WO2021232550A1 - High-precision meibomian gland diagnosis and treatment instrument - Google Patents

Abstract

Disclosed in the present invention is a high-precision meibomian gland diagnosis and treatment instrument, comprising a film unit that can extend to the inside of an eyelid and be attached to the surface of a cornea. The film unit at least comprises an ultrasonic light-transmitting layer located on the side close to the eyelid, a light barrier layer located on the side close to the cornea, and a light guide and heat insulation layer located between the ultrasonic light-transmitting layer and the light barrier layer; moreover, multiple filling grooves are provided in the light guide and heat insulation layer, all the filling grooves are provided with filling mediums that can convert ultrasound into heat energy, and the heat energy released by the filling mediums can only be transferred to the inner surface of the eyelid by means of the ultrasonic light-transmitting layer. The high-precision meibomian gland diagnosis and treatment instrument further comprises an ultrasonic main unit used for generating ultrasound, and the ultrasonic main unit comprises an ultrasonic probe that can be attached to the outer surface of the eyelid; the light barrier layer can block ultrasound. The present invention has the following advantages and effects: being accurately aligned with the position of an eyelid of a patient for treatment, being more targeted, and having no adverse effect generated in use.

Description

High-precision meibomian gland diagnosis and treatment instrument Technical field

The invention relates to the field of ophthalmology detection, in particular to a high-precision meibomian gland diagnosis and treatment instrument.

Background technique

Meibomian gland dysfunction (Meibomian Gland Dysfunction, MGD) is a common ocular surface disease. The most common cause of meibomian gland dysfunction is obstruction of the meibomian gland opening. The obstruction directly or indirectly causes changes in the quantity and quality of meibomian gland secretions, leading to instability of the tear film, and its main symptom is dry eye.

technical problem

At present, the commonly used methods for the treatment of dry eye require safety, effectiveness, simplicity, and economy, which can optimize the treatment plan, minimize the side effects of the treatment, and strive to achieve the best curative effect with the least damage. Among them, the eyelid hot compress is the most common application; the patient can cover the eye with a warm towel to heat the meibomian glands in the eyelid to expand and secrete tears. However, when patients with dry eye use the eyelid hot compress for a long time, because the warm towel is in direct contact with the eyelid, there is a hidden danger of touching the eyeballs and irritating the eyeballs, and the temperature of the towel needs to be judged by the subjective feeling of the patient. In the case of the eyelid, the temperature of the part in contact with the eyelid is too low or too high, resulting in the inability to secrete tears or scalding, and the treatment effect is not ideal; therefore, it is necessary to design a more targeted and easy-to-use And the meibomian gland diagnosis and treatment instrument with good therapeutic effect.

Technical solutions

The purpose of the present invention is to provide a high-precision meibomian gland diagnosis and treatment instrument to solve the problems raised in the background art.

The above-mentioned technical purpose of the present invention is achieved through the following technical solutions: a high-precision meibomian gland diagnosis and treatment instrument, including a diaphragm unit that can be inserted into the inner side of the eyelid and attached to the surface of the cornea, and the diaphragm unit is at least It includes an ultrasonic light-transmitting layer on the side close to the eyelid, a light-shielding layer on the side close to the cornea, and a light-guiding and heat-insulating layer between the ultrasonic light-transmitting layer and the light-shielding layer, and the A plurality of filling grooves are opened in the heating layer, and each of the filling grooves is provided with a filling medium that can convert ultrasound into heat energy. The heat energy released by each filling medium can only be transferred to the heat through the ultrasonic transparent layer. The inner surface of the eyelid; also includes an ultrasound host for generating ultrasound, the ultrasound host has an ultrasound probe that can be attached to the outer surface of the eyelid; the ultrasound generated by the ultrasound host can sequentially pass through the ultrasound light-transmitting layer and the guide through the ultrasound probe The light insulation layer, and the filling medium in the light guide insulation layer is transformed by ultrasound and releases heat energy, thereby stimulating the glands in the eyelids to expand by heating to secrete tears; the light insulation layer can isolate ultrasound.

The further arrangement is that each of the filling grooves and the filling medium located in them are in contact with one side of the ultrasonic light-transmitting layer to achieve better heat transfer; and the filling groove and the filling medium located in it are not in contact with each other. One side of the light barrier layer is in contact with and is insulated by the light guide and heat insulation layer, so as to prevent the thermal energy released by the filling medium from being transferred to the light barrier layer.

The further arrangement is that: the diaphragm unit is composed of a connected straight section and a curved section, the inner side of the curved section is attached to the surface of the cornea, and the outer side can be attached to the inner surface of the eyelid; each of the filling grooves are uniform Distributed in the curved section of the light guide and heat insulation layer.

A further arrangement is that: an infrared imaging sensor is further included, and the infrared imaging sensor has an infrared imaging lens, and the infrared imaging lens can be moved to aim at the position of the eyelid of the patient.

Beneficial effect

1. In the present invention, after the diaphragm unit is extended to the inner side of the eyelid, the ultrasound probe is aimed at the position of the eyelid to be treated by holding the ultrasound host to emit ultrasound, and the ultrasound department passes through the ultrasound light transmission layer and the light guide heat insulation layer in turn , And the filling medium located in the light guide and heat insulation layer is transformed by ultrasound and releases heat energy, thereby stimulating the meibomian glands in the eyelids to heat and expand to secrete tears; simple and effective treatment of the patient’s eyelids, and its pertinence Better, it can accurately align the position of the patient's eyelid for treatment, and the temperature can be set by the ultrasound frequency of the ultrasound host to achieve controllable and stable temperature, and the treatment effect on the eyelid is better.

2. In the present invention, heat energy is released in the form of a filling medium in the light guide and heat insulation layer, which can treat the inner layer of the eyelid on the inner side of the eyelid, and stimulate the meibomian glands in the eyelid to expand due to heat and secretion more quickly and effectively. Tears can be used to treat dry eye; it is undoubtedly more effective than applying heat to the outer eyelid.

3. After optimizing the treatment effect, the present invention also considers how to protect the cornea, sclera and iris. Therefore, in the present invention, a light guide and heat insulation layer and a light insulation layer are provided. The light guide heat insulation layer can effectively heat insulation to prevent the heat released by the filling medium from being directly transferred to the cornea; the light insulation layer can effectively isolate ultrasound, It prevents the ultrasound from passing through the light barrier layer and affects the cornea; thus, the present invention can achieve the purpose of safety and reliability in actual use.

4. In the present invention, an infrared imaging sensor is provided to effectively capture the image of the eyelid, so as to cooperate with the ultrasound host to achieve more precise positioning treatment, which is not available in the large-area treatment of the traditional eyelid hot compress method.

Description of the drawings

Figure 1 is a schematic structural diagram of an embodiment;

Fig. 2 is an enlarged view of part A in Fig. 1.

In the figure: 1. Diaphragm unit; 11. Ultrasonic transmissive layer; 12. Light guide and heat insulation layer; 13. Light barrier; 121. Filling groove; 122. Filling medium; 21. Eyelid; 22. Cornea; 31. Ultrasonic host; 32, ultrasonic probe; 41, infrared imaging sensor; 42, infrared imaging lens; 101, straight section; 102, curved section.

The best mode of the present invention

Hereinafter, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to Figure 1 and Figure 2, a high-precision meibomian gland diagnosis and treatment instrument includes a diaphragm unit 1 that can be inserted into the inner side of the eyelid 21 and attached to the surface of the cornea 22. The diaphragm unit 1 at least includes a device located near the eyelid The ultrasonic light-transmitting layer 11 on the side 21, the light-shielding layer 13 on the side close to the cornea 22, and the light-guiding and heat-insulating layer 12 between the ultrasonic light-transmitting layer 11 and the light-shielding layer 13, and the light-guiding and heat-insulating layer A plurality of filling grooves 121 are opened in the layer 12, and each filling groove 121 is provided with a filling medium 122 that can convert ultrasound into heat energy. The heat energy released by each filling medium 122 can only be transferred to the eyelid through the ultrasonic light-transmitting layer 11. 21 inner surface.

It should be noted that the ultrasonic light-transmitting layer 11 adopts a low-density ultrasonic light-transmitting sealing layer, which can be passed through by ultrasound; the light-guiding heat insulation layer 12 adopts a low-density light-guiding heat insulation layer, which can be passed through by ultrasound and can be insulated. Heat; the light barrier layer 13 needs to be insulated from ultrasound, which can be achieved by inflating; the filling medium 122 adopts a high-density ultrasound conversion heat energy medium, and only a medium that can convert ultrasound into heat energy is required.

It also includes an ultrasound host 31 for generating ultrasound. The ultrasound host 31 has an ultrasound probe 32 that can be attached to the outer surface of the eyelid 21; The light insulation layer 12, and the filling medium 122 located in the light guide insulation layer 12 is transformed by ultrasound and releases heat energy, thereby stimulating the glands in the eyelids 21 to heat and expand to secrete tears; the light insulation layer 13 can be insulated Ultrasound.

Each filling groove 121 and the filling medium 122 located in it are in contact with one side of the ultrasonic light-transmitting layer 11 to achieve better heat transfer; and the filling groove 121 and the filling medium 122 located in it are not in contact with the light barrier. One side of the layer 13 is in contact with and is insulated by the light guide and heat insulation layer 12 to prevent the thermal energy released by the filling medium 122 from being transferred to the light insulation layer 13.

The diaphragm unit 1 is composed of a connected straight section 101 and a curved section 102. The inner side of the curved section 102 is attached to the surface of the cornea 22, and the outer side can be attached to the inner surface of the eyelid 21; each filling groove 121 is evenly distributed in the light guide and heat insulation The curved section 102 portion of the layer 12. The arrangement of the straight section 101 and the curved section 102 makes it easier to extend the diaphragm unit 1 into the inner side of the eyelid 21.

It also includes an infrared imaging sensor 41. The infrared imaging sensor 41 has an infrared imaging lens 42, which can be moved to align the position of the patient’s eyelid 21; the infrared imaging sensor 41 is provided to effectively capture the image of the eyelid 21, thereby It is better to cooperate with the ultrasound host 31 for precise alignment, which is more targeted.

This specific embodiment is only an explanation of the present invention, and is not a limitation of the present invention. After reading this specification, those skilled in the art can make modifications to this embodiment without creative contribution as needed, but as long as the rights of the present invention The scope of the requirements is protected by the patent law.

Claims (4)

A high-precision meibomian gland diagnosis and treatment instrument, which is characterized in that it includes a diaphragm unit (1) that can be inserted into the inner side of the eyelid (21) and attached to the surface of the cornea (22). The diaphragm unit (1) It includes at least an ultrasonic light-transmitting layer (11) located on the side close to the eyelid (21), a light-blocking layer (13) located on the side close to the cornea (22), and an ultrasonic light-transmitting layer (11) and a light-blocking layer ( 13) between the light guide and heat insulation layer (12), and a plurality of filling grooves (121) are opened in the light guide and heat insulation layer (12), and each of the filling grooves (121) is provided There are filling media (122) that can convert ultrasound into heat energy, and the heat energy released by each of the filling media (122) can only be heat transferred to the inner surface of the eyelid (21) through the ultrasonic light-transmitting layer (11); It also includes an ultrasound host (31) for generating ultrasound. The ultrasound host (31) has an ultrasound probe (32) that can be attached to the outer surface of the eyelid (21); the ultrasound generated by the ultrasound host (31) can pass The ultrasonic probe (32) passes through the ultrasonic light-transmitting layer (11) and the light-guiding heat-insulation layer (12) in turn, and the filling medium (122) in the light-guiding heat-insulation layer (12) is transformed and released by the action of ultrasound. The heat energy stimulates the glands in the eyelids (21) to be heated and expand to secrete tears; the light barrier layer (13) can cut off ultrasound. The high-precision meibomian gland diagnosis and treatment instrument according to claim 1, characterized in that: each of the filling grooves (121) and the filling medium (122) located therein are the same as the ultrasonic transparent layer (11). Side contact to achieve better heat transfer; and the filling groove (121) and the filling medium (122) located in it are not in contact with one side of the light barrier layer (13) and are covered by the light guide and heat insulation layer ( 12) Realize heat insulation to prevent the thermal energy released by the filling medium (122) from being transferred to the light-shielding layer (13). The high-precision meibomian gland diagnosis and treatment instrument according to claim 1, characterized in that: the diaphragm unit (1) is composed of a connected straight section (101) and a curved section (102), and the curved section The inner side of the section (102) is attached to the surface of the cornea (22), and the outer side can be attached to the inner surface of the eyelid (21); each of the filling grooves (121) are evenly distributed in the curvature of the light guide and heat insulation layer (12) Paragraph (102) section. The high-precision meibomian gland diagnosis and treatment instrument according to claim 1, characterized in that it further comprises an infrared imaging sensor (41), the infrared imaging sensor (41) has an infrared imaging lens (42), and The infrared imaging lens (42) can be moved to align the position of the eyelid (21) of the patient.