Range of refractive independence and mechanism of action of a corneal shape-changing hydrogel inlay: results and theory

Roger F Steinert; Jim Schwiegerling; Alan Lang; Adam Roy; Keith Holliday; Enrique Barragán Garza; Arturo S Chayet

doi:10.1016/j.jcrs.2015.08.007

Range of refractive independence and mechanism of action of a corneal shape-changing hydrogel inlay: results and theory

J Cataract Refract Surg. 2015 Aug;41(8):1568-79. doi: 10.1016/j.jcrs.2015.08.007.

Authors

Roger F Steinert¹, Jim Schwiegerling², Alan Lang², Adam Roy², Keith Holliday², Enrique Barragán Garza², Arturo S Chayet²

Affiliations

¹ From the Gavin Herbert Eye Institute (Steinert), University of California, Irvine, Revision Optics, Inc. (Lang, Holliday, Roy), Lake Forest, California, the College of Optical Sciences/Ophthalmology (Schwiegerling), University of Arizona, Tucson, Arizona, USA; Laser Ocular Hidalgo (Barragán), Monterrey, and the Codet Aris Vision Institute (Chayet), Tijuana, Mexico. Electronic address: steinert@uci.edu.
² From the Gavin Herbert Eye Institute (Steinert), University of California, Irvine, Revision Optics, Inc. (Lang, Holliday, Roy), Lake Forest, California, the College of Optical Sciences/Ophthalmology (Schwiegerling), University of Arizona, Tucson, Arizona, USA; Laser Ocular Hidalgo (Barragán), Monterrey, and the Codet Aris Vision Institute (Chayet), Tijuana, Mexico.

PMID: 26432112
DOI: 10.1016/j.jcrs.2015.08.007

Abstract

Purpose: To demonstrate the independence of visual performance over a range of preoperative refraction and age in presbyopes implanted with a corneal shape-changing inlay (Raindrop Near Vision Inlay).

Setting: Two multispecialty clinics, Monterrey and Tijuana, Mexico.

Design: Prospective case series.

Methods: The nondominant eyes of patients were implanted with the hydrogel corneal inlay beneath a femtosecond flap, centered on the pupil. Clinical outcomes included uncorrected near, intermediate, and distance visual acuity (UNVA, UIVA, and UDVA) and patient-assessed task performance in good light and dim light. Statistical analyses assessed the dependencies on preoperative age (45 to 60 years) and preoperative manifest refraction spherical equivalent (MRSE) (-0.5 to +1.5 diopters [D]). Using the inlay effect derived from wavefront measurements, an eye model was created through which letter charts were simulated.

Results: The study evaluated eyes of 188 patients. Postoperative UNVA, UIVA, and task performance at these distances in good light was independent of age and preoperative MRSE (P > .05). Postoperative UDVA was weakly dependent on preoperative MRSE, but distance task performance in good light was not (P > .05). In the treated eye, the mean postoperative UNVA was 20/25, UIVA was 20/25, and UDVA was 20/32. The clinical outcomes are explained by consideration of zones within the pupil generating good near, intermediate, and distance image quality. This was confirmed by visual acuity simulations.

Conclusions: The continuous center-near power profile induced by the corneal shape-changing inlay provides good visual acuity and performance from distance through near over a 2.0 D range of preoperative refraction and presbyopic age.

Financial disclosure: Drs. Steinert, Schwiegerling, Barragán-Garza, and Chayet are consultants to Revision Optics, Inc. Drs. Lang and Holliday and Mr. Roy are employees of Revision Optics, Inc. Drs. Steinert, Schwiegerling, Barragán-Garza, and Chayet have no financial or proprietary interest in any material or method mentioned.

Publication types

Multicenter Study

MeSH terms

Biocompatible Materials
Cornea / physiopathology*
Corneal Stroma / physiopathology
Corneal Stroma / surgery*
Female
Humans
Male
Middle Aged
Patient Satisfaction
Polyvinyls*
Presbyopia / physiopathology
Presbyopia / surgery*
Prospective Studies
Prostheses and Implants
Prosthesis Implantation*
Refraction, Ocular / physiology*
Surgical Flaps
Surveys and Questionnaires
Visual Acuity / physiology*

Substances

Biocompatible Materials
Polyvinyls
polyvinylidene fluoride