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Factors Potentially Affecting the Accuracy of Methods to Calculate Effective Refractive Power After Keratorefractive Sur

Factors Potentially Affecting the Accuracy of Methods to Calculate Effective Refractive Power After Keratorefractive Surgery. Helga P Sandoval, MD, MSCR, Amy S Nowacki, MS, Luis E Fern ández de Castro,MD, Kerry D Solomon, MD

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Factors Potentially Affecting the Accuracy of Methods to Calculate Effective Refractive Power After Keratorefractive Sur

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  1. Factors Potentially Affecting the Accuracy of Methods to Calculate Effective Refractive Power After Keratorefractive Surgery Helga P Sandoval, MD, MSCR, Amy S Nowacki, MS, Luis E Fernández de Castro,MD, Kerry D Solomon, MD Magill Research Center, Storm Eye Institute, Medical University of South Carolina. Disclosure: HP Sandoval-D: Alcon, Allergan, AMO; AS Nowacki-None; LE Fernández de Castro-D: Alcon, Allergan, AMO; KD Solomon–A,C,D: Alcon, Allergan, AMO, Advanced Medical Research, B&L, InSite Vision, Eyemaginations None of the authors has any financial interest in any product mentioned herein

  2. The problem • Making accurate measurements of corneal power after corneal refractive surgery. • Keratometry - assumes spherocylinder • To date, no reliable means to measure corneal power exists with modern diagnostic technology • Rely on fudge factor estimates of current formulas

  3. Methods to calculate IOL post-refractive surgery (RS) • Calculation of effective corneal power: • Pre-RS data needed: • Clinical history • Adjusted keratometry • Adjusted effective refractive power • No pre-RS data needed: • Modified Maloney Method • Hard contact lens over-refraction (HCLOR) • Corneal bypass method • IOL power adjustment methods: (need pre-RS data): • Feiz Mannis method • Masket method • Modified Masket method

  4. Purpose • To determine the accuracy and agreement of different methods used to calculate the effective corneal power and intraocular lens (IOL) power in patients post-keratorefractive surgery • To determine potential factors associated with the accuracy of these methods.

  5. Methods • Eyes that underwent myopic LASIK pre-cataract surgery were included. • The IOL power was calculated with the Holladay 2 formula and the effective refractive corneal power obtained from 3 methods: • Clinical history • Adjusted effective refractive power (adjEffRP) • Modified Maloney method • IOL power was also calculated with IOL power adjustment methods: • Masket • Modified Masket

  6. Methods • The previous IOL power was compared to the emmetropic IOL power back-calculated with the post-cataract manifest refraction and visual acuity using the secondary piggyback IOL option from the Holladay IOL consultant software. The IOL obtained with the Holladay R formula was added/subtracted to the implanted IOL to determine the emmetropic IOL power. • Factors evaluated included: • Age • Gender • Pre-refractive surgery: • Refraction • Keratometry • Axial length, • Anterior chamber depth • Lens thickness • White to white

  7. ResultsProportion of patients with varying levels of IOL calculation error by method

  8. Results

  9. Results

  10. Results If the two response variables are viewed as two independent ratings of the n subjects, the kappa coefficient equals +1 when there is complete agreement of the raters. When the observed agreement exceeds chance agreement, kappa is positive, with its magnitude reflecting the strength of agreement. Although this is unusual in practice, kappa is negative when the observed agreement is less than chance agreement. The agreement observed among the Adj EffRP, Masket and Modified Masket methods is significantly more than expected by chance.

  11. Simple Linear Regression • Historical method: • PreLASIK spherical equivalent: the higher the refractive error higher chance to overestimate IOL power • Modified Maloney method: • None of the factors were associated • Effective Refractive Power: • PreLASIK K: Steepest K associated with overestimation of IOL power

  12. Results • Masket method: • Age: Older age associated with underestimation of IOL power • PreLASIK K: Steepest K associated with overestimation of IOL power • PreLASIK spherical equivalent: higher refractive error associated with overestimation of IOL power • Modified Masket method: • Age: Older age associated with underestimation of IOL power • PreLASIK K: Steepest K associated with overestimation of IOL power • PreLASIK spherical equivalent: higher refractive error associated with overestimation of IOL power

  13. Reference Conclusions 1. Determining corneal power following keratorefractive surgery. Available at: http://doctor-hill.com/iol-main/keratorefractive.htm • Eff RP, Masket method and Modified Masket method most accurate methods in these series • Factors associated with overestimation or underestimation varied according to method • Small sample size • Further multivariate analysis required

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