RU2646568C1 - Device for mutual spatial orientation and depth control of osteofixers - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to maxillofacial surgery. Device for mutual spatial orientation of osteofixers and for controlling the depth of immersion of the osteofixers contains a detachable body. Body consists of two identical plates, made in form of a semicircle, and abutment connected to each other so as to allow the plates to rotate with respect to each other, and then fix on the support. Through guide channel for introduction of osteofixers on each plate is perpendicular to the base on one side of site of their connection. Goniometric scale for determining angle between osteofixers introduced is located on the contacting surfaces of the plates. Convex side of each plate is provided with a protruding element with a millimeter scale applied to control the depth of immersion of the osteofixer located coaxially through the guide channel. Stop is made in the form of rigidly connected with each other at angle of 90° horizontally and vertically placed elements. Vertically disposed member is formed with a groove to allow plates to move along the groove of the vertically placed stop member.

EFFECT: invention provides control over depth of immersion of osteofixers on the whole thickness of the bone and simplifies the choice of the optimal angle of mutual spatial orientation when they are introduced and the most stable fixation of the fragments of the lower jaw with closed extra-osseous osteosynthesis.

1 cl, 5 dwg

Description

The present invention relates to medicine, namely to maxillofacial surgery. The proposed device is intended for directed introduction and control of the immersion depth of osteofixators in the fragments of the lower jaw with closed extra focal osteosynthesis.

A device is known for carrying out knitting needles for osteosynthesis of the lower jaw, comprising a body and guide holes for osteofixers (see the description of the invention to the patent of the Russian Federation No. 2119778, IPC A61B 17/60, A61B 17/90, publ. 10/19/1998).

The known device has a complex structure and is inconvenient to use. The constituent elements of the device are oriented strictly at an angle of 90 ° relative to each other, which to some extent makes it difficult to determine the optimal angle of introduction of the spokes into the bone tissue of the lower jaw with its inherent clinical anatomical features. In addition, when using the known device, it is necessary to introduce not only a working knitting needle, but also additional fixing knitting needles for orientation, which leads to additional tissue injury.

The disadvantage of this device is the difficulty in choosing the desired direction of introduction of the working needle, as well as the inability to maintain a clear perpendicularity between the device, bone and skin. The design of the device does not allow to determine the exact value of the angle of inclination between the spokes, the elements of the device and bone tissue, as well as the depth of immersion of the spokes in the bone tissue.

A device for the directed introduction of fixatives into the bone, adopted as a prototype, containing a housing and guide holes for osteofixers (see the description of the invention to the patent of the Russian Federation No. 2155012, IPC АВВ 17/90, publ. 08.27.2000).

The body of the known device is made in the form of two tubes pivotally connected at one end to each other, the other end of which is connected by an element containing a goniometer-scale and an attachment element to enable a metered change in the angle between the tubes.

The disadvantage of this device is the difficulty in choosing the necessary direction of insertion of the needle during osteosynthesis of the lower jaw, due to its anatomically more complex structure. In addition, the known device does not allow determining at what angle to the bone it is necessary to introduce the first spoke, so that the second can be oriented relative to it. The design of the device does not allow for the observance of a clear perpendicularity between the device, bone and skin. The design of the known device does not allow to determine the immersion depth of the clamps.

The technical task of the invention is to provide control of the depth of immersion of osteofixers throughout the thickness of the bone and simplify the selection of the optimal angle of mutual spatial orientation when they are introduced and the most stable fixation of fragments of the lower jaw with closed extra focal osteosynthesis with devices of any known design by providing.

The technical problem is achieved by the fact that in the proposed device the housing is detachable, consisting of two identical plates made in the form of a semicircle, and an abutment interconnected with the possibility of rotation of the plates relative to each other with subsequent fixation on the abutment, while the through guide channel for the introduction of osseous fixators on each plate is made perpendicular to the base, on one side of the junction, the goniometric scale for determining the angle between the inserted osseous fixators is located on the contacting surfaces of the plates, the convex side of each plate is provided with a protruding element with a millimeter scale for monitoring the depth of immersion of the osteo-fixator, located coaxially to the through guide channel, and the emphasis is made in the form of horizontally and vertically placed elements rigidly interconnected at an angle of 90 °, and the vertically placed element is made with a groove to enable movement of the plates along the groove of the vertically placed stop element. The corners of the plates at the base are beveled or rounded.

The proposed device is universal, easy and safe to use, provides the ability to determine the optimal angle of inclination of the osteofixors between themselves, bone and skin, as well as the depth of immersion of the osteofixers in bone tissue.

A device for mutual spatial orientation and control of the depth of immersion of osteo-fixators is illustrated by drawings, where in FIG. 1 shows a General view of the device Assembly; in FIG. 2 - the same, when choosing the angle of introduction of osteofixators; in FIG. 3 is a top view; in FIG. 4 is a side view; in FIG. 5 - plate, general view.

A device for mutual spatial orientation and control of the depth of immersion of osteo-fixators contains a detachable body made of two identical plates 1 and 2, equipped with through guide channels 3 and 4, respectively, for introducing osteo-fixators and connected by a bolt joint 5 with an emphasis 6 for installation on the skin.

Each plate 1 and 2 is made, for example, in the form of a semicircle with beveled (trimmed) or rounded corners at the base to prevent damage to the skin when the plates are rotated. In the middle part of the base of the plates 1 and 2, a hole 7 is made for installing the bolt connection 5. The bolt connection 5 is necessary to enable rotation of the plates 1 and 2 relative to each other and subsequent fixing relative to the stop 6.

A through guide channel 3 and 4 for introducing the osteofixes, in each plate 1 and 2, respectively, is made perpendicular to the base of the plates 1 and 2, on one side of the hole 7 of the bolt joint 5 and offset to one wall (osteofixes are not shown). A goniometer scale from 0 to 180 ° is applied on the surface of each plate 1 and 2 to determine the angle of inclination between the inserted osteo-fixators.

The convex side of each plate 1 and 2 is provided with a protruding element 8 and 9 located coaxially to the through guide channel 3 and 4, respectively. On the protruding element 8 and 9, a millimeter scale is applied to control the depth of immersion of osteofixors in bone tissue.

The stop 6 is made in the form of plates rigidly interconnected at an angle of 90 ° in the form of plates, horizontally placed and vertically placed. The horizontally placed element of the abutment 6 is designed to enable installation on the surface of the skin at the site of injury before the introduction of osteofixes into the bone tissue. The vertically placed stop element 6 is provided with a groove for accommodating the bolt joint 5 to allow the plates 1 and 2 to move relative to the stop 6 along the groove. The movement of the plates 1 and 2 along the groove relative to the abutment 6 is necessary to enable the location of the intersection of the ends of the osteo-fixators above the skin surface to a predetermined height, which makes it possible to install the ends of the osteo-fixators in the mini-fixators of any known device of closed extra focal osteosynthesis of the lower jaw without damaging (squeezing) the skin.

The proposed device is used as follows.

Before the introduction of osteofixers, the device is first assembled. The plates 1 and 2 are superimposed on each other by surfaces on which a goniometric scale is applied, aligning the holes 4 with the groove of the vertical stop element 6, and connect the plates 1 and 2 with the stop 6 by means of a bolt joint 5, while the through guide channels 3 and 4 are parallel relative to each other. When you turn the plates 1 and 2 relative to each other in one direction or another visually along the edges of the plates 1 and 2, a goniometric scale is visible. On an angle scale between the axes of the through guide channels 3 and 4, depending on the location and nature of the fracture, an angle of 30-75 ° is set, which ensures the highest stability of fixation of fragments when installing osteo-fixators with closed non-focal osteosynthesis. Then the assembled body with a horizontally positioned stop element 6 is installed on the surface of the skin at the injection site of the osteo-fixators. Osteofixators are injected into each fragment in turn (first one, then the second) under local infiltration conduction anesthesia or general anesthesia into previously performed skin punctures. First, one osseo-fixator is brought into channel 3 of one plate 1, which is then moved along channel 3 until it comes into contact with the bone of the fragment through a previously made skin puncture. Upon reaching the contact of the osteo-fixator with the bone of the fragment on the osteo-fixator, mark this level with any dye, for example, a pencil, marker, etc., after which the immersion of the osteo-fixator into the bone tissue continues to the required depth (over the entire thickness of the bone (bicortical)), determining it by millimeter scale on the protruding element 8 of the plate 1.

A second osteofixer is introduced in a similar manner.

After installing the osteofixes, the device is disassembled, separating the plates 1 and 2, the bolt joint 5 is dismantled. Then, individually, the plates 1 and 2 are removed from the osteofixes. The free ends of the osteofixators are shortened and installed in the fixing element of the device for closed extra focal osteosynthesis of any known design.

The proposed device allows us to provide not only the mutual spatial orientation of the osteo-fixators, but also to control the depth of immersion of the osteo-fixators, which allows to improve the quality of surgical treatment by reducing tissue trauma and reducing complications.

Claims (2)

1. A device for the mutual spatial orientation of the osteofixes and control the depth of immersion of the osteofixers, comprising a housing, through guide channels for accommodating the osteofixers and a goniometric scale, characterized in that the housing is detachable, consisting of two identical plates made in the form of a semicircle, and a stop connected with each other with the possibility of rotation of the plates relative to each other with subsequent fixation on the stop, while the through guide channel for introducing osteofixes on each plate is made perpendicular to the base, on one side of the place of their connection, the goniometric scale for determining the angle between the inserted osteo-fixators is located on the contacting surfaces of the plates, the convex side of each plate is provided with a protruding element with a millimeter scale applied to control the depth of immersion of the osteo-fixator, located coaxially with the through guide channel and the emphasis is made in the form of horizontally and vertically placed elements rigidly connected to each other at an angle of 90 °, Rich vertically arranged member configured with a groove to permit movement along the slot plates vertically disposed abutment element. 2. A device for the mutual spatial orientation of the osteo-fixators and the control of the immersion depth of the osteo-fixators according to claim 1, characterized in that the corners of the plates at the base are rounded.

Images