Purpose: To compare the clinical accuracy of 5 modern toric intraocular lens (IOL) calculation formulas-Barrett, EVO, Naeser/Savini combined with Hoffer QST, Kane, and Abulafia-Koch combined with Hill RBF-in predicting postoperative refractive outcomes in cataract patients with astigmatism.
Design: Retrospective, comparative analysis of IOL formula accuracy.
Subjects: One hundred forty-six eyes from 146 cataract patients with toric IOL implantation.
Methods: Biometric measurements were obtained using the Lenstar LS900, with personalized surgically induced astigmatism values applied for each surgeon. Postoperative outcomes, including mean absolute prediction error (MAE), centroid error, and the proportion of eyes within a prediction error of ±0.50 D and ±0.75 D, were evaluated. Subgroup analyses were performed for with-the-rule (WTR), against-the-rule (ATR), and oblique astigmatism. Statistical significance was assessed using non-parametric and multivariate tests.
Setting: Eunpyeong St. Mary's Hospital, Seoul, Republic of Korea.
Results: No significant differences in MAE were observed among the formulas in the overall cohort (P > .05). The proportion of eyes with a prediction error ≤ ±0.50 D was highest for EVO (71.92%), followed by Kane and Abulafia-Koch with Hill RBF (70.55%), Naeser/Savini with Hoffer QST (69.18%), and Barrett (67.12%). Among ATR cases, EVO, Abulafia-Koch with Hill RBF, and Naeser/Savini with Hoffer QST demonstrated statistically lower MAEs compared to Barrett (P < .05).
Conclusion: All 5 toric IOL calculation formulas demonstrated excellent overall accuracy, with slight variations observed in specific subgroups. The EVO formula showed superior precision in ATR astigmatism. These findings provide real-world insights to enhance refractive outcomes and optimize formula selection in toric IOL surgery.
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