RU175913U1 - FRONT EYE SEGMENT LIGHT - Google Patents

Abstract

This useful model relates to medicine, in particular to ophthalmology, toxicology, psychophysiology and can be used in studies of the anterior segment of the eye, including pupillary reactions of the eye (pupillometry).

The illuminator includes a hood as a limiter of the external light flux, an additionally introduced matte reflector to form uniform illumination of the anterior segment of the eye with diffused light, and emitters - white and infrared LEDs, a protective screen against direct light. The emitters are evenly distributed in a circle in alternating order. The emitter control unit allows you to control the operation of the emitters programmatically, with the ability to set the operating modes of the emitters programmatically, for monochromatic lighting with a wavelength of 671 nm, with a wavelength of 546 nm and 435 nm. These filters can be used separately, sequentially or in combination.

Description

This useful model relates to medicine, in particular to ophthalmology, toxicology, psychophysiology and can be used in studies of the anterior segment of the eye, including photo and video recording of pupillary reactions of the eye.

The analogue is known: a method and a device — a method for registering pupillary reactions and a device for its implementation (RF patent No. 2123797, 12/27/1998, A61B 3/113). The device for recording pupil reactions contains a fixator for the head of the subject, an infrared illuminator for illuminating the eyes of the subject, a registrar of reflected light flux, a computer and a video monitoring device that stores and processes each image frame in digital form.

The disadvantage of this analogue is the lack of standardization of lighting conditions, the direct nature of the lighting, which creates the effect of glare on the surface of the cornea and mucous membrane of the eye, the absence of a protective hood, which requires dimming conditions during the examination.

An analogue is a device for registering a pupil reflex (RF patent No. 2066971, 09/27/1996, АВВ 3/10). A device for recording a pupil reflex, comprising a illuminator unit, a viewfinder unit and a projection unit, optically and mechanically interconnected, a light stimulation unit optically coupled to the optical axis of the projection unit, an electronic unit electrically coupled to the light stimulation unit, an illuminator unit, a projection photodetector the unit and the electron-optical converter of the viewfinder unit, characterized in that the illuminator unit is made in the form of a set of infrared LEDs placed on an annular frame rigidly connected to the lens of the projection unit and optically conjugated with the subject’s eye, and the light stimulation unit is an LED operating both in the background illumination mode and in the pulsed light flash mode, in the optical axis of which there is a plate with a fixation point made at the intersection in the optical axis of the projection block, the light stimulation block and the visual axis of the subject. The disadvantage of this analogue is the presence of a direct point source of light, which creates a large unevenness of lighting, the effect of light, glare, there is no possibility of monochromatic lighting.

The closest analogue is the patent “Non-contact pupillometer for screening diagnostics of the functional state of the organism and the method of its use” (RU 2604938, 03/06/2015). A non-contact pupillometer for screening diagnostics of the functional state of the body includes a housing, holder, emitter, receiver, temperature sensor, camera, housing, position indicator, two infrared (IR) LEDs, a red LED, a white light source, an ambient light sensor, and a computer with software. The housing is made of complex shape, which can conditionally be divided into two surfaces forming a visor and enclosing sides. The front end side of the visor of the housing has a concave shape, that is, in the plan it is represented by an arc, in the center of which a temperature sensor is installed, and the emitter and receiver are symmetrically placed at the edges, so that the luminous flux of the emitter goes directly to the receiver. The emitter is represented by a photoelectric sensor generating light flux. The receiver is represented by a photoelectric sensor receiving light flux from the emitter. The temperature sensor is an infrared thermometer that provides non-contact temperature measurement. In the inner part of the enclosing sides of the case, in the center there is a camera in the casing and a position indicator, and two IR LEDs are mounted on the sides opposite the camera. The casing is made of a material that can evenly distribute light. The position indicator is located above the camera and is made of material, the surface of the profile side of which has a reflective ability, with a degree of clarity sufficient to reflect the contours of the eyes. Two IR LEDs operate in the infrared range, while performing the function of continuous continuous illumination of the right and left eye, respectively. At the top of the case is a light sensor. On the back wall of the casing behind the camera are a red LED and a white light source. When the luminous flux from the emitter to the receiver is blocked, a red LED is activated. The enclosing sides of the case, together with the visor, as well as with two IR LEDs and a light sensor, create and measure the background lighting condition. Moreover, a non-contact method for screening diagnostics of the functional state of an organism includes a pre-investigation stage, a research stage, and a final stage.

Significant disadvantages of the above similar analogue are the use of focal illumination of the anterior segment of the eye and the pupil area, which causes the presence of glare due to reflection from the cornea of light fluxes, the area of which largely depends on the size of the light source. The presence of glare significantly reduces the information content of biomicroscopy and pupillometry methods. Glare when receiving an image of the anterior eye and pupillometry have the appearance of “white spots”, beyond which the structures located deeper are not differentiated, namely, the pupil, iris and lens.

The objective of the utility model is to create a illuminator for obtaining images of the anterior segment of the eye and pupillometry, the positive effect of its use is to provide standardized illumination with white light or monochromatic lighting with a wavelength of 671 nm, with a wavelength of 546 nm and 435 nm, eliminating glare from the cornea that significantly increases the information content of data and diagnostic signs, provides noise elimination in the resulting photo or video in the form of glare from light sources.

The technical result of the invention is expressed in improving the accuracy of measurements and objectification of the study, as well as reducing the time of examination and the complexity of eliminating glare from light sources.

The solution to this problem is achieved by using an illuminator of its own design. It is a block fixed to the optical system and having light flux emitters (LEDs) evenly spaced around a circumference, a reflector having the form of a truncated torus with a matte reflector, and a protective screen that does not allow direct illumination of the anterior part of the eye. The luminous flux is directed at the opaque reflector and ensures uniform lighting, as well as the absence of glare on the cornea. It is possible to use polarized light; for this, polarization filters are installed for monochromatic lighting with a wavelength of 671 nm, with a wavelength of 546 nm and 435 nm.

The illuminator for the anterior eye and pupillometry contains a control unit for emitters and a power source located in a single housing, made in the form of a nozzle on a photo-video recording unit. To connect the device to the photo-video recorder, special holding grooves are used. To obtain an image, the lens and the camera matrix of the image registration device are used. The illuminator, including a hood, an opaque reflector, emitters - white and infrared LEDs, a protective screen against direct light, is made according to a scheme in which the front segment of the eye is illuminated with diffused light to eliminate glare when shooting. The shape of the reflector is made in such a way that forms uniform illumination of the anterior segment of the eye. The emitters are evenly distributed in a circle in alternating order. To exclude external illumination of the eye structures, an external light flux limiter is used - a hood, which has the shape of a circle. The proposed design of the illuminator for obtaining images of the anterior segment of the eye and pupillometry allows illumination of the anterior segment of the eye reflected by diffused light, to prevent external illumination of the eye structures, an external light flux limiter is used, which eliminates noise in the image in the form of glare from light sources, and the use of light emitters different wavelengths in different modes significantly increases the information content of data and diagnostic signs.

The method of using the illuminator for the anterior segment of the eye and pupillometry consists in fixing in the paraorbital region, respectively, of the palpebral fissure, in the projection of the optical axis of the eye. The luminous flux limiter eliminates external light exposure, which allows its use without providing dimming of the room and standardize the conditions of photo and video recording. The luminous flux is controlled by the control unit, the choice of the emitter operating modes is programmed, for monochromatic lighting with a wavelength of 671 nm, with a wavelength of 546 nm and 435 nm. These filters can be used separately, sequentially or in combination. The response to light pulses is recorded in the video mode to obtain data on the characteristics of the pupil reaction.

Example 1:

Patient I., 60 years old, diagnosis: open-angle glaucoma of the initial stage with compensated intraocular pressure. The patient received the drug Pilocarpine 1 percent, 2 times a day. There is a pronounced narrowing of the pupils to 1.5 mm. For objectification, a illuminator was used for the anterior segment of the eye, which was installed on the paraorbital part of the face. A non-glare photo-registration of the structures of the eye, namely, the cornea, anterior chamber of the eye, iris, pupil zone, was performed. Then the patient was canceled instillation of Pilocarpine and after 3 days made a repeated glareless photo-recording of the structures of the anterior segment of the eye.

A comparative analysis of the images showed that the pupils dilated to a normal size of 3.5 mm. Which indicates the restoration of pupil function.

Example 2:

Patient I., 40 years old, was diagnosed with corneal edema, inflammation of the iris of the right eye. A illuminator was used for the anterior segment of the eye, which was installed on the paraorbital part of the face. A non-glare photo-registration of the structures of the eye, namely, the cornea, anterior chamber of the eye, iris, pupil zone, was performed. It was found that there is pronounced edema of the cornea, edema of the iris, injection of the eyeball of moderate severity. He was prescribed treatment - anti-inflammatory therapy. On day 4, a comparative glareless photographic registration of the anterior eye was performed. It was found that corneal edema is absent, the iris has a clear pattern, which also indicates the absence of edema. Eyeball injection has become less pronounced. A comparative analysis of the images showed positive dynamics in the clinical condition of the patient, which confirms the correctness of the selected treatment and determines the timing of drug withdrawal.

Example 3

Surveyed N. 23 years. On examination by a doctor, a narrowing of the pupils, the absence of their reaction to light was found. To objectify the data, we used a illuminator for the anterior segment of the eye, which was installed on the paraorbital part of the face. A glareless video recording of the pupil reaction was performed. It was found that it has a narrowing of the pupils, the amplitude of the pupillary reactions is sharply reduced. The subject is aimed at screening for the presence of drug intoxication.

Claims (1)

An illuminator for the anterior segment of the eye, comprising an illuminator unit, a photographic recording unit optically and mechanically interconnected, a light stimulation unit optically coupled to the optical axis of the projection unit, a control unit electrically connected to the light stimulation unit, an illuminator unit, characterized in that the illuminator includes an opaque reflector in the form of a truncated torus, configured to form uniform illumination of the anterior segment of the eye with diffused light, a protective screen with a hole with a diameter smaller than the external diameter of the reflector, a hood located above the protective screen and configured to limit the external light flux, and emitters evenly distributed in a circle under the protective screen, while the control unit is configured to set the operating modes of the emitters programmatically, for monochromatic lighting with a wavelength of 671 nm, with a wavelength of 546 nm and 435 nm.