RU190437U1 - DEVICE FOR INSTALLATION OF CAGE AT INTERCOMMUNICATION CABINET IN THE LUMAROUS DIVISION OF THE BACKBONE - Google Patents

Abstract

The invention relates to the field of medicine, in particular to the field of neurosurgery and can be used to install cages for interbody spinal fusion in the lumbar spine. There is a method of installing cage for interbody fusion under the control of intraoperative fluoroscopy. The disadvantages of using intraoperative fluoroscopy are associated primarily with the effect of ionizing radiation on the patient and the operating team. The purpose of the utility model is to provide optimal conditions for the correct positioning of the cage in the depth of the surgical wound, to reduce the radiation load on the patient and medical personnel, and to create the possibility of multiple long-term use of the device. The goal is achieved in that the device for installing cages for interbody fusion in the lumbar spine in the depth of the wound includes: a metal frame-frame with a built-in ruler scale (graduated in millimeters) for measuring the size of a vertebra; two rods fixed movably in the frame with the help of studs for their installation in the most lateral points of the anterior surface of the vertebral body; central rod with a pointed end, securely fixed both horizontally and vertically to set the label in the center of the vertebral body. The device is made of medical stainless steel to enable sterilization of the instrument. 1 hp f-ly, 2 ill.

Description

The utility model relates to the field of medicine, in particular, to the field of neurosurgery and can be used to install cages for interbody spinal fusion in the lumbar spine.

The result of the interstitial spinal fusion surgery in the lumbar spine depends on the correct positioning of the cage. As a standard, intraoperative fluoroscopy is used to verify positioning accuracy. In this case, the radiation load on both the patient and the operating surgeon in some cases is significant.

The disadvantages of using intraoperative fluoroscopy are primarily related to the effect of ionizing radiation on the patient and the surgical team.

The device offered by us excludes the possibility of irradiating the patient and the operating team without reducing the accuracy of the cage installation.

The purpose of the utility model is to provide optimal conditions for the correct positioning of the cage in the depth of the surgical wound, to reduce the radiation load on the patient and medical personnel, and to create the possibility of multiple long-term use of the device.

The goal is achieved by the fact that the device for determining the centering point and the direction of the cage installation in interbody spinal fusion in the lumbar spine includes a metal frame with a built-in ruler scale for measuring the width of the vertebra, two rods fixed movably in the frame using hairpins for their installation in the most lateral points of the anterior surface of the vertebral body, the central rod with a pointed end, fixed movably both horizontally and vertically, to set the mark in the center a vertebra, while the device is made of medical stainless steel.

FIG. 1 shows a general view of the device from the front.

FIG. 2 shows a general view of the device from above.

The device includes a metal frame-frame with a built-in ruler scale (1), two rods fixed movably in the frame with the help of pins (2), a central rod with a pointed end, fixed movably both horizontally and vertically (3).

The device works as follows: the surgeon places the frame-frame (1) on the front surface of the vertebral body. In the most lateral points of the anterior surface of the vertebral body, the rods (2) descend to the level of the transverse processes of the vertebra. With the second hand, the surgeon places the central bar in the middle of the vertebra, determined with the help of the ruler (3) and marks the center of the anterior surface of the vertebral body determined using the ruler scale. This mark shows the cage centration point, and the direction of the central rod indicates the direction of its installation during interbody fusion in the lumbar spine.

Claims (1)

A device for determining the centering point and the direction of cage installation in interbody spinal fusion in the lumbar spine, including a metal frame-frame with a built-in ruler scale for measuring the width of the vertebra, two rods fixed movably in the frame using studs to install them in the most lateral points of the anterior surface of the vertebral body, the central rod with a pointed end, which is fixed movably both horizontally and vertically, to set the mark in the center of the vertebral body, while troystvo made of medical stainless steel.

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