Temporal and spatial flap variability in laser in-situ keratomileusis by optical coherence tomography

Abstract: Purpose:To study changes in flap thickness made with two different microkeratome heads across different corneal locations using anterior segment optical coherence tomography (OCT).Methods:In this prospective, non-randomized, consecutive case series, subjects who had their laser in-situ keratomileusis (LASIK) flaps made using 90 μm (MSU90) or 130 μm (MSU130) disposable M2 microkeratome heads were examined using OCT. The measurements were performed at three locations (central and 2.5 mm to either side) at 1 day,… Show more

“…The technique has gained widespread popularity as it combines a number of attractive characteristics. Compared to a mechanical microkeratome, the femtosecond LASIK is more precise (i.e., small difference of intended vs achieved) and more accurate (i.e., reduced variability) in terms of flap thickness [2][3][4]. Residual stromal thickness is an important determinant of postoperative LASIK safety.…”

Femtosecond LASIK for the correction of low and high myopic astigmatism

“…The technique has gained widespread popularity as it combines a number of attractive characteristics. Compared to a mechanical microkeratome, the femtosecond LASIK is more precise (i.e., small difference of intended vs achieved) and more accurate (i.e., reduced variability) in terms of flap thickness [2][3][4]. Residual stromal thickness is an important determinant of postoperative LASIK safety.…”

Femtosecond LASIK for the correction of low and high myopic astigmatism