AM fluorescence and toxicity assessment was performed in cultured human corneal endothelial cells and ex-vivo corneal tissue. Descemet membrane endothelial keratoplasty grafts were incubated with calcein AM and imaged pre and post preparation, and in-situ after insertion and unfolding in a pig eye model. Global, macroscopic images of the entire graft and individual cell resolution could be attained by altering the magnification of a clinical confocal scanning laser microscope. Patterns of cell loss observed in situ were compared to those seen using standard ex-vivo techniques.Calcein AM showed a positive dose-fluorescence relationship. A dose of 2.67μmol was sufficient to allow clear discrimination between viable and non-viable areas (sensitivity of 96.6% with a specificity of 96.1%) and was not toxic to cultured endothelial cells or ex-vivo corneal tissue. Patterns of cell loss seen in-situ closely matched those seen on ex-vivo assessment with fluorescence viability imaging, trypan blue/alizarin red staining or scanning electron microscopy. Iatrogenic graft damage from preparation and insertion varied between 7-35% and incarceration of the graft tissue within surgical wounds was identified as a significant cause of endothelial damage.In-situ graft viability assessment using clinical imaging devices provides comparable information to ex-vivo methods. This method shows high sensitivity and specificity, is non-toxic and can be used to evaluate immediate cell viability in new grafting techniques in-vivo.