SU1047463A1 - Apparatus for biomicrogonioscopy - Google Patents

Abstract

1. DEVICE FOR BISOCHICROGONIOSCOPY, containing a slit lamp, a front stop and a sleeve-frame. with a gonioscope located therein, in contrast to the fact that, in order to shorten the research process, it is equipped with a bracket and guide plates, the first of which is rigidly connected with the front stop and the second is mounted for movement along the first one, guide, and the sleeve-rim - in the latter. A device according to claim 1, in which case it is obvious that the scales are made on the first guide and the bracket. (L 4 Ot CO

Description

The invention relates to medicine. More specifically to ophthalmology, and can be used to study the angle of the anterior chamber, the extreme and middle periphery of the glacial bottom. A device for biomicro gonioscopy is known, comprising a slit lamp and gonioscope. The closest to the invention by technical essence and achievable positive effect is a device for biomicrorogonioscopy, containing a slit lamp, a front stop and a sleeve-frame, with a gonioscope 2 placed in it. A disadvantage of the known devices is the necessity of rearranging the fixing and fixing of the device on one or another vertical rack of the front stop of the slit lamp in accordance with the eye being examined, which requires time and reduces the productivity of research. In addition, the devices do not provide an accurate setting of the gonioscope in the center of the cornea, and during repeated examinations, the exact coordinates of the previous study. The purpose of the invention is to shorten the research process. This goal is achieved in that the device for bismicrogonioscopy, which contains a slit lamp, a front stop and a frame sleeve with a gonioscope placed in it, is equipped with a bracket and guides, the first of which are rigidly connected to the front stop, as well. The second one is mounted for movement along the first one, wherein the bracket is placed on the second guide, and the bush is in the last one. In addition, scales are made on the first guide and the bracket. In Fig.1 and 2 shows the device overall view. The device for biomicrogonioscopy contains a slit lamp (not shown) and a gonioscope 1 installed in hub-rim 2. The hub-rim is earthed in bracket 3 rotatably and has an elongated locking screw 4. The gonioscope is rigidly fixed in the hub-rim with the help of two three screws 5. The sleeve-rim consists of two flat disks, connected to each other, which form concentric radial sockets for the gonioscope and the bracket. Around the sleeve-frame is made of a circular coordinate scale 6 with zero to the right. The bracket 3 is hinged through the axis 7 in the sleeve 8 with the ability to re-evaluate in the sagittal plane. The sleeve 8 is rigidly connected to the guide 9, which is movably mounted on a horizontal rail. The sleeve 8 and the guide 9 have clamps 11 and 12. The guide 10 has a linear coordinate scale 13c with nuL in the middle, and in the guide 9 there is a window 14 with a gauge 15. The guide 10 is rigidly fixed with two pins 16 in the frontal plane to the forehead 17 of the front set 18 slit lamp. Such a solution provides for the movement and fixation of the gonioscope with the required accuracy in the sagittal and frontal planes, as well as its rotation and fixation in the bracket for both patient's eyes, which simplifies and enhances the research performance. The device works as follows. The patient's eyes to be examined are anesthetized with a few drops of any anesthetic. After that, the patient is seated in front of the slit lamp so that the slit of the illuminator and the biomicroscope are mounted on the anterior segment of the eye, and the expander is inserted. In order to insert the margin of the speculum into the lower arch, the patient is asked to look slightly up, apply the speculum edge to the eye block and offer to look slightly down, slightly lifting the upper eyelid, pushing the scleral portion under it, the speculum. The guide 9 is moved along the guide 10 to the value of the coordinates corresponding to 0.5 between the pupils, this position is fixed by fixer 12. In the index finger and thumb of the right hand (if the patient’s left eye is examined and the left hand is examined) the right eye) beyond the edge of the axis 7, move the bracket 3 with the gonioscope 1 (a three-mirror nozzle cone) until it touches the patient's cornea. After the contact surface of the gonioscope is in contact with the cornea, the axis 7. is fixed with the help of latch 11. The microscope and the slit are installed in one of the zones of the gonioscope (a three-mirror nozzle cone) and begin to examine the eye's transverse area. When a change is detected in the region of interest of the patient’s eye, the investigator records with which mirror of the Tongioscope and at what point on the coordinate scale B it is necessary to look for this change in subsequent studies. If it is necessary to examine the second eye, reposition the speculator and, using the coordinate scale 13, set the guide 9 according to the distance between the pupils and fix this position. Pro-,

Since the described manipulations begin to explore the other eye.

Due to the use of the proposed device, the hands of the investigator are freed, the gonioscope permutation is eliminated, the biomicrohoniscopy process is simplified and reduced by 20-25% as compared with the prototype.

Claims (2)

1. DEVICE FOR BIOMICRO-GONIOSCOPY, containing a slit lamp, a face stop and a sleeve-frame with a gonioscope placed in it, characterized in that, in order to shorten the research process, it is equipped with a bracket and guides, the first of which is rigidly connected to the front emphasis, and the second is installed with the possibility of moving along the first, while the bracket is placed on the second guide, and the sleeve sleeve in the last. 2. The device according to claim 1, characterized in that the scales are made on the first guide and bracket. SU, 1047463 barking ’Yu. Sleeve 8 and guide 9 have latches 11 and 12. A linear coordinate scale 13 with a zero in the middle is made on the guide 10, and a window 14 with a reference risk 15 is made in the guide 9. 10 is rigidly fixed using two pins 16 in the frontal plane to the forehead 17 of the facial installation 18. slit lamp. ¹ This solution provides the movement and fixation of the gonioscope with the necessary accuracy in the sagittal and frontal planes, as well as its rotation and fixation in the bracket for both eyes of the patient, which simplifies and increases the productivity of the study. The device operates as follows. The patient's eyes to be examined are anesthetized with a few drops of any anesthetic. After this, the examined patient is seated in front of the slit lamp so that the slit of the illuminator and biomicroscope are installed on the front segment of the eye, and the eyelid expands. In order to insert the edge of the eyelid expander into the lower arch, the patient is offered to look slightly upward, apply the edge of the eyelid expander to the eyeball and offer to look slightly downward, slightly pulling the upper eyelid, push the scleral part of the eyelid under it. The guide 9 is moved along the guide 10 to a coordinate value corresponding to 0.5 distance between the pupils, fix this position with the latch 12. Using the index finger and thumb of the right hand (if examining the patient’s left eye, and the left hand if examining the right eye) the edge of the axis 7, move the bracket 3 with gonioscos45 pom 1 (three-mirror nozzle cone) until it touches the cornea of the patient’s eye. After contact of the contact surface of the gonioscope with the cornea, the axis 7 is fixed using the latch 11. The microscope and slit are installed in one of the zones of the gonioscope (three-mirror nozzle cone) and begin to examine the region of interest of the eye. If changes are found in the patient’s eye area of interest, the researcher makes a record with which mirror of the gonioscope and in which place on the coordinate scale b it is necessary to search for this change in subsequent studies. If it is necessary to examine the second eye, the eyelid expander is rearranged and, on the coordinate scale 13, a guide 9 is set according to the distance between the erach- Pro10