Thibaut Devogelaere scite author profile

. Purpose: To evaluate the incidence of exposure keratopathy following silicone frontalis suspension in adult neuro‐ and myogenic blepharoptosis. Method: Retrospective noncomparative analysis of the charts of 69 cases (101 eyelids) of silicone frontalis suspension. Results: Sixty‐one patients (93 eyelids) had myogenic ptosis, and eight patients (eight eyelids) had neurogenic ptosis. Preoperative diagnoses included chronic progressive external ophthalmoplegia, myotonic dystrophy, oculopharyngeal dystrophy, third cranial nerve palsy because of trauma or other causes. Average age at the time of operation was 54. Mean interval between the intervention and the first and second postoperative control was 8 and 28 months, respectively. Thirty‐one patients (31 eyelids) needed a second follow‐up visit. Postoperative punctate epithelial erosions (PEE) were encountered most frequently in patients with Steinert’s disease (42% of eyes) and congenital ptosis (33% of eyes). Patients with oculopharyngeal dystrophy did not develop PEE. Corneal ulceration developed in three eyes (two patients): one eye was successfully treated with local antibiotic ointments and lubricants, a bilateral corneal ulceration in the second patient was successfully treated with partial conjunctival grafts. Conclusion: This study cohort demonstrated a 26% risk of exposure keratopathy following silicone frontalis suspension. The risk of major corneal complications, such as ulceration, was low (3%).

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Thin-flap LASIK with a High-frequency, Low-energy, Small Spot Femtosecond Laser – Effectiveness and Safety

Vryghem¹,

Heireman²,

Devogelaere³

2014

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Objective: To evaluate clinical results of a high-frequency, low-energy, small spot femtosecond laser for the creation of thin corneal flaps in laser in situ keratomileusis (LASIK) used in a comparative case series at a private practice in Brussels, Belgium. Methods: A series of 75 patients selected for LASIK refractive surgery were enrolled for treatment with the Ziemer FEMTO LDV femtosecond laser and received a corneal flap of either 90 µm (59 patients, 103 eyes) or 80 µm (16 patients, 27 eyes) nominal thickness. Prospective evaluation included flap dimensions, intra-and post-operative complications and visual outcomes. 1-5 A thin flap may thus be desirable: it enables the treatment of higher corrections, permits larger ablation zones, induces fewer aberrations, has a lower enhancement rate and better functional results than a conventional >100 µm flap. Moreover, thin flaps help to maximise the RSB -staying further away from the critical 250 µm barrier -and preserve the biomechanical stability of the cornea, hence reducing the risk of ectasia.A critical prerequisite for thin flaps to be a practical alternative is to use a flap-making modality that creates flaps of uniform and predictable thickness. Femtosecond lasers have been shown to meet this condition better than mechanical microkeratomes. The practical limits of femtosecond lasers are determined by the mechanical stability and precision of the docking mechanism that applanates the cornea, by the pulse energy, by the capability of the laser optics to focus the laser beam in the cutting plane and finally by the quality of the achieved dissection.A thinner than conventional flap blends the advantages of lamellar and surface approaches: to preserve as much tissue as possible and at the same time retain an intact flap for fast recovery and protection. 1,6,7 Sub-Bowman keratomileusis (SBK) is a laser procedure that involves the use of a customised corneal flap between 90 and 110 µm with a diameter that is closely matched to the ablation zone of the excimer laser being used, typically ± 8.5 mm. 8One of the principal concerns in thin-flap LASIK is that very thin flaps induce the risk of intraoperative complications (pseudo-buttonhole): the thinner the flap, the closer you get to Bowman's layer. Ultra thin flaps are more difficult to handle and more easily displaced enhancing the risk of flap striae and irregular astigmatism. [9][10][11] Remaining tissue bridges can cause force to be required for separating the flap, which may cause a very thin flap to tear or to over-stretch.

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Thibaut Devogelaere

Efficacy, safety, and flap dimensions of a new femtosecond laser for laser in situ keratomileusis

Not only hard contact lens wear but also soft contact lens wear may be associated with blepharoptosis

Exposure keratopathy following silicone frontalis suspension in adult neuro‐ and myogenic ptosis

Thin-flap LASIK with a High-frequency, Low-energy, Small Spot Femtosecond Laser – Effectiveness and Safety

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