RU2343884C1 - Method of determination of optical force of intraocular lens at extraction of cataract after excimer laser keratorefractive surgery - Google Patents

Abstract

FIELD: medicine; ophthalmology.

SUBSTANCE: method includes measurement of refraction of cornea, lengths of eye, prognosticated position of the intraocular lense (IOL) concerning the cornea top, led to cornea top the set ametropia pseudophakial eye and calculation of optical force of IOL under the formula. Determination of optical force make under formula Diol=(1336/(A-ACD-0.05))-(1.336/((1.336/Ks+R))-((ACD+0.05)/1000))) Diol - optical force of IOL, diopter.; ACD - prognosticated value of IOL position concerning cornea top; A - length of an eye, mm; R - the set ametropia of the pseudophakial eye led to cornea top; Ks=K (n-1)/(1.3375-1), where To - the refraction of a cornea measured value, diopter.; Ks - the modified value of optical force of a cornea; n=1.3331 - modified reduced indicator of diffraction of a cornea "IOL-MASTER", "Zeiss" company, Germany; ACD=pACD+0.3 (A - 23.5)+(tan K)² - (0.1 (23.5 - A)² (tan (0.1 (23.5-A)²))-0.99166 - prognosticated value of position IOL concerning cornea top; pACD personalised constant of IOL model; tan () - trigonometrical function of a tangent; R=RX / (1-0.012 Rx), where Rx - the set ametropia of the pseudophakial eye.

EFFECT: rising of accuracy of definition of optical force of intraocular lense.

1 ex

Description

The invention relates to medicine, more specifically to ophthalmology, and can be used to determine the strength of an intraocular lens during cataract extraction after excimer laser keratorefractive surgery.

In recent years, a significant number of cataract patients have appeared who underwent this or that refractive intervention, and their number continues to grow. If a few years ago, radial keratotomy (RK) occupied the leading position in the series of refractive operations, then photorefractive keratectomy (PRK) and laser keratomileusis (LASIK) currently comprise the vast majority of refractive interventions.

It should be noted that patients who underwent refractive interventions are especially demanding on the quality of vision and expect to receive high visual acuity without correction after cataract extraction. However, clinical experience has shown that the accuracy of calculating the strength of an intraocular lens (IOL) is a serious problem. Often, in such patients in the postoperative period, an undesirable shift of refraction to hyperopia is observed (Balashevich L.I. Refractive surgery. - St. Petersburg: Publishing House St. Petersburg. MAPO, 2002. - P. 38-39; Fedorov S.N. Implantation lens. - M .: Medicine, 1977. - 208 p.). According to most authors, this phenomenon is due to the incorrect determination of the refraction of the cornea by standard autokeratometers, which are prone to overstatement of keratometric indices. Another reason that causes refractive error after cataract extraction is the use of inappropriate formulas for calculating IOLs, as well as errors associated with biometric measurements (Holladay JT Intraocular lens power calculations for cataract and refractive surgery. In Refractive Surgery: Current Techniqurs and Management. New York : Igaku-Shoin, 1997 .-- P. 183-193.

A known method for determining the optical power of an intraocular lens (IOL) during intracapsular fixation for the correction of aphakia (Hoffer KJ The Hoffer Q formula; a comparison of theoretic and regression formulas. // J. Refract. Surg. - 1993. - Vol.19 - P. 700-712), including determining the radius of curvature of the anterior surface of the cornea, eye length, anterior chamber depth, the predicted position of the IOL relative to the top of the cornea, the predetermined ametropia of the artifact eye brought to the top of the cornea, and the optical power of the IOL (Diol) in the natural cornea is calculated by the formula

Diol = (1336 / (A-ACD-0.05)) - (1.336 / ((1.336 / K + R)) - ((ACD + 0.05) / 1000)))

ACD - the predicted value of the position of the IOL relative to the top of the cornea;

K is the measured value of the refraction of the cornea, diopters;

A - eye length, mm;

R - given to the apex of the cornea, the specified ametropia of the artifact eye;

However, when using this method to determine the optical power of an intraocular lens after excimer laser keratorefractive surgery, it was not taken into account that the outer surface of the cornea is flattened, while the inner surface remains almost unchanged. And also in the optical center, the thickness of the cornea decreases, therefore, the ratio of these parameters is determined by the standard refractive index (1.3333) used in most devices that evaluate only the front surface, which significantly reduces the accuracy of determining the optical power of the IOL after excimer laser keratorefractive surgery. The objective of the invention is to provide an effective method for determining the optical power of an intraocular lens during cataract extraction in the eyes after excimer laser keratorefractive surgery. The technical result is to increase the accuracy of determining the optical power of the IOL.

The technical result is achieved by the fact that in the method for determining the optical power of an intraocular lens, during cataract extraction in eyes undergoing excimer laser keratorefractive operations, including measuring corneal refraction, eye length, the predicted position of the IOL relative to the corneal apex, the predetermined ametropia of the artifact eye and the calculation of the cornea the optical power of the IOL according to the formula according to the invention, the calculation of the optical power is carried out according to the formula

Diol = (1336 / (A-ACD-0.05)) - (1.336 / ((1.336 / Ks + R)) - ((ACD + 0.05) / 1000)))

Diol - optical power of the IOL, diopter;

ACD - the predicted value of the position of the IOL relative to the top of the cornea;

A - eye length, mm;

R - given to the apex of the cornea, the specified ametropia of the artifact eye;

Ks = K (n-1) / (1.3375-1),

where K is the measured value of the refraction of the cornea, diopters;

Ks is the modified value of the optical power of the cornea;

n = 1,3331 - modified reduced index of refraction of the cornea "IOL-Master", the company "Zeiss" Germany;

ACD = pACD + 0.3 (A-23.5) + (tan K) ² - (0.1 (23.5-A) ² (tan (0.1 (23.5-A) ² )) - 0.99166 - the predicted value of the position of the IOL relative to the top of the cornea;

pACD - personalized IOL model constant;

tan () is the trigonometric function of the tangent;

R-RX / (1-0.012 Rx);

Rx is the given ametropia of the artifact eye;

An analysis of our data showed that the calculation of the optical power of the IOL according to the HofferQ formula, measurements on a non-contact biometer "IOL-Master", Zeiss, Germany, gives optimal accuracy in patients who underwent excimer laser keratorefractive surgery, if during the calculation as corneal refraction to accept not the measurement result "IOL - Master", Zeiss, Germany (reduced refractive index 1.3375), but the value decreased on average by 0.6 D with a corresponding increase in the optical power of the IOL.

After excimer laser refractive surgery, the thickness of the stroma decreases, along with this the average refractive index of the cornea.

If we take the refractive index n (n = 1.3331), then the refraction of the cornea K, measured on a keratometer with a reduced refractive index of 1.3375, must be recalculated by the formula

Ks-K (n-1) / (1.3375-1),

where K is the measured value of the refraction of the cornea,

Ks is the modified value of the optical power of the cornea;

n = 1.3331 - modified IOL-Master corneal refractive index, Zeiss, Germany, for corneal refraction values used in calculating the optical power of the IOL according to the HofferQ formula. Ultimately, the modified method for calculating the optical power of the IOL after an excimer laser refractive operation is as follows:

Ks = K 0.3331 / 0.3375 = 0.987 K

ACD = pACD + 0.3 (A-23.5) + (tan K) ² - (0.1 (23.5-A) ² (tan (0.1 (23.5-A) ² )) - 0.99166 - the predicted value of the position of the IOL relative to the top of the cornea;

pACD - personalized IOL model constant;

tan () is the trigonometric function of the tangent;

K is the measured value of the refraction of the cornea;

R = RX / (1-0.012 Rx) - the given ametropia of the artifact eye reduced to the apex of the cornea;

The method for determining the optical power of the IOL in cataract surgery on eyes undergoing excimer laser keratorefractive surgery according to the invention is illustrated by a specific example.

Example. Patient B., 38 years old. Diagnosis: Right eye - complicated cataract, high myopia. History: in 1993, LASIK surgery was performed on the right eye for a high degree of myopia. Instrumental examination: Vis at admission 0.03 sph - 18.0 = 0.1 does not correct (n / a). According to the invention, the refraction of the cornea was measured and its optical power was determined: K = 34.75 diopters, eye length A = 29.37 mm. For implantation, IOL was selected from hydrophilic acrylic Aqua Sense (Rumex, CLLIA). According to the invention, the optical power of the IOL was determined as follows:

Ks = 34.75 (1.3331-1) / (1.3375-1)

Ks = 34.29

ACD = 118.2 + 0.3 (29.37-23.5) + (tan K) ² - (0.1 (23.5-29.37) ² (tan (0.1 (23.5-29.37) ² )) - 0.99166

ACD = 6.125

R = -1.0 / (1-0.012 (-1.0))

R = 1.002

thus the optical power of the IOL

Diol = (1336 / (29.37-6.125-0.05)) - (1.336 / ((1,336 / 34.29 + 1)) - ((6.125 + 0.05) / 1000)))

Diol = 17.85 diopter

06.06.2006 produced FEK + IOL (Rumex) + 18 diopters. The intra- and postoperative period was uneventful. VIS after surgery: 0.4 sph - 0.25 = 0.7 n / k.

Claims (1)

A method for determining the optical power of an intraocular lens (IOL) during cataract extraction, including measuring corneal refraction, eye length, the predicted position of the IOL relative to the top of the cornea, the predetermined ametropy of the artifact eye brought to the top of the cornea, and calculating the optical power of the IOL according to the formula, characterized in that the determination of optical forces are produced by the formula
Diol = (1336 / (A-ACD-0.05)) - (1.336 / ((1.336 / (Ks + R)) - ((ACD + 0.05) / 1000)))
Diol - optical power of the IOL, diop .;
ACD - the predicted value of the position of the IOL relative to the top of the cornea;
A - eye length, mm;
R - given to the apex of the cornea specified ametropia of the artifact eye;
Ks = K (n-1) / (1.3375-1),
where K is the measured value of the refraction of the cornea, diopters;
Ks is the modified value of the optical power of the cornea;
n = 1,3331 - modified reduced index of refraction of the cornea "IOL-Master", the company "Zeiss"Germany;
ACD = pACD + 0.3 (A-23.5) + (tan K) ² - (0.1 (23.5-A) ² (tan (0.1 (23.5-A) ² )) - 0.99166 - the predicted value of the position of the IOL relative to the top of the cornea;
pACD - personalized IOL model constant;
tan () is the trigonometric function of the tangent;
R = RX / (1-0.012 Rx);
Rx is the given ametropia of the artifact eye.