Add to ORKGBackground: The purpose of this study is to evaluate the extent and incidence of opaque bubble layer (OBL) using laser-assisted in situ keratomileusis (LASIK) flaps created with the Alcon/WaveLight ® FS200 femtosecond laser as a result of a recent change in flap programming parameters aiming to reduce further the incidence and extent of OBL. Methods: Intraoperative digital images of flaps from 36 consecutive patients (72 eyes) subjected to bilateral femtosecond-assisted LASIK were analyzed using a proprietary computerized technique. The incidence and extent of OBL was measured and reported as a percentage of the entire flap area. Flap creation was performed with a 1.7 mm wide canal, implemented as an updated design intended to reduce the ...
To examine the technique of second-pass femtosecond laser to correct an incomplete flap during laser...
To evaluate the results of thin-flap laser in situ keratomileusis (LASIK) using a femtosecond-laser ...
PURPOSE: To evaluate and compare the thickness and the morphology of femtosecond and mechanical micr...
Background: The purpose of this study is to evaluate the extent and incidence of opaque bubble layer...
The purpose of this study was to evaluate the incidence of opaque bubble layer (OBL) in femtosecond ...
Abstract Background Opaque bubble layer (OBL), which generates from photo-disruptive procedures on t...
AIM: To study the influence factors and management of anterior chamber gas bubble during femtosecond...
To review the published literature to assess the safety, efficacy, and predictability of femtosecond...
A John Kanellopoulos,1,2 George Asimellis1 1LaserVision.gr Eye Institute, Athens, Greece; 2New York ...
PURPOSE: To evaluate the risk factors for interface haze formation after thin-flap femtosecond laser...
To report a patient who developed subconjunctival gas bubble formation during creation of a LASIK co...
Digital analysis of flap parameter accuracy and objective assessment of opaque bubble layer in femto...
PURPOSE: To evaluate the thickness and side-cut angle of laser in situ keratomileusis (LASIK) flaps ...
AIM: To explore the effects of femtosecond laser and mechanical lamellar blade excision laser in sit...
To compare stromal bed smoothness in LASIK flaps created with two different femtosecond lasers (Intr...
To examine the technique of second-pass femtosecond laser to correct an incomplete flap during laser...
To evaluate the results of thin-flap laser in situ keratomileusis (LASIK) using a femtosecond-laser ...
PURPOSE: To evaluate and compare the thickness and the morphology of femtosecond and mechanical micr...
Background: The purpose of this study is to evaluate the extent and incidence of opaque bubble layer...
The purpose of this study was to evaluate the incidence of opaque bubble layer (OBL) in femtosecond ...
Abstract Background Opaque bubble layer (OBL), which generates from photo-disruptive procedures on t...
AIM: To study the influence factors and management of anterior chamber gas bubble during femtosecond...
To review the published literature to assess the safety, efficacy, and predictability of femtosecond...
A John Kanellopoulos,1,2 George Asimellis1 1LaserVision.gr Eye Institute, Athens, Greece; 2New York ...
PURPOSE: To evaluate the risk factors for interface haze formation after thin-flap femtosecond laser...
To report a patient who developed subconjunctival gas bubble formation during creation of a LASIK co...
Digital analysis of flap parameter accuracy and objective assessment of opaque bubble layer in femto...
PURPOSE: To evaluate the thickness and side-cut angle of laser in situ keratomileusis (LASIK) flaps ...
AIM: To explore the effects of femtosecond laser and mechanical lamellar blade excision laser in sit...
To compare stromal bed smoothness in LASIK flaps created with two different femtosecond lasers (Intr...
To examine the technique of second-pass femtosecond laser to correct an incomplete flap during laser...
To evaluate the results of thin-flap laser in situ keratomileusis (LASIK) using a femtosecond-laser ...
PURPOSE: To evaluate and compare the thickness and the morphology of femtosecond and mechanical micr...