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An alternative clinical routine for subjective refraction based on power vectors with trial frames
Author(s) -
María Revert Antonia,
Conversa Maria Amparo,
Albarrán Diego César,
Micó Vicente
Publication year - 2017
Publication title -
ophthalmic and physiological optics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.147
H-Index - 66
eISSN - 1475-1313
pISSN - 0275-5408
DOI - 10.1111/opo.12343
Subject(s) - refraction , subjective refraction , astigmatism , optics , optical power , mathematics , refractive error , physics , computer science , visual acuity , laser
Purpose Subjective refraction determines the final point of refractive error assessment in most clinical environments and its foundations have remained unchanged for decades. The purpose of this paper is to compare the results obtained when monocular subjective refraction is assessed in trial frames by a new clinical procedure based on a pure power vector interpretation with conventional clinical refraction procedures. Methods An alternative clinical routine is described that uses power vector interpretation with implementation in trial frames. Refractive error is determined in terms of: (i) the spherical equivalent (M component), and (ii) a pair of Jackson Crossed Cylinder lenses oriented at 0°/90° (J 0 component) and 45°/135° (J 45 component) for determination of astigmatism. This vector subjective refraction result ( VR ) is compared separately for right and left eyes of 25 subjects (mean age, 35 ± 4 years) against conventional sphero‐cylindrical subjective refraction ( RX ) using a phoropter. The VR procedure was applied with both conventional tumbling E optotypes ( VR 1) and modified optotypes with oblique orientation ( VR 2). Results Bland‐Altman plots and intra‐class correlation coefficient showed good agreement between VR , and RX (with coefficient values above 0.82) and anova showed no significant differences in any of the power vector components between RX and VR . VR 1 and VR 2 procedure results were similar ( p ≥ 0.77). Conclusions The proposed routine determines the three components of refractive error in power vector notation [M, J 0 , J 45 ], with a refraction time similar to the one used in conventional subjective procedures. The proposed routine could be helpful for inexperienced clinicians and for experienced clinicians in those cases where it is difficult to get a valid starting point for conventional RX (irregular corneas, media opacities, etc.) and for refractive situations/places with inadequate refractive facilities/equipment.