Power Profiles of Commercial Multifocal Soft Contact Lenses

ABSTRACT Purpose To evaluate the optical power profiles of commercially available soft multifocal contact lenses and compare their optical designs. Methods The power profiles of 38 types of multifocal contact lenses—three lenses each—were measured in powers +6D, +3D, +1D, −1D, −3D, and −6D using NIMO TR1504 (Lambda-X, Belgium). All lenses were measured in phosphate buffered saline across 8 mm optic zone diameter. Refractive index of each lens material was measured using CLR 12-70 (Index Instruments, UK), which was used for converting measured power in the medium to in-air radial power profiles. Results Three basic types of power profiles were identified: center-near, center-distance, and concentric-zone ring-type designs. For most of the lens types, the relative plus with respect to prescription power was lower than the corresponding spectacle add. For some lens types, the measured power profiles were shifted by up to 1D across the power range relative to their labeled power. Most of the lenses were designed with noticeable amounts of spherical aberration. The sign and magnitude of spherical aberration can either be power dependent or consistent across the power range. Conclusions Power profiles can vary widely between the different lens types; however, certain similarities were also observed between some of the center-near designs. For the more recently released lens types, there seems to be a trend emerging to reduce the relative plus with respect to prescription power, include negative spherical aberration, and keep the power profiles consistent across the power range.

[1]  Philip B. Morgan,et al.  Trends in US Contact Lens Prescribing 2002 to 2014 , 2015, Optometry and vision science : official publication of the American Academy of Optometry.

[2]  Balamurali Vasudevan,et al.  Objective and subjective visual performance of multifocal contact lenses: pilot study. , 2014, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[3]  Eon Kim,et al.  Reliability of power profiles measured on NIMO TR1504 (Lambda-X) and effects of lens decentration for single vision, bifocal and multifocal contact lenses , 2015, Journal of optometry.

[4]  P. Morgan,et al.  An international survey of daily disposable contact lens prescribing , 2013, Clinical & experimental optometry.

[5]  Sotiris Plainis,et al.  Through‐focus performance with multifocal contact lenses: effect of binocularity, pupil diameter and inherent ocular aberrations , 2013, Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians.

[6]  Robert Montés-Micó,et al.  In vitro power profiles of multifocal simultaneous vision contact lenses. , 2014, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[7]  R Montés-Micó,et al.  Optical power distribution of refractive and aspheric multifocal contact lenses: Effect of pupil size. , 2015, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[8]  Alejandro Cerviño,et al.  Visual performance with simultaneous vision multifocal contact lenses , 2012, Clinical & experimental optometry.

[9]  Klaus Ehrmann,et al.  Optical Performance of Multifocal Soft Contact Lenses via a Single-Pass Method , 2012, Optometry and vision science : official publication of the American Academy of Optometry.

[10]  Klaus Ehrmann,et al.  Knife-edge system for evaluating contact lenses , 2000, BiOS.

[11]  Klaus Ehrmann,et al.  Short-term visual performance of soft multifocal contact lenses for presbyopia. , 2016, Arquivos brasileiros de oftalmologia.

[12]  Luc Joannes,et al.  The reproducibility of a new power mapping instrument based on the phase shifting schlieren method for the measurement of spherical and toric contact lenses. , 2010, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[13]  W. Neil Charman,et al.  Comparison of the depths of focus with the naked eye and with three types of presbyopic contact lens correction , 1995 .

[14]  Fabian Conrad,et al.  Power profiles of single vision and multifocal soft contact lenses. , 2015, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[15]  W. Neil Charman,et al.  On the reliability of focimeter measurements ofsimultaneous-vision varifocal contact lenses , 1992 .

[16]  J. Sivak Optometry and vision science. , 1989, Optometry and vision science : official publication of the American Academy of Optometry.

[17]  Sotiris Plainis,et al.  Power Profiles of Multifocal Contact Lenses and Their Interpretation , 2013, Optometry and vision science : official publication of the American Academy of Optometry.

[18]  W. Neil Charman,et al.  Theoretical and practical factors influencingthe optical performance of contact lenses for the presbyope , 1990 .

[19]  Luc Joannes,et al.  Phase-shifting schlieren: high-resolution quantitative schlieren that uses the phase-shifting technique principle. , 2003, Applied optics.

[20]  David A. Berntsen,et al.  The assessment of automated measures of hydrogel contact lens refractive index , 2003, Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians.

[21]  Anthea M Burnett,et al.  Global vision impairment due to uncorrected presbyopia. , 2008, Archives of ophthalmology.

[22]  Klaus Ehrmann,et al.  Inherent Ocular Spherical Aberration and Multifocal Contact Lens Optical Performance , 2010, Optometry and vision science : official publication of the American Academy of Optometry.

[23]  In vitro power profiles of daily disposable contact lenses. , 2013, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[24]  Robert Montés-Micó,et al.  Repeatability of in vitro power profile measurements for multifocal contact lenses. , 2015, Contact lens & anterior eye : the journal of the British Contact Lens Association.

[25]  Magne Helland,et al.  Demographics of international contact lens prescribing. , 2010, Contact lens & anterior eye : the journal of the British Contact Lens Association.