Incisional surface quality of electron-beam irradiated cornea-extracted lenticule for stromal keratophakia: high nJ-energy vs. low nJ-energy femtosecond laser

Abstract: IntroductionCorneal lenticules can be utilized as an additive material for stromal keratophakia. However, following extraction, they must be reimplanted almost immediately or cryopreserved in lenticule banks. Electron-beam (E-beam) irradiated corneas permit room-temperature storage for up to 2 years, enabling keratophakia to be performed on demand. This study aims to compare the performance of high nano Joule (nJ)-energy (VisuMax) and low nJ-energy (FEMTO LDV) femtosecond laser systems on the thickness consist… Show more

“…For excimer laser systems (ablative procedures), it has been shown that reducing pulse energy is a key driver in reducing roughness [16]. This has been also empirically demonstrated for femtosecond systems [17,18]. Both correspond to our simulation findings and also shared in laboratory experiences with excimer ablation procedures [19].…”

Optimization of the Spot Spacings for Reducing Roughness in Laser-Induced Optical Breakdown Processes for Corneal Laser Vision Correction

“…For excimer laser systems (ablative procedures), it has been shown that reducing pulse energy is a key driver in reducing roughness [16]. This has been also empirically demonstrated for femtosecond systems [17,18]. Both correspond to our simulation findings and also shared in laboratory experiences with excimer ablation procedures [19].…”

Optimization of the Spot Spacings for Reducing Roughness in Laser-Induced Optical Breakdown Processes for Corneal Laser Vision Correction