Comparative analysis of clinical and functional results of sublamellar keratoablation using solid-state and excimer laser devices

Nataliya V. Maychuk; Майчук Наталия Владимировна; Nataliya V. Maychuk; Alexander V. Tikhov; Тихов Александр Викторович; Alexander V. Tikhov; Khristo P. Takhchidi; Тахчиди Христо Периклович; Khristo P. Takhchidi; Nazir Sh. Sarkhadov; Сархадов Назир Шихмирзаевич; Nazir Sh. Sarkhadov; Ilya S. Malyshev; Малышев Илья Сергеевич; Ilya S. Malyshev

doi:10.17816/OV633104

Comparative analysis of clinical and functional results of sublamellar keratoablation using solid-state and excimer laser devices

作者: Maychuk N.V.¹^,2, Tikhov A.V.³, Takhchidi K.P.⁴, Sarkhadov N.S.¹, Malyshev I.S.¹^,4
隶属关系:
1. YourMed Federal Center of Ophthalmology and Eye Microsurgery
2. N.N. Burdenko National Scientific and Practical Center for Neurosurgery
3. A. Tikhov Laser Eye Microsurgery Clinic
4. Pirogov Russian National Research Medical University
期: 卷 17, 编号 4 (2024)
页面: 77-86
栏目: In ophthalmology practitioners
URL: https://ogarev-online.ru/ov/article/view/280532
DOI: https://doi.org/10.17816/OV633104
ID: 280532

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BACKGROUND: The most popular method of keratorefractive surgery is sublamellar valve technology. It is known that excimer laser systems, which are widely used and are the gold standard in keratorefractive surgery, have a number of disadvantages. Alternative sources of UV radiation generation are solid-state laser systems, in particular the domestic Olimp 2000/213 laser, which previously had no experience in femto-assisted sublamellar surgery.

AIM: To evaluate clinical and functional results of correction of mild, moderate and high myopia using sublamellar keratomileusis technology, performed using the Schwind Amaris 1050 rs excimer laser and the Olimp 2000/213 solid-state ablative laser.

MATERIALS AND METHODS: 190 patients (190 eyes) with stationary myopia were examined and operated on. The follow-up period was 1 year after surgery. The main group consisted of patients who underwent myopia correction using sublamellar keratoablation technology using a solid-state laser Olimp 2000/213 — 92 eyes. The control group consisted of patients after FemtoLASIK, in whom ablation was performed using a Schwind Amaris 1050 rs laser (98 eyes). A comparative analysis was carried out according to modern criteria for refractive surgery.

RESULTS: 190 patients (190 eyes) with stationary myopia were examined and operated on. The follow-up period was 1 year after surgery. The main group patients underwent myopia correction using sublamellar keratoablation technology using a solid-state laser Olimp 2000/213 — 92 eyes. The control group consisted of patients after FemtoLASIK correction, in whom ablation was performed using a Schwind Amaris 1050 rs laser (98 eyes). A comparative analysis was carried out according to modern criteria for refractive surgery.

CONCLUSIONS: The analysis of the clinical and functional results of myopia correction using the technology of sublamellar keratoablation, performed using the Olimp 2000/213 solid-state ablative laser and the Schwind Amaris 1050 rs excimer laser, showed a high comparability of the technologies.

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keratorefractive surgery, ametropia, FemtoLASIK, solid-state laser, excimer laser, myopia, comparative analysis, vision correction

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作者简介

Nataliya V. Maychuk

YourMed Federal Center of Ophthalmology and Eye Microsurgery; N.N. Burdenko National Scientific and Practical Center for Neurosurgery

编辑信件的主要联系方式.
Email: drmaichuk@yandex.ru
ORCID iD: 0000-0001-8740-3766
SPIN 代码: 8626-6763

MD, Cand. Sci. (Medicine)

俄罗斯联邦, Moscow Region, Khimki; Moscow

Alexander V. Tikhov

A. Tikhov Laser Eye Microsurgery Clinic

Email: j33@mail.ru
ORCID iD: 0009-0002-8719-951X
SPIN 代码: 7593-1232
俄罗斯联邦, Yaroslavl

Khristo P. Takhchidi

Pirogov Russian National Research Medical University

Email: hpt1301@gmail.com
ORCID iD: 0009-0000-3545-9899
SPIN 代码: 7699-5089

MD, Dr. Sci. (Medicine), Professor, Academician of the Russian Academy of Sciences

俄罗斯联邦, Moscow

Nazir Sh. Sarkhadov

YourMed Federal Center of Ophthalmology and Eye Microsurgery

Email: uro-sarkhadov@mail.ru
ORCID iD: 0009-0004-3528-4733

MD, Cand. Sci. (Medicine)

俄罗斯联邦, Moscow Region, Khimki

Ilya S. Malyshev

YourMed Federal Center of Ophthalmology and Eye Microsurgery; Pirogov Russian National Research Medical University

Email: malyshev_science@mail.ru
ORCID iD: 0000-0002-1035-1037
SPIN 代码: 2840-8508
俄罗斯联邦, Moscow Region, Khimki; Moscow

参考

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Ren QS, Gailitis RP, Tompson KP, Lin JT. Ablation of the cornea and synthetic polymers using a UV (213 nm) solid state laser. IEEE J Quantum Electron. 1990;26(12):2284–2288. doi: 10.1109/3.64366
Ren Q, Simon G, Parel JM. Ultraviolet solid-state laser (213-nm) photorefractive keratectomy. In vitro study. Ophthalmology. 1993;100(12):1828–1834. doi: 10.1016/s0161-6420(93)31390-4
Swinger C, Lai S, Johnson D, et al. Surface photorefractive keratectomy for correction of hyperopia using the Novatec laser — 3 months follow-up. Investigete Ophthalmol Vis Sci. 1996;37: S55.
Pajic B, Pajic-Eggspuehler B, Cvejic Z, et al. First clinical results of a new generation of ablative solid-state lasers. J Clin Med. 2023;12(2):731. doi: 10.3390/jcm12020731
Tikhov AV, Tikhov AO, Suslova AYu, Suslov SI. Ten-year experience of solid-state laser technology application in refractive surgery. Modern Technologies in Ophthalmology. 2017;(6):206–208. (In Russ.) EDN: ZQTWWP
Petroll WM, Goldberg D, Lindsey SS, et al. Confocal assessment of the corneal response to intracorneal lens insertion and laser in situ keratomileusis with flap creation using IntraLase. J Cataract Refract Surg. 2006;32(7):1119–1128. doi: 10.1016/j.jcrs.2006.01.093
Maychuk NV, Mushkova IA, Obraztsova MR. Do we have a place for non-steroidal anti-inflammatory drugs in corneal refractive surgery? Ophthalmology in Russia. 2021;18(3):539–545. EDN: ECQEIM doi: 10.18008/1816-5095-2021-3-539-545
Eremenko AI, Yanchenko SV. The epidemiology of “dry eye” syndrome in patients getting on in years. Bulletin of New Medical Technologies. 2009;16(1):150. EDN: LAMVIR
Tsubota K, Yokoi N, Shimazaki J, et al. New perspectives on dry eye definition and diagnosis: a consensus report by the Asia dry eye society. Ocul Surf. 2017;15(1):65–76. doi: 10.1016/j.jtos.2016.09.003
Eskina EN, Belogurova AV, Parshina VA, Movsesian MKh. Predictability of the refractive effect after laser correction. Determining factors. Review. Ophthalmology in Russia. 2023;20(1):41–52. EDN: BYFHEE doi: 10.18008/1816-5095-2023-1-41-52
Solodkova EG, Fokin VP, Balalin SV. To the question of stability of refractive result after excimer laser correction of myopia. Journal of Volgograd State Medical University. 2018;(1):78–81. EDN: YUMLOJ doi: 10.19163/1994-9480-2018-1(65)-78-81
Maychuk NV, Mushkova IA. Screening methods for the hypoxic keratopathy evaluation in the refractive surgery. Ophthalmology in Russia. 2016;13(3):169–177. EDN: XGVNZB doi: 10.18008/1816-5095-2016-3-169-177
Maychuk DYu, Tarkhanova AA, Pronkin IA. Ophthalmic products with extracellular matrix components. Their effectiveness in the process of corneal repair in neurotrophic, herpetic, recurrent keratitis and erosions. Fyodorov Journal of Ophthalmic Surgery. 2022; (2):91–100. EDN: UTJFNG doi: 10.25276/0235-4160-2022-2-91-100

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2. Fig. 1. Eyes of patients 1 hour after FemtoLASIK surgery

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3. Fig. 6. Predictability of the refractive result of the FASA group

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4. Fig. 7. Predictability of the refractive result of the FemtoLASIK group

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5. Fig. 2. Hit the target refraction (SE = ±0.5) after 1 month according to the study data

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6. Fig. 3. Epithelial chart of a patient with high myopia and regression of the refractive effect: a — before surgery; b — 1 month after surgery; c — after 3 months; d — after 6 months; e — after 1 year