Research output: Contribution to journal › Article › peer-review
MODELING OF THE RESULTS OF LASER CORRECTION OF HYPEROPIA BY THE METHODS OF CLUSTER AND DISCRIMINANT ANALYSIS. / Корников, Владимир Васильевич; Бауэр, Светлана Михайловна; Давыденко, Богдан Николаевич; Пикусова, Светлана Михайловна; Куликова, И.Л.
In: Russian Journal of Biomechanics, Vol. 28, No. 2, 28.06.2024, p. 7–14.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - MODELING OF THE RESULTS OF LASER CORRECTION OF HYPEROPIA BY THE METHODS OF CLUSTER AND DISCRIMINANT ANALYSIS
AU - Корников, Владимир Васильевич
AU - Бауэр, Светлана Михайловна
AU - Давыденко, Богдан Николаевич
AU - Пикусова, Светлана Михайловна
AU - Куликова, И.Л.
PY - 2024/6/28
Y1 - 2024/6/28
N2 - Statistical methods are used to solve the problem of evaluating refractive results in patients The issue of optimizing refractive laser surgeries for hyperopia correction remains relevant, as current keratorefractive surgery methods for hyperopia are less predictable, effective, and stable compared to myopia correction. This non-randomized retrospective study includes the results of161 patients who underwent FemtoLASIK laser correction at the Cheboksary branch of National Medical Research Center "Eye Microsurgery". The average age of the patients was 41.9 years. Evaluations were conducted before surgery and on the third day postoperatively using standard examination methods, including uncorrected and bestcorrected visual acuity, refractometry, noncontact tonometry, biomicroscopy, keratotopography, anterior segment analyzer examination, and fundus examination, among other parameters. Through cluster and discriminant analyses, a "risk group" was identified, showing the least accuracy in postoperative spherical equivalent and the lowest visual acuity indicators. A rule was developed to categorize eyes into one of the groups.The best refractive outcomes were observed in the low-degree hyperopia group, while the "risk group" included patients with high-degree hyperopia, either alone or in combination with astigmatism. Pairwise comparisons indicated that cases from the "risk group" more frequently fell into groups with the highest (by absolute value) cylindrical component of refraction and the lowestspherical equivalent postoperatively, explaining the low uncorrected and best-corrected visual acuity indicators. High-degree hyperopia requires longer laser ablation time, which can lead to corneal dehydration and uneven ablation, as well as the induction of higherorder aberrations and astigmatism formation. Accommodative disorders in hyperopic patients may lead to prolongedmyopic refraction postoperatively. Correction of low and moderate hyperopia using FemtoLASIK shows more accurate results compared to high-degree hyperopia correction. To improve outcomes, it is necessary to consider the degree of hyperopia, age, accommodative apparatus tone,presence of optical correction, binocular interaction characteristics, and Kappa angle during surgery planning and postoperative management. These measures can lead to more predictable and stable results, reduce the risk of complications, and enhance patient satisfaction with the treatment.
AB - Statistical methods are used to solve the problem of evaluating refractive results in patients The issue of optimizing refractive laser surgeries for hyperopia correction remains relevant, as current keratorefractive surgery methods for hyperopia are less predictable, effective, and stable compared to myopia correction. This non-randomized retrospective study includes the results of161 patients who underwent FemtoLASIK laser correction at the Cheboksary branch of National Medical Research Center "Eye Microsurgery". The average age of the patients was 41.9 years. Evaluations were conducted before surgery and on the third day postoperatively using standard examination methods, including uncorrected and bestcorrected visual acuity, refractometry, noncontact tonometry, biomicroscopy, keratotopography, anterior segment analyzer examination, and fundus examination, among other parameters. Through cluster and discriminant analyses, a "risk group" was identified, showing the least accuracy in postoperative spherical equivalent and the lowest visual acuity indicators. A rule was developed to categorize eyes into one of the groups.The best refractive outcomes were observed in the low-degree hyperopia group, while the "risk group" included patients with high-degree hyperopia, either alone or in combination with astigmatism. Pairwise comparisons indicated that cases from the "risk group" more frequently fell into groups with the highest (by absolute value) cylindrical component of refraction and the lowestspherical equivalent postoperatively, explaining the low uncorrected and best-corrected visual acuity indicators. High-degree hyperopia requires longer laser ablation time, which can lead to corneal dehydration and uneven ablation, as well as the induction of higherorder aberrations and astigmatism formation. Accommodative disorders in hyperopic patients may lead to prolongedmyopic refraction postoperatively. Correction of low and moderate hyperopia using FemtoLASIK shows more accurate results compared to high-degree hyperopia correction. To improve outcomes, it is necessary to consider the degree of hyperopia, age, accommodative apparatus tone,presence of optical correction, binocular interaction characteristics, and Kappa angle during surgery planning and postoperative management. These measures can lead to more predictable and stable results, reduce the risk of complications, and enhance patient satisfaction with the treatment.
U2 - 10.15593/RJBiomech/2024.2.01
DO - 10.15593/RJBiomech/2024.2.01
M3 - Article
VL - 28
SP - 7
EP - 14
JO - РОССИЙСКИЙ ЖУРНАЛ БИОМЕХАНИКИ
JF - РОССИЙСКИЙ ЖУРНАЛ БИОМЕХАНИКИ
SN - 1812-5123
IS - 2
ER -
ID: 126026483