RU2475176C1 - Method for prediction of therapeutic effect of idiopathic macular rupture - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology and may be used for prediction of a therapeutic effect of idiopathic macular rupture. Preoperative retinal light sensibility is evaluated by microperimetry, and structural values of macular retina are determined by optic coherent tomography. The preoperative examination data are introduced into classifying formulas to predict a probability of the expected anatomic and functional effect of the vitreoretinal surgery.

EFFECT: method enables accurate prediction of the anatomic and functional effect of the vitreoretinal surgery for treating idiopathic macular rupture.

Description

The invention relates to medicine, namely to ophthalmology, and can be used to predict the results of treatment of idiopathic macular rupture (IIR).

PMI leads to a sharp decrease in the quality of vision and quality of life of patients and is often the cause of disability. The only effective treatment for UTI is vitreoretinal intervention, leading to anatomical closure in more than 90% of cases.

A known method for predicting the results of treatment of UTI (Gupta B, Laidlaw DA, Williamson TH, Shah SP, Wong R, Wren S. Predicting visual success in macular hole surgery. Br J Ophthalmol. 2009 Nov; 93 (11): 1488-91).

However, this method is used to predict only a functional effect and does not allow to predict the anatomical effect of treatment. The method takes into account only 3 parameters - the patient’s age, initial visual acuity with correction and the maximum diameter of the idiopathic macular gap in its internal section, which significantly limits the ability to predict.

The objective of the invention is to develop a method for predicting the results of the treatment of MI.

The technical result of the proposed method is to ensure the accuracy of prediction of the anatomical and functional effect of vitreoretinal intervention in the treatment of IIR.

The technical result is achieved by the fact that in a method for predicting the results of treatment of an idiopathic macular rupture, including measuring the maximum rupture diameter in microns, according to the invention, retinal photosensitivity data in dB are determined using microperimetry before surgery, and the thickness of the paraffeal retina in microns is measured using optical coherence tomography, the minimum the diameter of the idiopathic macular rupture in microns and the classification indicators of the anatomical and functional effect are calculated formula operations

S ₁ = -62.20 + 2.70 * x ₁ + 0.20 * x ₂ + 0.08 * x ₃ + -0.003 * x ₄ ,

S ₂ = -75.14 + 2.57 * x ₁ + 0.23 * x ₂ + 0.09 * x ₃ + -0.005 * x ₄ ,

S ₃ = -50.44 + 2.06 * x ₁ + 0.20 * x ₂ + 0.04 * x ₃ + 0.004 * x ₄ ,

S ₄ = -58.86 + 1.69 * x ₁ + 0.24 * x ₂ + 0.04 * x ₃ + 0.001 * x ₄ ,

where S ₁ - an indicator of the classification of a positive anatomical prognosis,

S ₂ - an indicator of the classification of negative anatomical prognosis,

S ₃ - an indicator of the classification of a positive functional forecast,

S ₄ - an indicator of the classification of negative functional prognosis,

x ₁ - the value of central photosensitivity, dB,

x ₂ is the thickness of the parafoveal retina, microns,

x ₃ - the minimum diameter of the idiopathic macular rupture, microns,

x ₄ - the maximum diameter of the idiopathic macular rupture, microns

and, if the value of S ₁ > S ₂ , then the prognosis of the anatomical effect of the operation is positive, if S ₂ > S ₁ , then the forecast is negative, if S ₃ > S ₄ , then the forecast of the functional effect of the operation is positive, and if S ₄ > S ₃ , then the forecast of the functional effect of the operation is negative.

Calculation according to the presented formulas allows predicting the anatomical and functional effect of vitreoretinal intervention in the treatment of UTI.

The method is as follows.

Before the operation, a complex of studies, including optical coherence tomography and microperimetry, is carried out for a patient with IMI.

Optical coherence tomography.

The patient is examined in a sitting position, the forehead and chin are fixed on the stops. The patient's gaze is fixed on the mark. Scanning of the IMR area with a linear resolution of at least 40 A-scans / mm. The dimensions of the scan area are at least 4 mm in diameter. Perform at least 6 linear (meridional) scans through the center of the idiopathic macular rupture. On the obtained scans, the dimensions of the idiopathic macular rupture are manually measured. The minimum diameter is the smallest size of the IMR between its edges. The maximum diameter is measured at the level of the retinal pigment epithelium and represents the largest size of the magnetic resonance imaging between its edges. According to the scan data using the analysis protocol designed for this purpose, a retina thickness map is constructed, and the macula is automatically in accordance with the ETDRS scheme (Early Treatment Diabetic Retinopathy Study Research Group. Photocoagulation for diabetic macular edema. ETDRS report number 1. Arch Ophthalmol 1985; 103; 103 : 1796-1806) is divided into 9 regions, including the central zone of 1 mm in diameter and the inner and outer rings with a diameter of 3 and 6 mm, each divided into 4 quadrants. On instruments for spectral OCT, scanning and analysis protocols designed for this purpose are used to obtain the indicated retinal thickness map. To implement the proposed method, the index of the thickness of the paraffeal retina is calculated as the arithmetic average of the data obtained in four quadrants of the inner ring of the map of the thickness of the retina with a diameter of 1 to 3 mm.

Microperimetry.

Before conducting the study, a detailed explanation of the steps for the upcoming procedure to the patient and a training study for 5 minutes is necessary. Microperimetry is carried out in a darkened room. The patient is examined in a sitting position, the forehead and chin are fixed on the stops. The patient's gaze is fixed on a cross mark. To determine the photosensitivity in the MRI zone, a program is used on the microperimeter, in which 45 points of eight degrees of the central field of view (field of view from 0 to 4 degrees from the fixation point) are studied using a stimulus of 0.43 degrees (Goldmann III) and a duration of 200 ms . In this program, 16 central points within 1 ° of the fixation point are spaced at a frequency of 0.5 °, outside this zone the distance between the points is 1 °. The result of the study is presented in the form of a photosensitivity map superimposed on the fundus picture. To implement the proposed method, the central photosensitivity is calculated at central 29 points within 2 ° of the center of the retina pattern, which is projected onto the zone with the most pronounced morphological changes (IMR and the surrounding cystic edema). The average value of photosensitivity is calculated by the device automatically after manually selecting these points.

The obtained data of the preoperative examination of the patient, namely, the minimum diameter of the idiopathic macular rupture, μm, the maximum diameter of the idiopathic macular rupture, μm, the thickness of the paraffeal retina, μm and central photosensitivity, dB, are entered into the classification formulas, which were calculated using Fisher's linear discriminant analysis , allowing with a certain probability to attribute the patient to one or another group of the expected effect. Classifying formulas for the anatomical effect of an operation:

Classifying formulas for the functional effect of an operation:

where S ₁ is the classification index of the positive anatomical prognosis, S ₂ is the classification index of the negative anatomical prognosis, S ₃ is the classification index of the positive functional prognosis, S ₄ is the classification indicator of the negative functional prognosis, x ₁ is the central photosensitivity value, dB, x ₂ is the thickness paravental retina, microns, x ₃ - the minimum diameter of the idiopathic macular rupture, microns, x ₄ - the maximum diameter of the idiopathic macular rupture, microns.

The positive anatomical effect of the operation is the complete closure of the IIR. The presence of one or more of the following symptoms is considered to be a positive functional result: an increase in corrected visual acuity, a decrease in the subjective level of complaints, an increase in the average value of central photosensitivity at 29 central points within 2 ° of the center of the retina pattern by at least 3 dB, disappearance of the central absolute scotoma , the shift of the fixation point is more than 100 μm towards the center of the fovea (RF patent No. 2383317 from 03/10/2010).

The forecast using the invention is determined in the following way: the data of the preoperative examination of the patient are entered into the formulas. After that, the classification indicators are calculated (S ₁ , S ₂ , S ₃ and S ₄ ). So, if the value of S ₁ > S ₂ , then the positive anatomical effect of the operation is predicted, and vice versa, if S ₂ > S ₁ , then the negative anatomical effect of the operation is predicted. Similarly, the forecast of the functional effect of the operation is determined. If S ₃ > S ₄ , then the forecast of the functional effect is positive, if S ₄ > S ₃ , then the forecast of the functional effect is negative.

To simplify the calculations, it is recommended to create a calculator matrix using a spreadsheet program such as Excel (MS Office), Calc (Open Office), etc. In the future, it is enough to enter the patient data into the appropriate cells, after which the classification indicators of the anatomical and functional effect of the operation are automatically calculated.

The method is illustrated by a clinical example.

Patient K., 60 years old. Diagnosis: Idiopathic macular rupture of the III stage. Corrected visual acuity 0.2. When analyzing preoperative microperimetry data, a central photosensitivity of 10.1 dB is determined, optical coherence tomography determines the thickness of the parafoveal retina 357 μm, the minimum magnetic resonance diameter is 420 μm, and the maximum magnetic diameter is 985 μm. These data are entered into the corresponding cells of the calculator matrix, after which classification indicators (S ₁ , S ₂ , S ₃ AND S ₄ ) are automatically calculated. Moreover, S ₁ = 67.115, S ₂ = 65.802, S ₃ = 62.506 and S ₄ = 61.674. Thus, we obtain that the value of S ₁ > S ₂ , therefore, the prognosis of the anatomical effect of the operation is positive; the value of S ₃ > S ₄ , therefore, the prognosis of the functional effect of the operation is also positive. Given a positive prognosis, vitreoretinal intervention for UTI is recommended for the patient.

According to the proposed method, a prediction was made of the results of 50 vitrectomy operations regarding PMI. The correct prognosis of the anatomical effect of the operation was determined in 47 cases (94%), the correct prognosis of the functional effect in 43 cases (86%).

The use of this method allows to predict the anatomical and functional effect of vitreoretinal intervention in the treatment of idiopathic macular rupture with an accuracy of 90.8 ± 4.2%. Prediction results will help the surgeon to adjust the patient to the expected result, and also not to take patients with a known unfavorable prognosis, so as not to take an unreasonable risk.

Claims (1)

A method for predicting the results of treatment of an idiopathic macular rupture, including preoperative measurement of the maximum diameter of an idiopathic macular rupture in microns, characterized in that the retina photosensitivity is determined using microperimetry, the thickness of the paraffeal retina in microns is measured using optical coherence tomography, the minimum diameter of the idiopathic macular rupture in microns and calculate the classification indicators of the anatomical and functional effect of the operation on f Formulas: S ₁ = -62.20 + 2.70 · x ₁ + 0.20 · x ₂ + 0.08 · x ₃ + -0.003 · x ₄ , S ₂ = -75.14 + 2.57 · x ₁ + 0.23 x ₂ + 0.09 x ₃ + -0.005 x ₄ , S ₃ = -50.44 + 2.06 x ₁ + 0.20 x ₂ + 0.04 x ₃ + 0.004 × ₄ , S ₄ = -58.86 + 1.69 × ₁ + 0.24 × ₂ + 0.04 × ₃ + 0.001 × ₄ ,
where S ₁ - an indicator of the classification of a positive anatomical prognosis;
S ₂ - an indicator of the classification of negative anatomical prognosis;
S ₃ - an indicator of the classification of a positive functional forecast;
S ₄ - an indicator of the classification of negative functional prognosis;
x ₁ - the value of central photosensitivity, dB;
x ₂ is the thickness of the parafoveal retina, microns;
x ₃ - the minimum diameter of the idiopathic macular rupture, microns;
x ₄ - the maximum diameter of the idiopathic macular rupture, microns,
and, if the value of S ₁ > S ₂ , then the prognosis of the anatomical effect of the operation is positive, if S ₂ > S ₁ , then the forecast is negative, if S ₃ > S ₄ , then the forecast of the functional effect of the operation is positive, and if S ₄ > S ₃ , then the forecast of the functional effect of the operation is negative.