RU17132U1 - DEVICE FOR LASER DIAPHANOSCOPY - Google Patents

Abstract

A contact type laser diaphanoscopy device comprising a light source, a working tip with a light transmitting element and a power source, characterized in that a semiconductor type coherent low-energy laser emitter is used as a light source, for example, helium-neon with a wavelength of 0.63 μm, and the working tip is made of fiber optic material.

Description

DESCRIPTION OF A USEFUL MODEL

Laser diaphanoscopy device

The invention relates to the field of medical equipment and, in particular, to the field of ophthalmology (class A 61 F 9/00).

In OttoLmaolsigiya widely known devices and devices for

diaphanoscopic staining and examination of the tissues of the eye of contact tin. A description of the design features of these devices is contained, for example, in a monograph by V.V. Volkova, A.I. Gorbanya, O.A. Dzhaliashvshsh: Clinical study of the eye using devices, publishing house Medicine, Leningrad Branch, 1971, pp. 103-106.

The most versatile in their capabilities are devices arranged in the form of a Lange scleral lamp manufactured by the domestic industry under the name Transilluminator based on an EO-61 electrophthalmoscope, as well as diaphanoscopes assembled with the help of special diaphanoscopic nozzles for domestic ophthalmoscopes OR -2M, OVSr, etc.

The device of all these devices is approximately the same: a light source (usually a light bulb) mounted opaque body. A lens condenser is installed in front of the light source, giving the beams a parallel appearance. A light-conducting glass cone, which acts as a light guide, is attached to the body. The inside of the cone has a mirror coating, protected from the outside with a lightproof coating. The luminous flux from the light source, reflected from the mirror walls of the fiber, leaves the bent top of the cone, which is led to the eye (tissue) under study. The operation of this device is more effective, the stronger the power of the light beam.

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However, an increase in the power of the light beam is associated with an increase in the dimensions of the device, although in practice portable devices with self-powered are undoubtedly more convenient and universal. This is a very significant factor for the rapid diagnosis of ocular pathology in patients with impaired transparency of the refractive media of the eye. Especially convenient is the use of these devices when examining bed patients, in almost any unequipped place, including in the field. It is these tasks that we tried to reprise in the design of our device.

The essence of our device is as follows: it is proposed to take commercially available laser pointers based on a semiconductor emitter as the basis of the device. In such a device, the light source (now monochromatic) is laser radiation, which significantly reduces the scattering of light and increases its power and brightness.

At the same time, there is no need to introduce a condenser in the design of the device in the form of a lens system, which simplifies it and simultaneously eliminates the additional scattering of light rays. Finally, instead of a glass light-conducting cone (although its use is also possible), fiber-optic material is used, which sharply reduces the radiation power loss with an increase in the efficiency of the diagnostic use of the device.

Experimental and clinical studies of the device convincingly proved that the energy of the laser pointer is enough to carry out all types of methods of ophthalmoscopic transmission known in ophthalmology, including transpalpebral study of light projection in patients with opacities of the refractive media of the eye.

In addition, using the proposed device, it is possible to determine entoptic phenomena and, in particular, the Purkinje phenomenon

(autoophthalmoscopy), the presence of which allows us to conclude that there are violations of the opto-nervous apparatus of the eye.

According to preliminary estimates, the serial cost of such a device will not exceed 250 - 300 rubles, that is, it will be available to the ophthalmologist of any medical diagnostic institution.

In figure 1. sectional view of such a device is shown. In case-1, a power supply is installed - 2, for example, three lithium batteries with a power of 1.5 volts each, and I supply power to a semiconductor emitter - 3. In principle, any other laser emitter can be used, since the color does not matter. A cone - 4 of fiber-optic material with a bent tip and an optical window - 5 is attached to the device body. The cone can be interchangeable, of various shapes to ensure all known types of translucency.

Currently, more than 100 patients have been tested using the prototype, confirming the high positive effect of the device, its simplicity and versatility.

Claims (1)

A contact type laser diaphanoscopy device comprising a light source, a working tip with a light transmitting element and a power source, characterized in that a semiconductor type coherent low-energy laser emitter is used as a light source, for example, helium-neon with a wavelength of 0.63 μm, and the working tip is made of fiber optic material.