RU84694U1 - OPHTHALMIC INJECTOR - Google Patents

Abstract

An ophthalmic injector made in the form of a medical syringe containing an ampoule body with a mechanism for squeezing the substance out of the ampoule body through a needle mounted on the end of the body, made in the form of a piston with a rod, characterized in that a sleeve is inserted into the injector for housing - syringe ampoules, on the flange of which the holder is fixed by means of its support and emphasis, and a lever mounted on an axis placed in the holder is additionally introduced into the mechanism for squeezing the substance out of the ampoule case, with zmozhnostyu rotate on this axis and in contact with the abutment, and coil spring mechanism located on the rod between the support bracket and the lever via an intermediate sleeve mounted on the rod, the end of the holder is set on the ring to be mounted on the end of the arm.

Description

An ophthalmic injector belongs to the field of medical instrument making and can be used in ophthalmology, gynecology, and surgery.

In ophthalmology, in particular in vitreoretinal surgery, vitrectomy systems are used to remove and excise the vitreous body, various blood clots, lens residues, iris tissue. In addition, after removing the vitreous, silicone oil must be introduced instead. It is difficult, inconvenient, and the help of an assistant to carry out operations of squeezing silicone out of the body of the syringe or aspirating substances from the vitreous chamber of the eye with a conventional syringe and needle using a piston. Silicone substance is a gel - a viscous suspension of a jelly-like appearance. Pull the piston or push it with force, because with your second hand you need to hold the syringe body.

In medicine, medical syringes are widely used. All of them basically consist of an ampoule body, a mechanism for squeezing the medicine from the body, made in the form of a piston with a rod placed inside the body, and a needle mounted on the opposite end of the body from the piston. A drug or saline solution is placed in a liquid state inside the ampoule case. Using a piston, pressing on the rod, the drug is injected into the patient’s body through a needle, see, for example, the textbook of the authors S. A. Mukhin, I. I. Ternovskaya “Atlas on the manipulation technique of nursing care”, publishing house “ANNI” , M., 1995, p. 161-169.

The disadvantages of this design of the syringe are: it is difficult to control the stability of the syringe needle tip located in the vitreous cavity of the eye, silicone oil is placed inside the body, the inability to reduce intraoperative iatrogenic damage to the structures of the eye, the introduction of a viscous fluid such as silicone oil requires actions that can lead to eye injuries, and the help of an assistant is required to support the syringe, it is also ineffective to use Design Aspiration syringe of various substances from the eye.

The closest technical solution to the design of the syringe can be considered the design specified in the decision under subsection UK No. 2192793 of 88.01.27 A61M 5/32, comprising a body (holder), cannula, needle, piston with a rod. The needle is inserted into the holder and the cannula and, if necessary, extended beyond the front end of the cannula. The device is used for periodic or continuous administration of drugs, for example, insulin or morphine. The device allows for sixteen or more injections.

The disadvantages of the design of the device are: the design is inconvenient to use in the field, the assistance of an assistant is needed, when introducing a substance such as silicone oil of a viscous consistency into the eye, it is difficult to realize the stability and immobility of the needle, the need for forceful actions when introducing silicone, which can lead to eye injury, is difficult aspirate the substances inside the eye. Such a design for ophthalmic surgical operations is ineffective.

The technical results of the proposed solution are: improving the ease of use when working in stationary and field conditions, reducing injuries during ophthalmic surgical operations through the stability of the position of the needle tip inside the eye, reducing the effort when introducing viscous substances or when aspirating substances inside the vitreous chamber of the eye, increase the effectiveness of treatment.

This result is achieved by the fact that in the ophthalmic injector made in the form of a medical syringe containing an ampoule body with a mechanism for squeezing the substance out of the ampoule body through a needle mounted on the end of the body in the form of a piston with a rod, a sleeve is inserted into the injector to accommodate the case of the ampoule of the syringe, on the flange of which the holder is fixed by means of its support and emphasis, and a lever mounted on an axis placed in the holder, rotatable on this axis and in contact with the stop, and a cylindrical spring located on the mechanism rod between the holder support and the lever through an intermediate sleeve mounted on the rod, while a ring is installed at the end of the holder with the possibility of installing it on the end of the lever.

The essence of the proposed solution is expressed in the aggregate of essential features sufficient to achieve the technical result provided by the solution.

An essential feature of the utility model, which coincides with the feature of the prototype, is: A — constructive embodiment of an injector in the form of a medical syringe containing an ampoule body with a substance extrusion mechanism placed inside its ampoule body; B - the extrusion mechanism is made in the form of a piston with a rod.

The salient features of the solution are: B - a sleeve is inserted into the injector to accommodate the syringe ampoule body, on the flange of which the holder is fixed by means of its support and emphasis; G - in the mechanism of squeezing the substance out of the ampoule body, a lever is additionally introduced, mounted on an axis located in the holder, with the possibility of rotation on this axis and in contact with the stop; D - a cylindrical spring is also introduced into the extrusion mechanism located on the mechanism rod between the holder support and the lever through an intermediate sleeve mounted on the rod; E - a ring is installed at the end of the holder with the possibility of installing it at the end of the lever.

The ophthalmic injector, made in the form of a medical syringe, contains an ampoule body 1 with a substance extrusion mechanism 2 located inside its body 2 made in the form of a piston 3 with a rod 4 fixed to the end of the rod 4. At the opposite end of the body 1 from the location of the piston 3 the needle 5 is fixed, through which the drug enters the eye (or the patient’s body during injection). A sleeve 6 is inserted into the injector design, into which the ampoule body 1 is placed. At the end of the sleeve 6 a flange 7 is made, to which the holder 8 is attached by means of its support 9 and stop 10. The lever 11 is additionally introduced into the substance extrusion mechanism 2 from the ampoule case 1 mounted on an axis 12 located in the holder 8, and a coil spring 13 located on the rod 4 of the mechanism 2 between the support 9 of the holder 8 and the lever 11 through an intermediate sleeve 14 mounted on the rod 4. The lever 11 mounted on the axis 12 has the ability turning on it when pressed and at its lower end 15. Through the hole of the opposite end 16 of the lever 11 passes the rod 4. This end 16 of the lever 11 has a translational displacement along the rod 4, exerting a force on the spring 13. At the end 17 of the holder 8 is a ring 18 with the possibility of installing it on the lower the end 15 of the lever 11 with a compressed spring 13 and the offset end 16 of the lever 11.

The operation of the injector is as follows. Silicone oil 19, which is a gel - a viscous substance, is placed inside the ampoule body 1. Insert the piston 3 into the housing 1. The ampoule housing 1 is placed in the sleeve 6. The holder 8 is fixed on its flange 7 through its support 9, the spring 13 on the rod 4, the lever 11 on the axis 12 in the holder 8 and the stop 10. The doctor takes one hand the holder 8, the index finger places on the lower end 15 of the lever 11. Insertes the needle 5 of the injector into the patient's body, for example, in his eye. Pressing on this end 15 of the lever 11, compresses the spring 13 and move the rod 4 with the piston 3. The piston 3, in turn, presses on the silicone 19 and squeezes it through the needle 5 into the vitreous cavity of the patient’s eye. With the second hand, the doctor supports the sleeve 6 with the body-ampoule 1 of the injector. If it is necessary to carry out the aspiration of substances from the patient’s body, then compressing the spring 13 with the end 16 of the lever 11, put a ring 18 on its lower end 15. The fingers of the doctor’s hand are on the lower end 15 of the lever 11, and the holder 8 is placed in the palm of the same hand. Having dropped the ring, carefully releasing the lever, the doctor moves the piston 3 to the opposite end of the housing 1. There is a suction, the vitreous from the eye passes through the needle into the internal volume of the housing 1. Thus, the doctor’s effort is facilitated. The substance inside the body slowly enters the eye. The substance in the vitreous chamber of the eye can be removed from the eye more efficiently. The second hand of the doctor firmly holds the body of the syringe, providing a stable, stationary position of the needle.

Using the device "Ophthalmic Injector" in comparison with the prototype allows to reduce the morbidity when introducing a substance into the vitreous chamber of the eye, to facilitate its introduction by means of a lever without the assistance of an assistant, to carry out the introduction and aspiration of various substances from the vitreous chamber of the eye, to improve the quality of ophthalmic care patients with severe injuries of the organ of vision and with their consequences, as well as with the proliferative stage of diabetic retinopathy and recurrent form my retinal detachments. In addition, the simplicity of the design of the device and work with it allows you to use it in the field. The injector design is technologically advanced and economical to manufacture. The use of the injector can be used multifunctionally, not only in ophthalmology, but also in surgery, gynecology, that is, in various fields of medicine, without changing anything in the design, it is possible to efficiently carry out the introduction of a substance into the patient’s body and the withdrawal of various substances from different places of the patient. Therefore, the injector device is industrially applicable and will occupy its niche in medical treatment.

Claims (1)

An ophthalmic injector made in the form of a medical syringe containing an ampoule body with a mechanism for squeezing the substance out of the ampoule body through a needle mounted on the end of the body, made in the form of a piston with a rod, characterized in that a sleeve is inserted into the injector for housing - syringe ampoules, on the flange of which the holder is fixed by means of its support and emphasis, and a lever mounted on an axis located in the holder is additionally introduced into the mechanism for squeezing the substance out of the ampoule case, with zmozhnostyu rotate on this axis and in contact with the abutment, and coil spring mechanism located on the rod between the support bracket and the lever via an intermediate sleeve mounted on the rod, the end of the holder is set on the ring to be mounted on the end of the arm.