Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values
Maxwell G Rossip,1 Jordan Hastings,1 Hendrik Burwinkel,2 Elizaveta Lavrova,2 Ronny Steinbrenner,2 Nicolas Bensaid,2 David L Cooke,3 Seth M Pantanelli1 1Department of Ophthalmology, Penn State College of Medicine, Hershey, PA, USA; 2Carl Zeiss Meditec AG, Oberkochen, Germany; 3Great Lakes Eye Care, S...
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Dove Medical Press
2025-06-01
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| Series: | Clinical Ophthalmology |
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| author | Rossip MG Hastings J Burwinkel H Lavrova E Steinbrenner R Bensaid N Cooke DL Pantanelli SM |
| author_facet | Rossip MG Hastings J Burwinkel H Lavrova E Steinbrenner R Bensaid N Cooke DL Pantanelli SM |
| author_sort | Rossip MG |
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| description | Maxwell G Rossip,1 Jordan Hastings,1 Hendrik Burwinkel,2 Elizaveta Lavrova,2 Ronny Steinbrenner,2 Nicolas Bensaid,2 David L Cooke,3 Seth M Pantanelli1 1Department of Ophthalmology, Penn State College of Medicine, Hershey, PA, USA; 2Carl Zeiss Meditec AG, Oberkochen, Germany; 3Great Lakes Eye Care, St. Joseph, MI, USACorrespondence: Seth M Pantanelli, Department of Ophthalmology, Penn State College of Medicine, 500 University Drive, HU19, Hershey, PA, 17033, Tel +1717.531.5690, Fax +1717.531.5009, Email spantanelli@pennstatehealth.psu.eduPurpose: To investigate the relative performance of modern intraocular lens (IOL) power calculation formulas over a wide range of biometric parameters.Patients and Methods: Through the concept of emmetropization there exists a mean keratometry, anterior chamber depth, lens thickness, and white-to-white for a given axial length (AL). Using a database of biometric values from 2721 surgery naïve eyes, these relationships were modeled and used to create an artificial dataset of 170 eyes with an anatomically realistic distribution of biometric parameters. Biometric values for each artificial eye were entered into the ESCRS IOL power calculation website. The emmetropic IOL power was calculated for Barrett Universal II, Cooke K6, Kane, PEARL-DGS, HofferQST, EVO v2.0, and Hill-RBF v3.0. Separately, emmetropic IOL powers were calculated for the Zeiss AI formula. The disparity between the formulas was evaluated to determine the ALs at which they diverged.Results: For eyes with ALs between 22.5 and 28.1 mm, emmetropic IOL powers and spherical equivalent predictions differed by less than 0.25 D. Outside this range, spherical equivalent predictions differed by 0.25 D or more. At ALs < 19.5 mm the difference in emmetropic IOL power across the formulas exceeded 1.0 D.Conclusion: This work helped to identify an implementation error in Pearl-DGS, which was corrected in collaboration with the formula’s author. Cataract surgeons should consider that formula choice still has a clinically meaningful impact on refractive outcomes in eyes with axial lengths of < 22.5 mm and > 28.1 mm. We estimate that this may represent more than 10% of the population.Plain Language Summary: Cataract surgeons use IOL power calculation formulas to determine the optimal lens replacement for cataract surgery. These formulas rely on preoperative measurements such as the length of the eye and curvature of the cornea. Several modern formulas exist that can calculate IOL power and predict postoperative refraction accurately in eyes with average measurements. The purpose of this study was to investigate a broad range of eye measurements and show where these formulas still diverge in their predictions. The results of this study show that even modern formulas differ in their power calculations for eyes at extremes and reveal a degree of uncertainty for cataract surgeons when deciding the best-powered lens for patients with relatively long or short eyes.Keywords: biometry, cataract, axial length, IOL |
| format | Article |
| id | doaj-art-9fae6f78756a43cd833cb053a35c73fd |
| institution | Kabale University |
| issn | 1177-5483 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | Dove Medical Press |
| record_format | Article |
| series | Clinical Ophthalmology |
| spelling | doaj-art-9fae6f78756a43cd833cb053a35c73fd2025-08-20T03:27:10ZengDove Medical PressClinical Ophthalmology1177-54832025-06-01Volume 19Issue 120372045104317Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry ValuesRossip MG0Hastings J1Burwinkel H2Lavrova E3Steinbrenner RBensaid N4Cooke DLPantanelli SM5OphthalmologyOphthalmologyAdvanced DevelopmentAI&ML R&DProduct ManagementOphthalmologyMaxwell G Rossip,1 Jordan Hastings,1 Hendrik Burwinkel,2 Elizaveta Lavrova,2 Ronny Steinbrenner,2 Nicolas Bensaid,2 David L Cooke,3 Seth M Pantanelli1 1Department of Ophthalmology, Penn State College of Medicine, Hershey, PA, USA; 2Carl Zeiss Meditec AG, Oberkochen, Germany; 3Great Lakes Eye Care, St. Joseph, MI, USACorrespondence: Seth M Pantanelli, Department of Ophthalmology, Penn State College of Medicine, 500 University Drive, HU19, Hershey, PA, 17033, Tel +1717.531.5690, Fax +1717.531.5009, Email spantanelli@pennstatehealth.psu.eduPurpose: To investigate the relative performance of modern intraocular lens (IOL) power calculation formulas over a wide range of biometric parameters.Patients and Methods: Through the concept of emmetropization there exists a mean keratometry, anterior chamber depth, lens thickness, and white-to-white for a given axial length (AL). Using a database of biometric values from 2721 surgery naïve eyes, these relationships were modeled and used to create an artificial dataset of 170 eyes with an anatomically realistic distribution of biometric parameters. Biometric values for each artificial eye were entered into the ESCRS IOL power calculation website. The emmetropic IOL power was calculated for Barrett Universal II, Cooke K6, Kane, PEARL-DGS, HofferQST, EVO v2.0, and Hill-RBF v3.0. Separately, emmetropic IOL powers were calculated for the Zeiss AI formula. The disparity between the formulas was evaluated to determine the ALs at which they diverged.Results: For eyes with ALs between 22.5 and 28.1 mm, emmetropic IOL powers and spherical equivalent predictions differed by less than 0.25 D. Outside this range, spherical equivalent predictions differed by 0.25 D or more. At ALs < 19.5 mm the difference in emmetropic IOL power across the formulas exceeded 1.0 D.Conclusion: This work helped to identify an implementation error in Pearl-DGS, which was corrected in collaboration with the formula’s author. Cataract surgeons should consider that formula choice still has a clinically meaningful impact on refractive outcomes in eyes with axial lengths of < 22.5 mm and > 28.1 mm. We estimate that this may represent more than 10% of the population.Plain Language Summary: Cataract surgeons use IOL power calculation formulas to determine the optimal lens replacement for cataract surgery. These formulas rely on preoperative measurements such as the length of the eye and curvature of the cornea. Several modern formulas exist that can calculate IOL power and predict postoperative refraction accurately in eyes with average measurements. The purpose of this study was to investigate a broad range of eye measurements and show where these formulas still diverge in their predictions. The results of this study show that even modern formulas differ in their power calculations for eyes at extremes and reveal a degree of uncertainty for cataract surgeons when deciding the best-powered lens for patients with relatively long or short eyes.Keywords: biometry, cataract, axial length, IOLhttps://www.dovepress.com/relative-behavior-of-modern-intraocular-lens-power-calculation-formula-peer-reviewed-fulltext-article-OPTHbiometrycataractaxial lengthIOL |
| spellingShingle | Rossip MG Hastings J Burwinkel H Lavrova E Steinbrenner R Bensaid N Cooke DL Pantanelli SM Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values Clinical Ophthalmology biometry cataract axial length IOL |
| title | Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values |
| title_full | Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values |
| title_fullStr | Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values |
| title_full_unstemmed | Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values |
| title_short | Relative Behavior of Modern Intraocular Lens Power Calculation Formulas Across a Realistic Range of Biometry Values |
| title_sort | relative behavior of modern intraocular lens power calculation formulas across a realistic range of biometry values |
| topic | biometry cataract axial length IOL |
| url | https://www.dovepress.com/relative-behavior-of-modern-intraocular-lens-power-calculation-formula-peer-reviewed-fulltext-article-OPTH |
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