Effects of femtosecond laser-assisted trephination on donor tissue in liquid interface as compared to applanated interface.
Donner Ruth, Schmidinger Gerald
AI Summary
This study found femtosecond laser trephination with a liquid interface significantly reduces intraocular pressure and improves donor tissue quality compared to an applanated interface, potentially reducing surgical stress.
Abstract
Purpose
To evaluate the effects of femtosecond laser-assisted keratoplasty using a liquid patient interface (L-PI) as opposed to an applanated interface (A-PI) on graft quality and functionality markers.
Methods
Pressure measurements during femtosecond laser-assisted trephination were performed using two groups of 10 porcine eyes. Trephination was performed either in an L-PI or in an A-PI setting. Pressure sensor needles placed intravitreally continuously recorded intraocular pressure during trephination. Twenty paired human donor eyes were used to test the morphological quality of donor tissue after trephination in L-PI and A-PI settings. Optical coherence tomography (OCT) scans were performed before and after trephination. Images were processed using ImageJ and pixel 2 .
Results
During trephination, pressure measurements with an L-PI were significantly lower than with an A-PI (p = 0.0121). Mean pressure during trephination was 78.1 mmHg ± 37.6 mmHg with L-PI and 188.6 mmHg ± 17.7 mmHg with A-PI. Trephination in A-PI produced a significantly larger increase (p < 0.00001) in donor pachymetry than trephination in L-PI. Significantly lower areas of Descemet folds were achieved in L-PI trephination than in A-PI trephination (p < 0.01). There was no significant difference in circularity between A-PI and L-PI (p = 0.27). Total time required for trephination was comparable between L-PI and A-PI (p = 0.45). Time taken to reach working vacuum was achieved significantly more quickly in L-PI (p < 0.05).
Conclusion
Femtosecond laser-assisted L-PI keratoplasty appears to be a promising method to decrease stress to donor and recipient tissue during femtosecond laser-assisted trephination. Results showed favourable donor tissue morphology markers after L-PI trephination.
MeSH Terms
Shields Classification
Key Concepts5
Pressure measurements during femtosecond laser-assisted trephination with a liquid patient interface (L-PI) were significantly lower (mean 78.1 mmHg ± 37.6 mmHg) than with an applanated interface (A-PI) (mean 188.6 mmHg ± 17.7 mmHg) in porcine eyes (p = 0.0121).
Femtosecond laser-assisted trephination in an applanated interface (A-PI) produced a significantly larger increase (p < 0.00001) in donor pachymetry than trephination in a liquid patient interface (L-PI) in 20 paired human donor eyes.
Significantly lower areas of Descemet folds were achieved with femtosecond laser-assisted trephination in a liquid patient interface (L-PI) than in an applanated interface (A-PI) (p < 0.01) in 20 paired human donor eyes.
The time taken to reach working vacuum was achieved significantly more quickly with femtosecond laser-assisted trephination using a liquid patient interface (L-PI) compared to an applanated interface (A-PI) (p < 0.05) in porcine eyes.
Femtosecond laser-assisted liquid patient interface (L-PI) keratoplasty appears to be a promising method to decrease stress to donor and recipient tissue during femtosecond laser-assisted trephination, showing favourable donor tissue morphology markers after L-PI trephination.
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