RU2680593C1 - Orthopedic transformer - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to the medicine. External transfusion fixation orthopedic transformer for the bones fractures and deformation treatment consists of supporting structural elements in the form of rings, half-rings, quarter rings, plates with mounting holes, as well as two-section telescopic beams, spokes and rods, bolts and nuts. Transformer also contains the three-section telescopic beams and the fastening assembly in the form of a bracket with a threaded hole in the bracket base and a pair of coaxial holes on the bracket ends, which are provided with a shaped groove. All mounting holes in the rings, half rings, ¼ rings and plates are made with the shaped groove. Two-section telescopic beam consists of a cylindrical hollow body with a longitudinal groove, in which a cylindrical rod is installed, which position is fixed by the conical nut. On the body opposite side, an outer collar is made on the end face, preventing the body mounted retaining ring with an internal thread sliding. In the body there is a threaded rod, in which through the longitudinal groove perpendicular to the rod axis a stabilizing bolt is installed. Stabilizing bolt prevents the rod in the body rotation. Onto the threaded rod a bushing is screwed in, which external thread mates with the retaining ring internal thread. Connected bushing with an external thread and the retaining ring constitute a link regulating a smooth, metered change in the telescopic beam length. Control link rotation to the right or left takes the threaded rod out of the body or deepens it into the body, which leads to the telescopic beam smooth lengthening or shortening, and having reached the desired length, the position is fixed with a retaining ring, by loosening the conical nut and moving the rod up or down relative to the body, also enabling the telescopic rod elongation or shortening so that the two-section telescopic beam length is adjusted on both sides. Three-section telescopic beam consists of the cylindrical hollow body with a longitudinal groove and the first threaded rod inserted into a cylindrical hollow body with possibility of longitudinal movement relative to the body, and the second threaded rod inserted into the first threaded rod with possibility of longitudinal movement. Body is made with the outer collar at the end face, which prevents the retaining ring with an internal thread from sliding. Inserted through the longitudinal groove stabilizing bolt prevents the first threaded rod from rotation in the body. Onto the first threaded rod a bushing is screwed in, by the external thread mating with the retaining ring internal thread. Rotation of the bushing and the retaining ring leads to the first threaded rod movement relative to the body, and the first threaded rod in the desired position is fixed with the retaining ring. At the first threaded rod end the outer collar is made, preventing the retaining ring from sliding off the first threaded rod. Retaining ring is made with the internal thread mating with the screwed onto the second threaded rod bushing external thread, thus, a gradual metered extension of the three-section telescopic rod is performed only on one side of the rod. Telescopic rods are connected to the supporting structural elements with the help of a hinged joint consisting of placed in the polymeric casing half-joints.EFFECT: invention enables the osteosynthesis performance simplification, ease during the structure installation, reliable fixation, when used with various types of fractures.5 cl, 14 dwg

Description

The invention relates to medicine, namely to traumatology and orthopedics, and can be used to treat various fractures and deformities of bones with external transosseous fixation devices of an arc-ring type.

Known (see US Pat. US 20100191239, IPC A61F 5/04, US) A system for correcting bones, which is equipped with ring elements, as well as six telescopic rods placed between them, with the formation of a hexapod. To connect the rings with telescopic rods, ball joints are used. The device has developed knots for fixing spokes and rods on rings. The disadvantage is the structural complexity of the nodes of the system, as well as the need to use a computer program to adjust the hexapod of the mutual distance and orientation of the rings.

It is known (see US Pat. 2572300, IPC A61B 17/66, RU) A device for extrafocal osteosynthesis of open leg fractures. The device consists of parts of a standard set of Ilizarov apparatus, namely rings, telescopic and threaded rods, plates, brackets, bolts and nuts. The spokes are pulled and fixed in the supporting structural elements: the base rings or half rings, interconnected by two-section telescopic rods, which produce uniform distraction. In the process of treating a fracture, the Ilizarov apparatus is reconfigured. The disadvantage is the time-consuming and time-consuming assembly of the structure during surgery, the need for reconfiguration after surgery, as well as a decrease in the effectiveness of treatment due to the fact that it is difficult to achieve adequate reposition of bone fragments and their stable rigid fixation by structural elements. The disadvantage is the use of the device for a certain type of fracture.

The objective of the invention is to improve structural elements and connection nodes with support rings to increase the rigidity of fixation, to achieve simultaneous reposition and adjustable compression.

The technical result of the invention is to simplify osteosynthesis, ease of installation, ensuring reliable fixation, the ability to use with various types of fractures, increasing the effectiveness of treatment by ensuring accurate and controlled reposition and fixation of bone fragments.

Technical result is achieved by a device consisting of rings, half-rings, _^1/4 rings, plates, on which formed the mounting holes as well as telescopic rods, needles and rods, bolts and nuts The apparatus complement fixing unit in the form of staples with a threaded hole in the bottom bracket and a pair of coaxial holes at the ends of the bracket, which are performed with a profile groove. Also, mounting holes in the rings, half-rings and _^fourth rings and plates also operate with profile groove Telescopic rods provide link governing length rod consisting of a lock ring with an internal thread and the sleeve with a corresponding external thread, said sleeve has a threaded connection with rod stock. The telescopic rods are connected to the supporting elements by means of a hinge joint, and a polymeric casing (for example, a heat shrink tube) serves as a hinge body. The profile groove of the mounting holes has a semicircular, rectangular, triangular section. The telescopic rod is made of a three-knee. In the two-knee telescopic rod, the rod is additionally strengthened by means of a collet connection.

Significant differences of the Orthopedic transformer are as follows.

Connecting parts using the mounting unit allows you to perform device layouts focused on the type of fracture, fracture location and fracture complexity.

The implementation of holes with profile grooves, eliminating cranking and displacement of parts, creates a strong and stable rigid fixation, and also allows holding support rods of various diameters in the profile holes (from the maximum possible diameter corresponding to the diameter of the holes with profile groove to the minimum).

The addition of telescopic rods with a link regulating the length of the rod ensures smooth dosed distraction and compression.

Performing a swivel connection of telescopic rods with a housing placed in a polymer casing (heat-shrinkable tube) facilitates the design, seals the hinge, adds elasticity to the hinge and creates ease of installation.

The implementation of a two-section telescopic rod with an additional smooth rod makes it possible to extend the rod from two sides, which contributes to both simultaneous and isolated distraction.

The implementation of a three-section telescopic rod providing unilateral distraction is useful for the prospect of fracture treatment, since eliminates the need to rebuild the device.

The invention is illustrated by illustrations.

FIG. 1 - mounting unit;

FIG. 2 - ring;

FIG. 3 - figured hole with a profile groove of a triangular section;

Figure 4 - figured hole with a profile groove of square section;

FIG. 5 - figured hole with a profile groove of a semicircular section;

FIG. 6 - half ring;

FIG. 7 - _^1/4 ring;

FIG. 8 - plate;

FIG. 9 - a structure assembled from rings, fasteners, rods and cylindrical racks;

FIG. 10 - assembly of a ring and a two-section telescopic rod;

FIG. 11 - assembly of a three-section telescopic rod with supporting elements;

FIG. 12 - two-section telescopic rod in the context;

FIG. 13 - swivel;

FIG. 14 - three-section telescopic rod in the context.

The apparatus is equipped with a fastening assembly 1 (FIG. 1), ring 2 (FIG. 2), semicircles 3 (FIG. 6), ^{a _1/4-ring} 4 (Fig. 7), the plates 5 (FIG. 8), two-piece telescopic arms 6 (Fig. 10), and three-section telescopic rods 7 (Fig. 11), as well as smooth cylindrical racks, rods and knitting needles, bolts and nuts.

The mounting unit 1 consists of a U-shaped bracket with a threaded hole 8 in the base of the bracket, intended for the mounting bolt. A pair of coaxial holes 9 and 10 are made at the ends of the bracket, having a profile groove, the cross section of which can be triangular 11 (Fig. 3), rectangular 12 (Fig. 4), semicircular 13 (Fig. 5). In the openings 9 and 10, rods, knitting needles, and other structural elements are placed, which are pressed against the profile grooves with a mounting bolt installed in the hole 8. Figured holes eliminate the turning and displacement of component parts, and if the parts have a round cross section, then the diameter can be 2 ÷ 6 mm. The bracket 1 is installed on the base ring, combining holes 9 and 10 with the selected hole of the ring, then a rod or spoke is inserted into them, which is fixed with a bolt through the hole 8 (Fig. 9). Combining the holes 8 of the bracket 1 with the hole of the ring and placing the rod, spoke or plate 5 in the holes 9 and 10, they are fixed with a bolt inserted through the hole on the ring and the hole 8 of the bracket 1 (Fig. 9), which creates a clamping force. The rod mounted in the bracket can be threaded or threadless, metal, polymer.

Ring 2 (Fig. 2) is made with holes having a profile groove, which may have a triangular section 11 (Fig. 3), rectangular 12 (Fig. 4), semicircular 13 (Fig. 5).

The half ring 3 (Fig. 6) is also made with figured holes having a profile groove, the cross section of which can be made triangular 11, square 12, semicircular 13. The ends of the half ring 3 are made with an angular bevel for combining two half rings with an overlap, which ensures the connection of the half rings in one the plane.

_^1/4 ring 4 (FIG. 7) is also satisfied with shaped holes having a profiled groove, the cross section of which may be triangular 11, square 12, semicircular 13.

The plate 5 (Fig. 8) is also made with holes with a profile groove, which in cross section can be triangular 11, square 12, semicircular 13. The extreme holes 14 and 15 of the plate, intended for connection with other structural elements, are made in such a way that their profile grooves are directed to the ends of platinum 5. Rings and plates are made of metal, plastic, carbon.

The telescopic distraction rod 6 (Fig. 10, Fig. 12) two-section is a node consisting of a cylindrical hollow body 16 with a longitudinal groove 17. At one end of the housing 16 there is a clamping collet 18 in which a cylindrical rod 19 is installed, the position of which is fixed conical nut 20. On the opposite side of the housing 16, an outer flange 21 is made at the end, preventing the snap ring 22 mounted on the housing 16 from slipping with the internal thread. In the housing 16 there is a threaded rod 23, in which, through the longitudinal groove 17, a stabilizing bolt 24 is installed perpendicular to the axis of the rod. The stabilizing bolt 24 prevents the rotation of the rod 23 in the housing 16. A sleeve 25 is screwed onto the threaded rod 23, the external thread of which is mated to the internal thread of the ring 22. The connected sleeve 25 and the ring 22 constitute a link that regulates a smooth dosed change in the length of the telescopic rod. The rotation of the control link (sleeve 25, ring 22) to the right or left leads the threaded rod 23 out of the housing 16, or deepens into the housing, which leads to a smooth extension or shortening of the telescopic rod 6, and having reached the desired length, the position is fixed by the locking ring 22. Loosening the nut 20 and moving the rod 19 up or down relative to the housing 16, also achieve elongation or shortening of the telescopic rod 6. Thus, the length of the telescopic rod 6 is adjustable on both sides.

The distraction telescopic rod 6 is connected to the supporting structural members by means of a connecting unit (Fig. 13), in which a chain connection is used, namely a hinged connection of a pair of half links 26 and 27 along their torus surfaces. In each half-link, a profile groove of square section is made. The half link 26 is configured to connect to a threaded rod 23, and the half link 27 is configured to connect to a supporting structural member. The hinge, consisting of half links 26 and 27, is placed in a polymer casing, for example, a heat-shrinkable sealing tube 28, which provides flexibility of the hinge, lightens the weight of the structure.

The three-section telescopic rod 7 shown in FIG. 11 and FIG. 14, consists of a cylindrical hollow body 16 with a longitudinal groove 17, and a threaded rod 23 inserted in the housing 16 with the possibility of longitudinal movement relative to the housing, as well as a threaded rod 29 inserted in the threaded rod 23 with the possibility of longitudinal movement.

The housing 16 is made with an outer flange 21 at the end, preventing the slip ring 22 from slipping with the internal thread. The stabilizing bolt 24, driven through the longitudinal groove 17, prevents the rod 23 from rotating in the housing 16. A sleeve 25 is screwed onto the threaded rod 23, mating with the external thread with the internal thread of the locking ring 22. The rotation of the sleeve 25 and the locking ring 22 causes the threaded rod 23 to move relative to of the housing 16, and the rod is fixed in the desired position by the locking ring 22. At the end of the threaded rod 23, an outer flange 30 is made that prevents the locking ring 31 from sliding off the rod 23. The locking ring 31 is made with an internal thread, with screwed onto the external thread of the sleeve 32 screwed onto the threaded rod 29. Thus, a smooth metered extension of the telescopic rod 7 is performed only on one side of the rod using the threaded rods 23, 29 and two corresponding control links (sleeve 25, ring 22), (sleeve 32 and snap ring 31.)

The connection of the three-knee telescopic rod with supporting structural elements is carried out using hinged nodes (see Fig. 13).

Claims (5)

1. Orthopedic transformer of external transosseous fixation for the treatment of fractures and bone deformities, consisting of supporting structural elements in the form of rings, half rings,

rings, plates with mounting holes, as well as two-section telescopic rods, knitting needles and rods, bolts and nuts, characterized in that the device is supplemented with three-section telescopic rods and a mounting unit in the form of a bracket with a threaded hole in the base of the bracket and a pair of coaxial holes at the ends of the bracket, which perform with a profile groove; also all mounting holes in the rings, half rings,

rings and plates are made with a profile groove, a two-section telescopic rod consists of a cylindrical hollow body with a longitudinal groove, in which a cylindrical rod is installed, the position of which is fixed with a conical nut, an outer flange is made on the end of the body on the end to prevent the snap ring mounted on the housing from slipping off internal thread, a threaded rod is located in the housing, in which a stabilizing bolt is installed through the longitudinal groove perpendicular to the w axis The stabilizing bolt prevents rotation of the rod in the housing, a sleeve is screwed onto the threaded rod, the external thread of which is mated to the internal thread of the retaining ring, the connected sleeve with the external thread and the retaining ring constitute a link that regulates a smooth dosed change in the length of the telescopic rod, rotation of the adjusting link to the right or left threaded rod out of the housing or deepens into the housing, which leads to a smooth extension or shortening of the telescopic rod, and reaching the desired length, position they are fixed with a retaining ring, loosening the conical nut and moving the rod up or down relative to the housing, they also achieve elongation or shortening of the telescopic rod, so the length of the two-section telescopic rod is adjustable on both sides, the three-section telescopic rod consists of a cylindrical hollow body with a longitudinal groove and the first threaded rod inserted into a cylindrical hollow body with the possibility of longitudinal movement relative to the body, as well as the second threaded rod, inserted into the first threaded rod with the possibility of longitudinal movement, the housing is made with an outer flange at the end, preventing the retaining ring from slipping with the internal thread, a stabilizing bolt inserted through the longitudinal groove prevents the rotation of the first threaded rod in the housing, a sleeve is screwed onto the first threaded rod, mating the outer thread with internal thread of the locking ring, rotation of the sleeve and the locking ring leads to the movement of the first threaded rod relative to the housing, and fix the first the threaded rod in the desired position by the locking ring, an outer flange is made at the end of the first threaded rod, preventing the locking ring from slipping off the first threaded rod, the locking ring is made with an internal thread that mates with the external thread of the sleeve screwed onto the second threaded rod, thus smoothly dosing the extension of the three-section telescopic rod is carried out only on one side of the rod, the telescopic rods are connected to the supporting structural elements using a hinged joint half-links placed in a polymer casing. 2. The orthopedic transformer according to claim 1, characterized in that the profile groove has a triangular section. 3. Orthopedic transformer according to claim 1, characterized in that the profile groove has a rectangular cross-section. 4. The orthopedic transformer according to claim 1, characterized in that the profile groove has a semicircular section. 5. Orthopedic transformer according to claim 1, characterized in that the polymer casing is made in the form of a heat shrink tube.

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