RU2388440C1 - Method of yag-laser fragmentation of cataract lens nucleus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology, and can be used for YAG-laser fragmentation of lens nucleus before cataract ablation by phaco-chop technique. Laser pulses are applied from lens centre to its periphery in three directions along embryonic joints until three planes of lens nucleus fracture are obtained, duration of each pulse constitutes 30 psec, energy in pulse is 1.5-2.5 mJ, number of pulses is 80-120.

EFFECT: method allows to facilitate stage of nucleus fracturing and reduction of energy parametres of ultrasonic impact on eye structures in course of cataract ablation by phaco-chop technique.

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Description

The invention relates to medicine, and more specifically to ophthalmology, and can be used for YAG laser fragmentation of the lens nucleus before cataract removal by phaco-chop.

The current stage of development of cataract surgery is characterized by a significant improvement in the technology of ultrasonic phacoemulsification.

However, despite the high results and technical equipment, the total energy of the ultrasound exposure used during the fragmentation of the nuclei of the cataract lenses can adversely affect the postoperative period and cause the development of various complications from the reactive structures of the eye.

Therefore, the development of ways to reduce the energy parameters of ultrasonic exposure does not lose its relevance.

There is a method of preliminary transcornal endocapsular YAG laser irradiation on the nuclei of cataract lenses (Tereshchenko A.V. Optimization of energy parameters of ultrasonic and laser cataract surgery using preliminary YAG laser irradiation on the nucleus of cataract lenses: Abstract of thesis ... Candidate of Medical Sciences. - M., 2002), including YAG laser exposure on the cataract lens nucleus. The disadvantages of this method are the formation of destructive changes in the form of "petals" and "bubbles", which makes the nucleus less dense and complicates its mechanical fragmentation during cataract removal by phaco-chop.

The objective of the invention is to develop a method of YAG laser fragmentation of the lens nucleus before cataract removal by phaco-chop.

The technical result of the proposed method is to facilitate the stage of breaking the nucleus and reducing the energy parameters of ultrasonic effects on the eye structures during cataract removal by phaco-chop.

The technical result is achieved due to the fact that laser pulses are applied in the planes of the embryonic sutures of the lens nucleus. At the same time, in the area of laser applications softening and delamination of the structure of the nucleus and formation of fault lines occurs, which ensures its free separation into three fragments during cataract removal by phaco-chop.

The method is as follows.

The YAG laser effect on the lens nucleus is carried out the day before cataract surgery under local anesthesia with 1% dicaine using a Goldman lens under medical mydriasis transcornally endocapsular, starting from the posterior parts of the nucleus with subsequent forward displacement. First, the beam of the YAG laser is focused at a distance of 1.0 mm from the back capsule in the central optical zone. Impulses are applied along the back surface of the lens from the center, gradually moving down, then from the center up. After filling the first layer of the lens with laser applications, the laser aiming beam is shifted anterior to 0.5 mm. In this plane, pulses are applied from the center of the lens to its periphery in three directions along the embryonic sutures. Subsequently, each time they advance anteriorly by a distance of 0.5 mm until all three planes are filled, respectively, to the embryonic sutures. At the end of the YAG laser fragmentation, three planes of fracture of the lens nucleus are obtained. The duration of each pulse is 30 ps, the energy per pulse is 1.5-2.5 mJ, the number of pulses is 80-120. The magnitude of the laser energy and the number of pulses directly depend on the degree of hardness of the lens nucleus.

The invention is illustrated by a clinical example.

Patient P., 73 years old, complained of decreased vision, a constant feeling of fog in front of her right eye for 3 years. Over the past 6 months, vision has especially deteriorated. She notes the possibility of reading near without glasses for the past 2 years, although since the age of 50 she has always used plus glasses to work near.

OD biomicroscopy data: the conjunctiva is pale pink, the cornea is transparent, the anterior chamber is medium, uniform, the pupil is 3 mm, a live reaction to light (in conditions of mydriasis 7 mm); moderate dystrophy of the pigment border; antero-cortical layers are transparent, amber-yellow turbidity in the nucleus is 4 degrees according to the Buratto classification. Reflex from the fundus is dim, details are not ophthalmoscopic. OS biomicroscopy data: the conjunctiva is pale pink, the cornea is transparent, the anterior chamber is medium, uniform, the pupil is 3 mm, a live reaction to light, slight dystrophy of the pigment border: in the lens, the initial clouding in the nucleus is 1 degree according to the Buratto classification. Fundus: optic nerve discs pale pink, clear boundaries, no focal changes in the macular zone, retinal arteries moderately tortuous, narrowed. Syndrome Salus 1 tbsp.

Survey data. Refraction: OD sph - 7.0 cyl - 1.25 ax42; OS sph - 1.25 cyl - 1.0 ax 12. Visus: OD 0.01 s - 7.0 = 0.1., OS 0.32 s - 1.5-0.6. IOP: OD, OS = 19 mmHg Biometry: OD = 21.95 mm, OS = 21.83 mm. B-scan revealed a slight destruction of the vitreous body, the membranes are adjacent. PEC OU = 80 μA (minor changes), EL OU = 35 Hz (normal).

The patient was diagnosed with immature cataract OD, initial cataract OS, hypertensive angiopathy OU.

Recommended treatment OD: Stage 1 - YAG laser phacofragmentation, Stage 2 - phacoemulsification of the cataract by phaco-chop with implantation of an intraocular lens.

The day before the cataract phacoemulsification, the patient underwent YAG laser fragmentation of the cataract lens nucleus. The total number of pulses required to form the fault lines is 120, the power of each pulse is 1.9 mJ, and the total energy is 228 mJ.

After YAG laser fragmentation, the eyes are calm, no reaction to laser exposure was noted. IOP 20 mmHg

Patient N., 75 years old, with similar changes in the lens, to which YAG laser fragmentation was not performed, was used as a control for a comparative assessment of the effectiveness of YAG laser fragmentation.

Phacoemulsification by cataract method with phaco-chop with implantation of an intraocular lens for both patients was performed by the same surgeon under stationary conditions under retrobulbar anesthesia. A scleroric corneal self-sealing incision was performed with a 2.4 mm diamond tool after preliminary conjunctival separation. After restoration of the anterior chamber, the visitor produced capsulorexis with a diameter of 5 mm. Hydrodissection and hydrodelineation were performed using balanced saline. In patient P., the core was chopped by chopper unhindered along the fault lines formed by the action of a YAG laser corresponding to the embryonic sutures of the lens. After removal of the core fragments, the cortical layers were aspirated bimanally. Patients were implanted with Acrysof IOL (Alcon). The conjunctival incision was sealed by coagulation.

In patient P., the power of ultrasound during fragmentation of the nucleus was 40% of the maximum power of the apparatus, in patient N. - 52%. The exposure in the first case is 103 s, in the second - 119 s.

Examination of patients the next day. Biomicroscopically in patient P., mild conjunctival hyperemia was noted in the area of the postoperative wound, the cornea was transparent in all layers, the folds of the descemet membrane were absent. The anterior chamber is uniform, deep, moisture is transparent. The pupil is 5 mm in diameter (median mydriasis). IOL in capsule bag, centrally. The fundus reflex is pink. IOP 20 mmHg Visual acuity with aperture of 0.8.

Patient N., operated without preliminary YAG laser fragmentation, revealed diffuse edema of the corneal epithelium during biomicroscopy, which indicated an increase in IOP. Postoperative descemetitis and local edema of the cornea in the tunnel area were also noted. In the moisture of the anterior chamber, the tyndall phenomenon 1 tbsp. 4 mm pupil (mydriasis medicament), IOL in a capsular bag, centrally. The reflex is pink. IOP palpation "+". Visual acuity with a diaphragm of 0.3 n / a.

According to the proposed method, preliminary YAG laser fragmentation of the cataract lens nucleus was performed in 8 patients. The duration of each pulse was 30 ps, the energy in the pulse was 1.5–2.5 mJ, and the number of pulses was 80–120. In all cases, the core fracture during phacoemulsification of the cataract by the phaco-chop method occurred unhindered, the ultrasound power during nuclear fragmentation was 25-28% lower than during the operation in patients who did not have preliminary YAG laser fragmentation of the cataract lens nucleus.

Thus, the inventive method provides the facilitation of the stage of breaking the nucleus and reducing the energy parameters of ultrasonic effects on the structures of the eye during cataract removal by phaco-chop.

Claims (1)

A method of YAG laser fragmentation of the cataract lens nucleus, including YAG laser irradiation of the cataract lens nucleus, characterized in that the laser pulses are applied from the center of the lens to its periphery in three directions along the embryonic sutures to obtain three planes of fracture of the lens nucleus, the duration of each pulse is 30 ps, the energy per pulse is 1.5-2.5 mJ, the number of pulses is 80-120.