RU2718322C1 - Method for differential diagnosis of optic nerve head drusen and congestive optic discs by optical coherent tomography-angiography - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to ophthalmology, and can be used for differential diagnostics of optic nerve head (ONH) drusen and congestive optic nerve (ON) discs. Perfusion density is measured in three topographic zones of ONH: central (Central), internal (Inner) and temporal quadrant of external zone (Outer temporalis) by method of optical coherent tomography of angiography by protocol Angiography Analysis: Angiography 6X6 mm. Based on the obtained data, the ONH perfusion coefficient is calculated by formula: ONH perfusion coefficient = (Perfusion Density Inner – Perfusion Density Central) / Perfusion Density Inner × 100. If the ONH perfusion coefficient is 16.3 to 22.3, the perfusion density of the central area is 0.398 to 0.428, the density of perfusion of the temporal quadrant of the external area is 0.435 to 0.455, ONH drusen are diagnosed. If the ONH perfusion coefficient is 29.5 to 34.5, the central perfusion density is 0.332–0.360, the density of perfusion of the temporal quadrant of the external area is 0.404 to 0.434, the stagnant ON discs are diagnosed.EFFECT: method provides differential diagnosis of ONH drusen and congestive ON discs by evaluating perfusion density in the ONH region.1 cl, 2 ex

Description

The invention relates to medicine, in particular to ophthalmology, and can be used for the differential diagnosis of friends of the optic nerve disc (optic nerve disc) and congestive optic nerve disc (ZN).

Druze DZN is an anomaly of development characterized by intercellular, hyaline, calcified formations located in the DZN. Druze DZN occur from 0.3% to 2.4% in the population. In most cases, Druze DZNs are asymptomatic for patients, but can cause a decrease in visual function.

ZN stagnant disks are an edema of the optic nerve disc resulting from an increase in intracranial pressure. Stagnant ZN disks are observed in 59-70.7% with brain tumors.

Druzes of optic nerve discs belong to benign ophthalmopathology, while stagnant discs of ZN require accurate diagnosis and urgent treatment, since the reasons that caused them are potentially dangerous for vision and life.

Differential diagnosis of drusen of optic disc and stagnant disks of ZN is complicated. The ophthalmoscopic picture of deep DZD friends is similar to the picture of stagnant ZN disks. The ophthalmoscopic method in the differential diagnosis of these ophthalmopathologies is subjective, and in each case the shape and size of the incidence of optic disc disease by different ophthalmologists are stated differently.

There are various objective methods for the differential diagnosis of drusen DZN and congestive DZN: fluorescence angiography (FAG), computed tomography (CT) of the orbits, ultrasound (ultrasound) of the eyeball. However, the above methods alone or in their various combinations, not in all clinical cases, allow differential diagnosis and confirm the diagnosis of DZN drusen or stagnant ZN disks.

The closest analogue is a method for differential diagnosis of drusen optic nerve disc and congestive optic nerve discs (Ioyleva E.E., Marchenkova T.A., RF patent No. 2203000), which is carried out using the video ophthalmological method on the optic head analyzer. This method allows you to determine objectively non-invasively the topography of the optic head, namely the following diagnostic criteria: excavation area, excavation volume, rim (neuroretinal girdle) area, rim volume, ratio of excavation area to the area of optic disc.

The disadvantages of this method are the complexity of the diagnostic process, a significant number of parameters to obtain a complete diagnostic picture, most of which must be calculated manually. The device for video ophthalmography does not allow to assess the perfusion density in the area of the optic nerve disc, which is an important differential diagnostic criterion, since for friends of the optic disc, in contrast to stagnant discs of the optic disc, an abnormal distribution of blood vessels in the optic nerve region is characteristic.

With the advent of the method of optical coherence tomography - angiography (OCT-A), it became possible to differentiate blood vessels from surrounding tissues at the entire scanning depth without the use of a contrast medium. It is possible to evaluate the perfusion density of the optic disc, to obtain layered information on the structure of the vasculature of the optic disc from superficial vessels to deep ones.

The objective of the invention is to create a reliable method for the differential diagnosis of drusen of optic disc and congestive disks of ZN using the modern method - OKT-A.

The technical result of the invention is to increase the accuracy of the method of differential diagnosis of drusen of disability and stagnant disks of ZN due to the possibility of evaluating the density of perfusion in the area of the disability.

The technical result is achieved by the fact that in the method of differential diagnosis of Druzi DZN and stagnant discs of ZN, according to the invention, the perfusion density (Perfusion Density) is measured in three topographic areas of DZN: central (Central), internal (Inner) and temporal quadrant of the outer zone (Outer temporalis ) by optical coherence tomography angiography protocol Angiography Analysis: Angiography 6X6 mm protocol, and on the basis of the obtained data, the perfusion coefficient of the optic disc is determined by the formula: perfusion coefficient of the optic disc = (Perfusion Density Inner - Perfusion Density Central) / Perfusion Density Inner × 100, and ec whether the perfusion coefficient of DZN is from 16.3 to 22.3, the density of perfusion of the central zone is from 0.398 to 0.428, the perfusion density of the temporal quadrant of the outer zone is from 0.435 to 0.455, then Druze of DZN is diagnosed; if the perfusion coefficient of DZN is from 29.5 to 34.5, the perfusion density of the central zone is from 0.332 to 0.36, the perfusion density of the temporal quadrant of the outer zone is from 0.404 to 0.434, then stagnant disks of ZN are diagnosed.

Perfusion Density is automatically calculated as an indicator of the proportional density of the vascular pattern and blood flow velocity, showing the total area of the perfused vasculature per unit area in the measurement area.

A theoretical prerequisite for the development of the proposed method was the examination of patients aged 18-60 years with a diagnosis of Druze DZN and congestive disks ZN.

The method is as follows. Optical coherence tomography with angiography function is performed on a Cirrus HD-OCT spectral optical coherence tomography (Carl Zeiss Meditec Inc) angiography function. The examination is carried out according to the standard method: the patient sits in front of the device, rests his head on the chin support, fixes his gaze on the point fixation (the patient sees a green fixation point on a black background in the form of a star). Then the subject is asked to blink and keep his eyes wide open, at this time the system of optical coherence tomography - angiography is built scans of images of optic arterial optic disc and high resolution peripapillary zone. Measurement of the perfusion density of opticonferencing discs is carried out according to the Angiography Analysis: Angiography 6X6 mm protocol followed by analysis of three zones: central (Central) - with a diameter of 1.0 mm, internal (Inner) - with an internal diameter of 1 mm outer - 3 mm, outer (Outer) - with an inner diameter of 3 mm and an outer 6 mm.In addition, the measurement of the density of perfusion of the optic disc in the inner and outer zones is carried out in four quadrants: upper (superior), nasal (nasalis), lower (inferior) ) and temporal (temporalis). The technique of frequency filtering of B-scans based on their intensity is used to create images with a detailed vascular network.

The method is illustrated by clinical examples:

Example 1. Patient M., 29 years old. Visual acuity of the left eye of 0.8. With computer perimetry, peripheral narrowing of the visual field in the upper temporal segment by 10 ° was revealed. The threshold of electrical sensitivity of the left eye was 50 μA, the electrical lability of 35 imp / sec. Fundus: optic nerve head disc promotes into the vitreous, monotonous, borders fused. When conducting OCT-A according to the proposed method, it was determined: the perfusion coefficient of DZN is 17.8, the perfusion density of the central zone is 0.41, the perfusion density of the temporal quadrant of the outer zone is 0.44. Given that the indicators are in the declared range, a diagnosis was made of Druze DZN.

To confirm the diagnosis, an additional computed tomography of the orbits was performed, in which calcifications were found in the projection of the optic nerves. The diagnosis of Druze DZN is confirmed. Subsequently, the patient was under the dynamic supervision of an ophthalmologist.

Example 2. Patient B., 45 years. Visual acuity with correction of the right eye - 0.9. Computer perimetry revealed multiple defects in the field of view. The threshold of electrical sensitivity is 60 μA, the electrical lability is 30 pulses / sec. The fundus of the eye: the optic disc is promoted to the vitreous, monotonous, the borders are fused. When conducting OCT-A according to the proposed method, it was determined: the perfusion coefficient of DZN is 33.2, the density of perfusion of the central zone is 0.34, the density of perfusion of the temporal quadrant of the outer zone is 0.42. Given that the parameters are included in the declared range characteristic of stagnant ZN disks, stagnant ZN disks were diagnosed.

Additionally, the patient underwent magnetic resonance imaging of the brain. Signs of increased intracranial pressure were identified. The estimated diagnosis of congestive ZN disks has been confirmed. Subsequently, the patient was observed by a neurologist.

Claims (1)

The method of differential diagnosis of friends of the optic nerve disk (optic nerve disc) and congestive optic nerve disc (optic nerve), characterized in that they measure the density of perfusion (Perfusion Density) in three topographic areas of the optic nerve disc: central (Central), internal (Inner) and temporal quadrant of the outer zone (Outer temporalis) by optical coherence tomography angiography protocol Angiography Analysis: Angiography 6X6 mm protocol, and on the basis of the obtained data, the perfusion coefficient of the optic disc is determined by the formula: perfusion coefficient of the optic disc = (Perfusion Density Inner - Perfusion Density Central) / Perfusion Density Inner × 100, and esl ONH perfusion ratio from 16.3 to 22.3, the density of the central perfusion zone from 0.398 to 0.428, a density perfusion temporal quadrant outer radius of 0.435 to 0.455, the optic disc drusen diagnosed; if the perfusion coefficient of DZN is from 29.5 to 34.5, the perfusion density of the central zone is from 0.332 to 0.360, the perfusion density of the temporal quadrant of the outer zone is from 0.404 to 0.434, then stagnant disks of ZN are diagnosed.