RU2639036C1 - Bath for ultrasonic biomicroscopic research of eye front section and peripheral structures - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: bath includes an inner container for immersion liquid as a truncated cone narrowing towards the base and two front surfaces with holes, one of which is used for paralimbal contact with the eye conjunctiva, and the hole the other surface is used to fill the bath container with fluid, where an ultrasonic sensor is placed to perform ultrasonic biomicroscopic research. On the expanded end surface of the bath, a flat ring is fixed, the outer diameter of which is greater than the outer diameter of the bath, and calibration is made with increments of no more than 30° along the outer end surface of the ring and its circumference.

EFFECT: high degree of accuracy in determination of the localization of the scanning zone in ultrasound studies.

2 dwg, 1 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used for ultrasound biomicroscopic examination of the anterior segment and peripheral structures of the eye.

A well-known bath for conducting ultrasonic biomicroscopic examination of the anterior segment and peripheral structures of the eye (bath of Accutome UBM Plus, USA for ultrasonic biomicroscopy), including an internal container for filling with immersion liquid in the form of a truncated cone narrowed to the base and two end surfaces with holes, one of which the bath contacts paralymbally with the conjunctival eye, and through the opening of the other end surface, the capacity of the bath of the immersion is filled the fluid in which the ultrasonic sensor is placed to perform ultrasonic biomicroscopic examination. The ultrasonic sensor located in the immersion fluid is held in a position perpendicular to the structures under study without touching the cornea. Turning the sensor around its axis, inspect the anterior segment of the eye in all meridians. The known device in its software has an indicator circle with a graduation (in the form of a clock), which serves to determine the localization of pathological or other areas necessary for studying, displayed on a fixed section of structures when examining the anterior segment and the periphery of the eye.

A disadvantage of the known bath is that when scanning the front segment of the eye in the planes along the meridians there are no labels for determining the orientation of the ultrasonic sensor, which does not allow to obtain accurate information about the direction of the scanning plane and compare it with the marking of the indicator circle. This makes it difficult to identify the exact objective localization of pathological changes in the structures of the eyeball.

In the study, subjectively, tentatively with a possible error, the approximate direction of the scanning plane is determined, which is fixed on the indicator circle. The only mark on the ultrasonic sensor allows you to set the sensor in its original position relative to the indicator circle on the monitor. All other positions are determined approximately relative to the starting position. Thus, each recorded section of structures corresponds to a certain subjectively obtained position on the indicator circle.

The claimed invention solves the problem of creating a bath with applied graduation in increments of not more than 30 °. The technical result obtained in this case consists in obtaining information about the localization of the scanning zone in planes along the meridians during ultrasound examination.

The graduation marking made on the outer end surface of the ring and its circumference corresponds to the clock on the dial and is similar to the marking on the indicator circle in the software of the UBM device, which allows you to compare the direction of the scanning plane along the meridians with the marking of the indicator circle on the monitor. When a scan is obtained in the plane along the meridian, its exact direction is determined by comparing the factory mark on the sensor, in this case indicating the direction of the scanning plane, with the markings on the bath ring, thereby objectively determining the scanning direction at a given time relative to the indicator circle. Due to this, the obtained scan of the pathological zone is stored with the exact value of the direction of the scanning plane. The present invention allows with a high degree of accuracy to determine the localization of the scan zone during ultrasound, which generally increases the efficiency of diagnosis.

The specified technical result consists in the fact that in the bath for conducting ultrasound biomicroscopic examination of the anterior segment and peripheral structures of the eye, including an internal container for filling with immersion fluid in the form of a truncated cone narrowed to the base and two end surfaces with holes, one of which the bath contacts paralymbally with conjunctival eye, and through the opening of the other end surface, the capacity of the bath is filled with liquid, in which an ultrasonic sensor for performing ultrasonic biomicroscopic examination, a flat ring is fixed on the expanded end surface of the bath, the outer diameter of which is larger than the outer diameter of the bath, and graduation is applied along the outer end surface of the ring and its circumference with a step of no more than 30 °.

The invention is illustrated by drawings, where

FIG. 1 - shows the proposed bath;

FIG. 2 is a view A in FIG. one.

The tray for conducting ultrasound biomicroscopic examination of the anterior segment and peripheral structures of the eye contains an internal container 1 for filling with immersion fluid and two end surfaces 2 and 3 with openings. One end surface 2 of the bath contacts paralymbally with the conjunctiva of the eye, and through the opening of the other end surface 3, the container 1 is filled with liquid, in which an ultrasound probe is placed during the study to perform ultrasonic biomicroscopic examination. A flat ring 4 is fixed on the expanded end surface 3 of the bath, the outer diameter of which is larger than the outer diameter of the bath, and graduation is applied on the outer end surface of the ring 4 and its circumference with a step of no more than 30 °.

The bath for conducting ultrasound biomicroscopic examination of the anterior segment and peripheral structures of the eye is used as follows.

To conduct an ultrasound biomicroscopic examination, the patient is placed in a supine position. Before the study, drip anesthesia is performed. Over the eyelids, a bath is brought into the conjunctival cavity until its end surface 2 comes in contact with the conjunctiva of the eye 2, orienting graduation marks on the outer end surface of the ring 4 and its circumference and corresponding to 3 and 9 hours, along the outer and inner corners of the palpebral fissure. Through the opening of the end surface 3 of the bath, the tank 1 is filled with immersion liquid. An ultrasonic transducer is lowered into a container 1 with immersion liquid. The ultrasonic sensor located in the immersion fluid is held in a position perpendicular to the structures under study without touching the surface of the eyeball. Turning the sensor around its axis, inspect the anterior segment of the eye in all meridians. When a pathological zone is detected, a scan is performed in the plane along the meridian, its exact direction is determined by comparing the factory mark on the sensor, in this case indicating the direction of the scanning plane, with the markings on the bath ring, thereby objectively determining the scanning direction at a given time relative to the indicator circle. Due to this, the obtained scan of the pathological zone is stored with the exact value of the direction of the scanning plane. A clinical example using the inventive device.

Patient D., born in 1964, complained of a sharp decrease in vision, redness, and pain in his left eye. From the anamnesis it became known that a week ago the patient received a blow to the left eye in everyday life.

VIS OS upon receipt of 0.01 s shp - 13.0 D = 0.1

IOP OS (pneumotonometer) = 7 mmHg

Objectively: OS - a mixed injection of the eyeball. The cornea is moderately swollen. The front camera is small, uneven. The moisture is clean. The pupil is wide, 5 mm, the reaction to light is weakened. Hemophthalmus in the vitreous. Reflex from the fundus is weakened. Details of the fundus are not visible due to edema of the cornea and partial hemophthalmus. During the ultrasound examination (B-scan), floating opacities in the vitreous body (hemophthalmus), a high detachment of the choroid in all departments were revealed.

Cycloscopy with the help of a three-mirror Goldman lens for examining the peripheral parts of the fundus and clarifying the localization of the ciliochoroidal detachment is impossible due to clouding of the optical media of the eye (cornea, hemophthalmus) and severe hypotension.

To conduct ultrasound biomicroscopic examination of the anterior segment and peripheral structures of the eye using the proposed bath, the patient was placed in a supine position. Before the study, drip anesthesia was performed once with a 0.5% solution of proxymethacaine. Over the eyelids, a bath was brought into the conjunctival cavity until its end surface 2 was contacted paralymbally with the conjunctiva of the eye, orienting the graduation marks on the outer end surface of the ring 4 and its circumference and corresponding to 3 and 9 hours, along the outer and inner corners of the palpebral fissure. Through the opening of the end surface 3 of the bath, the tank 1 was filled with immersion liquid. An ultrasonic transducer was lowered into a container 1 with immersion liquid. The ultrasound probe located in the immersion fluid was held in a position perpendicular to the structures under study without touching the surface of the eyeball. Turning the sensor around its axis, we examined the anterior segment of the eye in all meridians. The study revealed cyclodialysis in the internal department. In the planes along the meridians scans were performed. By comparing the factory mark on the sensor with the markings on the bath ring, it was revealed that cyclodialysis lasts from 8 to 10 hours.

The patient underwent surgical treatment - the release of suprachoroidal fluid with hemming of the ciliary body to the sclera strictly in the internal section from 8 to 10 hours according to ultrasound biomicroscopy.

When repeated ultrasound biomicroscopy was performed a day after the operation, a complete closure of the cyclodialysis gap was found. The vascular membrane is adjacent.

At discharge: VIS OS = 0.02 shp - 13.0 D = 0.3.

IOP OS (pneumotonometer) = 16 mmHg

Thus, the present invention has improved the effectiveness of treatment by improving the quality of the diagnosis of the anterior segment and peripheral parts of the eyeball, which allowed to establish the exact zone of localization of pathological changes in the eye structures.

Claims (1)

Tray for conducting ultrasound biomicroscopic examination of the anterior segment and peripheral structures of the eye, including an internal container for filling with immersion fluid in the form of a truncated cone narrowed to the base and two end surfaces with holes, one of which the bath contacts paralymbally with the conjunctival eye, and through the opening of the other end surface carry out the filling of the tank with liquid in which the ultrasonic sensor is placed to perform ultrasonic bio microscopic examination, characterized in that a flat ring is fixed on the expanded end surface of the bath, the outer diameter of which is larger than the outer diameter of the bath, and graduation is applied along the outer end surface of the ring and its circumference with a step of no more than 30 °.

Images