impact of glare on driving performance in patients with blue-light filtering iols
DESCRIPTION
Impact of glare on driving performance in patients with blue-light filtering IOLs. W. Andrew Maxwell, MD, PhD Rob Gray, PhD. Disclosures: This study was funded by Alcon Research, Ltd, which also assisted with the preparation of these slides. Introduction. Purpose - PowerPoint PPT PresentationTRANSCRIPT
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W. Andrew Maxwell, MD, PhD
Rob Gray, PhDDisclosures:This study was funded by Alcon Research, Ltd, which also assisted with the preparation of these slides.Impact of glare on driving performance in patients with blue-light filtering IOLs
IntroductionPurpose
Assess the impact of glare in pseudophakic patients implanted with blue light filtering intraocular lenses
Study Design Two groups of subjects
Study group: Previously implanted (unilaterally or bilaterally) with AcrySof Natural (SN60AT)
Control group: Previously implanted (unilaterally or bilaterally) with AcrySof IOL (SA60AT)
Groups identical with the exception of blue-light filtering technology
Eligible subjects also had
Best Corrected Distance Visual Acuity better than -0.18 logMAR (20/30) A valid drivers license at the time of participation in the study
2STUDY PATIENTSParameterStudy Group:Blue light filtering IOLControl Group:Clear IOLSample size
(Men, Women)17
(6 Men, 11 Women)17
(8 men, 9 Women)Age71.6 8.6 yrs72.7 9.9 yrsDuration of Pseudophakia
(Range)69.14 9.82 months
(44 - 77 months)68.81 8.93 months
(55- 85 months)
3No statistically significant difference between study and control group for any of the above parametersAt 2 clinical sites, a total of 34 subjects provided driving performance measures.DRIVING SIMULATOR3 Components: Steering wheel, Pedals and three 19 LCD monitors positioned side by sideDriving performance in this simulator has been shown to correlate well with real-world driving in previous studies
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Methods: Subjects and ApparatusSubjects performed left turn maneuvers in front of an oncoming car
Measures repeated with a glare source (150 lux) positioned at an angle of 20 degrees above simulated road
Monocular testing and subjects were best corrected for test conditions
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STUDY VARIABLES NUMBER OF COLLISIONSDescribes the number of times (percentage) the participants car collided with the oncoming car.
INTERSECTION APPROACH SPEEDSpeed at which the participants car approached the intersection
LANE POSITION VARIANCEDescribes the variance in the position of the participants car when driving straight ahead on a lane6NUMBER OF COLLISIONS: NO GLARE7
NUMBER OF COLLISIONS: WITH GLARE8
NUMBER OF COLLISIONSIn no-glare conditions, no statistically significant difference was noted between study and control groups.
In the presence of glare, patients in the study group demonstrated significantly lower number of collisions with the on-coming car compared to controls
Within group effects showed control group had significantly more collisions in the presence of glare compared to no-glare conditions. 9
INTERSECTION APPROACH SPEED10Patients in the study group were significantly less impacted by glare as they approached the intersection compared to controlsLANE POSITION VARIANCEStudyControlp valueGlare0.1070.1260.0760.0560.391No Glare0.1440.2260.1030.0610.469Glare - No Glare0.0370.1080.0280.0270.64411Deviations (variance) about a mean lane position (expressed in meters) were not significantly different between control and study groupsDiscussion & ConclusionsKey finding: Compared to eyes with control IOLs, the patients with blue-filtering IOLs demonstrated a significantly better safe driving performance.
Proposed mechanism: The image of the oncoming car in the eye was dynamically changing (increasing in size) thereby creating a sensation of motion-in-depth. The light entering the eye from the glare source resulted in forward retinal scatter causing a reduction in the retinal image contrast. This resulted in misjudging (overestimating) the time taken by the car to reach the intersection causing unsafe left turns. Blue-filtering IOLs reduced glare, improved retinal image contrast and allowed a more accurate estimation of the oncoming car and this resulted in safe driving performance.
Real-world applications: Analogous situations could occur under day-time driving conditions (e.g. when driving towards the sun during sun-set). By improving disability glare, blue light filtering technology provide an improvement in driving performance as demonstrated in this study.
Read more at:Gray R, Perkins SA, Suryakumar R, Neuman B, Maxwell WA. Reduced effect of glare disability on driving performance in patients with blue lightfiltering intraocular lensesJ Cataract Refract Surg 2011;37:38-44Hammond BR, Renzi LM, Sachak S, Brint SF. Contralateral comparison of blue-filtering and non-blue-filtering intraocular lenses: glare disability, heterochromatic contrast, and photostress recovery. Clin Ophthalmol. 2010;4:1465-1473 12