RU2204955C2 - Bone rod - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has threaded rod, threaded head and guiding extractor member. The head is designed as hollow cone with elongated three-edged sharpened tip, self-tapping supporting thread on the surface, base having bead, hexahedral protrusion and threaded hole opening into cone cavity for receiving the threaded rod. Slits are manufactured on the cone surface along its generatrix. The slits pass through the self-tapping thread without touching the base and tip. A part of the threaded rod for immersing into the cone cavity has no thread, its diameter is less and has a semi- sphere on the end. The threaded rod has nuts. The guiding extractor member has handle and working part on the end of which a blind threaded hole is done for receiving the threaded rod. EFFECT: improved fixation stability. 2 cl, 4 dwg

Description

 The invention relates to the field of medical equipment. It is used in traumatology-orthopedics and neurosurgery for external transosseous rod osteosynthesis.

 There are various designs of bone rods in which elements are provided that increase the stability of the fixation of devices in the bone, such as "Device for fixing a fragment of a tubular bone" [1]. Its working end is equipped with a second threaded section of a larger diameter than the first. The authors expect that a section of a thread of a larger diameter will jam in a hole in the wall of the medullary canal cut by a section of a thread of a smaller diameter. However, bone resorption at the site of tight contact with the metal will invariably lead to a decrease in fixation stability.

 The closest in its technical solution to the claimed one is the “Clamp” [2], the working part of which is spindle-shaped, its department adjacent to the rod has a smooth surface turning into a thrust pad, the middle cylindrical section is provided with threads of constant height and pitch, and the conical section self tapping thread. The calculation is that the cylindrical section, tightly placed in the cortical layer of the bone, will provide stability. But even in this device, conditions have not been created for the prevention of bone resorption and the occurrence of aseptic instability.

 The essence of the invention consists in the combination of essential features sufficient to achieve the desired technical result, namely, to increase the stability of fixation of the device head in bone tissue to ensure better treatment outcomes. The essence of the invention lies in the fact that the head is made in the form of a hollow cone with an elongated triangular sharpened top, a self-cutting stop thread on the surface, a base equipped with a shoulder, a hexagonal protrusion and a threaded hole for the threaded rod opening in the cone cavity, moreover, the cone is made along its generators the slots passing through the self-tapping threaded thread without capturing its base and top, part of the threaded rod for immersion in the cone cavity is threadless, smaller diameter with a hemisphere on the end, with a threaded rod fitted with nuts. The guide-extractor is made with a handle and a working part, at the end of which a blind hole with a thread for a threaded rod is made.

 The trihedral sharpening of the apex of the conical threaded head provides a hole in the cortical bone layer, along which the head is further advanced due to the self-cutting stop thread.

 The burt, located on the base of the threaded head, limits its excessive immersion in bone tissue.

 A hexagonal protrusion located on the base of the threaded head provides the ability to create a counterpoor when locking the threaded end of the rod in the threaded hole of the base with a nut.

 Equipping the cone of the threaded head with longitudinal slots, dividing it together with the self-tapping threaded thread into sectors, makes it possible to give the threaded head a barrel-like shape when the spherical end of the threaded part of the threaded rod is pressed from the inside, and the self-tapping threaded head threads intersected by the cuts acquire the tapering properties that make the taper easier into bone tissue.

 The design of the device is illustrated by illustrations. Figure 1 shows a General view of the bone rod in the initial position (longitudinal section). Figure 2 presents the threaded head of the bone rod (in longitudinal section) after giving it a barrel-shaped. Figure 3 shows a cross section of a threaded head at the level of contact of the threaded portion of the threaded rod with the inner surface of the cone. In FIG. 4 shows an extractor guide.

 The bone rod contains a threaded head 1 and a threaded rod 2. The threaded head 1 has the form of a hollow cone with an elongated, trihedral sharpened top 3. The surface of the cone is equipped with a self-cutting stop thread 4. The base 5 of the cone is equipped with a shoulder 6. On the base 5 there is a hexagonal protrusion 7, through the threaded hole in which the threadless part 8 of the threaded rod 2 is inserted into the cavity of the cone, the end of which has the form of a hemisphere. Longitudinal slots 9, which do not capture the bases and vertices of the cone, divide the threaded head 1 and the self-cutting stop thread 4 into sectors 10. The threaded rod 2 is equipped with nuts 11 in the proximal and 12 in the distal sections. The guide-extractor is made in a T-shape, has a working part 13 with a blind threaded hole 14, a rod 15 and a handle 16.

 The device is used as follows.

 When using a device for osteosynthesis of tubular bones or for transpedicular fixation of vertebral bodies, a fixator corresponding to a given bone size is selected. The threaded rod 2 in the initial position, when the threaded portion thereof does not touch the inner surface of the threaded head 1, is locked at its base with a nut 11. The working part 13 of the extractor guide is screwed onto the distal end of the threaded rod 2 and locked with a nut 12. When rotated by the extractor the trihedral apex 3 of the threaded head 1 cuts a hole in the bone tissue through which it is immersed while continuing to drill a hole in the bone with a self-cutting stop thread 4.

 When osteosynthesis of the tubular bone, it is necessary that the top of the threaded head 3 and 2-3 turns of its thread 4 are immersed in the opposite cortical layer, and the shoulder 6 would abut against the bone from the side of the device insertion.

 Then release the lock nut 11 and screw the threaded rod 2 into the cavity of the threaded head 1. In this case, the spherical end of the threaded portion 8 of the threaded rod 2 abuts against the sectors 10 from the inside, pushing them apart and giving the threaded head 1 a barrel-shaped shape, which is secured by re-locking with the nut 11 .

 Then release from locking and remove the guide-extractor. Thus, a prestressed structure is created that is securely fixed in the bone tissue.

 The distal ends of the threaded rods 2 after being released from the guide-extractor are fixed in the external fixation apparatus.

 The design is removed in the reverse order.

Sources of information
1. Autosvid. USSR 1284533, A 61 B 17/58. BI, 1987, 3.

 2. Autosvid. USSR 1779353, A 61 B 17/58. BI, 1992, 45.

Claims (2)

 1. A bone rod containing a threaded rod, a threaded head and a guide-extractor, characterized in that the head is made in the form of a hollow cone with an elongated trihedral sharpened top, self-cutting stop thread on the surface, a base equipped with a shoulder, a hexagonal protrusion and opening into the cavity of the cone a threaded hole for the threaded rod, moreover, on the cone along its generatrix, slots are made passing through the self-tapping threaded thread without capturing its base and top, part of the threaded the rod to be immersed in the cone cavity formed threadless smaller diameter with a hemisphere on the end, with a threaded rod fitted with nuts.  2. The bone rod according to claim 1, characterized in that the guide-extractor is made with a handle and a working part, at the end of which there is a blind hole with a thread for the threaded rod.

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