RU2486880C1 - Device for irrigation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of ophthalmological surgery. Device for irrigation contains hollow case and hollow envelope, formed by two prominent segments of triaxial ellipsoid: first internal segment of triaxial ellipsoid surface is facing with concavity the case side and is connected with it. First segment has an hole, connected with case, whose centre is located on longitudinal axis of case symmetry. Second external segment of triaxial ellipsoid surface is congruous to internal surface of eyeball with its concavity facing outside. Both segments have the same sign of curvature, are coaxial to each other and to longitudinal axis of case symmetry. Envelope cavity narrows from the centre to periphery. Peripheral edges of envelope are made disconnected, forming nozzle of ellipsoidal form, directed to the side, opposite to external surface of second segment. In the first internal segment of triaxial ellipsoid additionally made are, at least, six holes, whose axes of symmetry are directed to longitudinal axis of device at acute, unequal to each other angles. Four of these holes are located in pairs on larger axis of symmetry of triaxial ellipsoid segment, on both sides from the center. Two holes are located along small axis of symmetry of the same segment, at equal distance from the centre. All eight holes are made in form of truncated cone, whose smaller base is directed inside the case, angle of opening of each conical hole lies in the interval from 20 to 40 degrees.

EFFECT: invention reduces trauma of tissues of internal eye structures, increases organ preservation and functions of eyeball.

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Description

The invention relates to the field of ophthalmic surgery.

A device for irrigation according to the patent of the Russian Federation No. 2422118. The device comprises a hollow body and a first surface segment of a triaxial ellipsoid, facing concavity towards the body and connected to it. In the first segment there is a hole in communication with the body, the center of which lies on the longitudinal axis of symmetry of the body. The device further comprises a second segment of the surface of the triaxial ellipsoid, congruent to the inner surface of the eyeball, while the second segment is convex outward. Both segments have the same sign of curvature, are aligned with each other and with the longitudinal axis of symmetry and form a hollow open shell, the inner cavity of which tapers from the center to the periphery. The peripheral edges of the shell are open, forming an ellipsoidal nozzle, directed in the direction opposite to the outer surface of the second segment.

However, this device has a significant drawback: the flows of irrigation fluid reflected from the inner surface of the ellipsoidal segment, getting on the surface of the inner tissues of the eye, are not weak enough and lead to damage to the endothelial cells. This does not sufficiently reduce trauma to the internal tissues of the eye and leads to a decrease in visual functions.

The technical result is a decrease in trauma to tissues of the internal structures of the eye, an increase in organ safety and function of the eyeball.

The technical result is achieved by the fact that the device for irrigation contains a hollow body and a hollow shell formed by two convex segments of a triaxial ellipsoid, while the first inner segment of the surface of the triaxial ellipsoid is concave towards the body and connected to it, while in the first segment there is an opening communicating with the body, the center of which lies on the longitudinal axis of symmetry of the body, the second outer segment of the surface of the triaxial ellipsoid is congruent to the inner surface of the eyeball and turned outwardly convex, both segments have the same sign of curvature, aligned with each other and with the longitudinal axis of symmetry of the body, while the shell cavity narrows from the center to the periphery, and the peripheral edges of the shell are open, forming an ellipsoidal nozzle directed to the side opposite to the outer surface of the second segment, while in the first inner segment of the triaxial ellipsoid, at least six holes are additionally made, the axis of symmetry of which are directed to the longitudinal axis of the device under angles that are not equal to each other, four of these holes are arranged in pairs along the greater axis of symmetry of the segment of the triaxial ellipsoid on both sides of the center, two holes are located along the minor axis of symmetry of the same segment at the same distance from the center, while all seven holes are made in the form a truncated cone, the smaller base of which is turned into the body, the opening angle of each conical hole lies in the range from 20 to 40 degrees.

The set of essential distinguishing features proposed by the authors is necessary and sufficient for the unambiguous achievement of the claimed technical result.

The proposed device is illustrated by drawings Fig.1-3.

Figure 1 is a longitudinal section

Figure 2 is a bottom view

Figure 3 - view a from figure 1.

The irrigation device comprises a hollow body and two convex segments of a triaxial ellipsoid forming an internal hollow shell 1. Its cavity narrows from the center to the periphery. The inner surface of the shell 1 is formed by the first segment 2 of the ellipsoidal surface. The outer surface is formed by the second segment 3 of the ellipsoidal surface, congruent to the inner surface of the eyeball. Segments 2, 3 have the same sign of curvature. The first segment 2 has a lower eccentricity than the second segment 3. The first segment 2 is concave toward the shell 1, and the second segment 3 is convex outward. Position 4 denotes the longitudinal axis of symmetry of the device, position 5 - the body of the device.

The peripheral edges 6 of the shell 1 are made open and form a nozzle 7 of an expanded ellipsoidal shape, designed for the outflow of irrigation fluid, the direction of the nozzle 7 is opposite to the outer surface of the second segment 3. At least seven holes of the same shape are made in the first inner segment 2 of the triaxial ellipsoid in the form of a truncated cone, the smaller base of which faces the inside of the case, with six holes located along the major axis 8 and minor axis 9 of the first segment 2 of the ellipsoid, and the seventh Hole 10 is located in the center of this segment of the ellipsoid.

Four holes 11, 12, 13, 14 are arranged in pairs along the major axis 9 of segment 2 of the triaxial ellipsoid on either side of the center.

Two holes 15, 16 are located along the minor axis 9 of segment 2 of the triaxial ellipsoid at the same distance from the center.

Position 17 shows the axis of symmetry of each conical hole.

The axis of symmetry 17 of the hole 10 coincides with the longitudinal axis 4 of the device, and the axis of symmetry 17 of the holes 11, 12, 13, 14, 15, 16 are directed to the longitudinal axis 4 of the device at sharp unequal angles.

In this case, the jets flowing from all the holes form mutually intersecting water flows with the effect of mutual weakening of their kinetic energy.

Kinetic energy decreases, and the liquid flows no longer in the form of jets, but in the form of a calm laminar flow, which has a less traumatic effect on the endothelial cells of the eye.

Both segments of the triaxial ellipsoid are interconnected by four jumpers (not shown in the drawing).

The device operates as follows.

When conducting cavity ophthalmic microsurgical operations, the device is inserted into the inner cavity of the eye. The housing 6 receives the irrigation fluid from the irrigation system (not shown in the drawings). Then the irrigation fluid through the holes enters the inner cavity of the shell 1.

Omnidirectional flows from the openings intersect each other in the internal cavity and quench each other, reducing their kinetic energy.

Streams are reflected from the inner surface of segment 3 and fall on the inner surface of segment 2. Then, reflected from the inner surface of segment 2, are repeatedly reflected and fall on the inner surface of segment 3. These reflections are multiple. Due to the narrowing space of the cavity, further irrigation flow is crushed, the amplitude of fluid oscillations inside the shell decreases, and the kinetic energy of the fluid decreases. Irrigation fluid flows from the ellipsoidal nozzle 7 in the opposite direction to the outer surface of the second segment 3.

The indicated direction of the ellipsoidal nozzle 7 also helps to reduce the effect on endothelial cells.

Using the proposed device will reduce the trauma of tissues of the internal structures of the eye, increase the organ safety of the eyeball.

Claims (1)

An irrigation device comprising a hollow body and a hollow shell formed by two convex segments of a triaxial ellipsoid, wherein the first inner segment of the surface of the triaxial ellipsoid is concave towards the body and connected to it, while the first segment has an opening communicating with the body, the center of which lies on the longitudinal axis of symmetry of the body, the second outer segment of the surface of the triaxial ellipsoid is congruent to the inner surface of the eyeball and is convex outward, both segments have the same sign of curvature, aligned with each other and with the longitudinal axis of symmetry of the body, while the shell cavity narrows from the center to the periphery, and the peripheral edges of the shell are open, forming an ellipsoidal nozzle directed to the side opposite to the outer surface of the second segment, characterized in that in the first inner segment of the triaxial ellipsoid, at least six holes are additionally made, the axis of symmetry of which are directed to the longitudinal axis of the device under sharp, unequal angles, four of these holes are arranged in pairs along the greater axis of symmetry of the segment of the triaxial ellipsoid, on both sides of the center, two holes are located along the minor axis of symmetry of the same segment, at the same distance from the center, while all seven holes are made in the form of a truncated cone , the smaller base of which is turned inside the case, the opening angle of each conical hole lies in the range from 20 to 40 °.

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