RU2824254C1 - Biodegradable antibacterial bioactive cerclage tape for covering fixation of bone fragments and splinters in fractures and defects of long bones - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: biodegradable bioactive cerclage tape for covering fixation of bone fragments and splinters in case of fractures and defects of long bones, comprising a connecting element, which includes a row of teeth located on one end of the tape, and a lock with a through hole for receiving a tape with a locking element, which blocks the tape inserted into the through hole from moving in the reverse direction. Tape is made from a composite formed from a biodegradable polymer, which includes a bioactive component. Tape is made of polycaprolactone PCL with length of 150 mm, 2 mm thick, 5 mm wide, or the tape is made of poly-L-lactic acid PLLA with length of 350 mm, thickness of 2 mm, width of 4 mm, or the tape is made of polyglycolic acid PGA, with length of 200 mm, thickness of 3 mm, width of 6 mm, or tape is made of polylactic-glycolic acid PLGA with length of 180 mm, thickness of 1 mm, width of 4 mm, or tape is made of poly-DL-lactic acid PDLLA, length of 280 mm, thickness of 1.5 mm, width of 6 mm.

EFFECT: invention provides low-traumatic fixation of bone fragments in fractures, combined with the possibility of having a favourable effect on osteogenesis, suppressing infectious processes and self-elimination after implantation.

7 cl, 7 dwg, 5 ex

Description

Field of technology.

The technical solution relates to medical equipment, namely to immersion fixing devices for osteosynthesis, and can be used in traumatology and orthopedics for surgical treatment of fractures and post-traumatic defects of long tubular bones.

State of the art.

A surgical cerclage bandage made of titanium alloy (RU 2393809) is known, consisting of a bandage tape and a connecting element, part of the bandage tape has paired fixing pins located along the length of the tape at a distance of 20-40 mm from each other on the side opposite to the location of the connecting element, and the connecting element additionally contains two clamps in the form of protrusions located on the sides of the tape at an angle of 90° to it with the possibility of bending and pressing against the tape.

There are cerclage band without fixing spikes Cerclage Band Cerclage and cerclage band with two spikes Band with spikes (Registration certificate for medical device FSZ 2008/02848 https://nevacert.ru/reestry/med-reestr/fsz-2008-02848-o38248), cerclage band Tabe / Thabe with a retainer, titanium (width 5.8 mm; length 240 and 260 mm) and cerclage band with a retainer made of stainless steel, width 5 mm, length 164 mm (Registration certificate for medical device RZN 2021/14753 https://nevacert.ru/reestry/med-reestr/rzn-2021-14753-49306).

At the same time, the Thabe cerclage tape with a lock, due to its wide contact surface, distributes the compression force evenly along the entire perimeter and the tape does not cut into the bone. At one end of the tape there is a lock with a gear transmission, driven by a hex screwdriver, and at the other end there is a hole for reliable grip and tightening. The surface of the tape at the lock has a corrugated part, which preserves the periosteal blood supply necessary for rapid fusion of bone fragments. Titanium is biocompatible, which allows you to leave the tape in the body for a longer period of time. The cerclage tape with a stainless steel lock has a lock with a gear transmission at one end of the tape, and at the other end there is a hole for reliable grip and tightening.

The problem is that the known cerclage bands are made of metal alloys, titanium, steel, they suppress adjacent tissues and are not able to induce and maintain osteogenesis, in addition, they remain in the body forever or require surgical removal. The materials of the analogs do not create calcium phosphate crystallization centers necessary for the formation of osteoid. The analogs do not integrate with the bone and do not grow into bone tissue, do not provide rigid, enveloping, low-traumatic fixation of cylindrical implants to bone fragments. The material of the analogs does not allow for the prevention of infectious complications, which leads to careful use of such cerclage in open fractures, and it is extremely undesirable to use analogs in an active infectious process.

The essence of the technical solution.

The technical task is to ensure the possibility of fixing bone fragments and splinters in comminuted fractures of long bones, stabilizing the area of contact of the ends of fragments with the implant when replacing bone defects, covering the cavity of non-through bone defects without losing the stability of fragments and splinters in a given position, in combination with the ability to favorably affect osteogenesis, suppress infectious processes and self-eliminate after implantation.

The technical result consists in providing low-traumatic fixation of bone fragments and fragments in fractures, in combination with the ability to have a beneficial effect on osteogenesis, suppress infectious processes and self-eliminate after implantation.

The cerclage tape ensures the stability of bone fragments and shards, the ability to cover non-through bone defects and the gradual induction of the process of bone substance formation in the area of installation, at the fracture site, the contact of the ends of the fragments and the surface of the implant when replacing defects, and in the cavity of the defects. At the same time, it reduces the risk of infectious complications and expands the scope of application of cerclage tapes, including in open and multi-fragmentary fractures, prosthetics.

The technical result is achieved in that the biodegradable bioactive cerclage tape for enveloping fixation of bone fragments and splinters in fractures and defects of long bones contains a connecting element including a row of teeth located at one end of the tape and a lock with a through hole for receiving the tape with a locking element that blocks the tape inserted into the through hole from moving in the opposite direction. The tape is made of a composite formed from a biodegradable polymer, which includes a bioactive component, wherein the tape is made of polycaprolactone PCL 150 mm long, 2 mm thick, 5 mm wide; or the tape is made of poly-L-lactic acid PLLA 350 mm long, 2 mm thick, 4 mm wide; or the tape is made of polyglycolic acid PGA, 200 mm long, 3 mm thick, 6 mm wide; or the tape is made of polylactic-glycolic acid PLGA, 180 mm long, 1 mm thick, 4 mm wide; or the tape is made of poly-DL-lactic acid PDLLA, 280 mm long, 1.5 mm thick, 6 mm wide.

It is envisaged that the cerclage tape may be made of a composite saturated/saturated with an antibacterial drug, such as ofloxacin and/or vancomycin and/or gentamicin, where the composite mass contains: a bioactive component, a polymer, an antibacterial drug. The antibacterial drug is released after implantation, suppresses bacteria sensitive to it, and thus allows for the prevention of infectious complications. The antibacterial drug of the cerclage tape acting locally in combination with systemic administration of an antibiotic to the patient allows for a more effective effect on pathogenic microorganisms. The antibacterial drug may be located in the surface layer of the tape material or in the volume of the tape material.

It is envisaged that the cerclage tape can be made with a network of through transverse holes, along its entire length or in separate sections, contacting the bone during installation of the cerclage tape. The formation of bone substance occurs inside such holes, and as the polymer included in the cerclage tape material degrades, the bone mass increases under the influence of the released bioactive component, reparative osteogenesis is stimulated based on osteoinduction and osteoconductive capabilities, and the process of osseointegration of the cerclage tape is ensured.

It is assumed that the cerclage tape is made of a composite formed from a degradable polymer, into the volume of which a bioactive component is included, using additive technology, by layer-by-layer build-up of the material, contains a network of transverse through holes with a diameter of up to 300 microns.

The compression force is evenly distributed along the entire perimeter and the tape does not cut into the bone. The tape maintains the periosteal blood supply necessary for rapid fusion of bone fragments.

The invention is illustrated by diagrams:

Fig. 1 - general view of a biodegradable bioactive cerclage tape, where the connecting element is made with a lock in the form of two holes located sequentially on the surface of the tape, one of which is intended for the free passage of the tape, and the second hole serves as a locking element, made with protrusions that block the movement of the tape upon contact with the teeth;

Fig. 2 - general view of a biodegradable bioactive antibacterial cerclage tape, where the connecting element is made with a lock in the form of a head molded at the end of the tape, with a through channel parallel to the tape, wherein the locking element is made in the form of a tooth on the head, blocking the movement of the tape upon contact with the teeth;

Fig. 3 - general view of a biodegradable bioactive cerclage tape, where the connecting element is made with a lock in the form of two holes located sequentially on the surface of the tape, one of which is intended for the free passage of the tape, and the second hole serves as a locking element, made with projections that block the movement of the tape upon contact with the teeth, the surface of the tape is equipped with a network of through holes;

Fig. 4 - photograph of the biodegradable bioactive cerclage tape in an unfolded form;

Fig. 5 - photographs of biodegradable bioactive cerclage tape with the ends connected in a lock;

Fig. 6 - view of the cerclage tape installed on the bone;

Fig. 7 - view of the cerclage tape installed on the bone with a cylindrical implant.

In Fig. 1-7 it is indicated:

1 - first end;

2 - the second end;

3 - tooth;

4 - lock;

5 - hole;

6 - locking element;

7 - head;

8 - transverse holes;

9 - bone;

10 - implant.

Implementation of the invention.

The cerclage tape (Figs. 1 through 7) is intended for the enveloping fixation of bone fragments and splinters in fractures and defects of long bones 9. The cerclage tape is made biodegradable, bioactive, and also antibacterial in a particular embodiment. The cerclage tape has two ends 1 and 2, contains a connecting element including a row of teeth 3 located at one end 1 of the tape and a lock 4 with a through hole 5 for receiving the tape with a locking element 6, which blocks the tape inserted into the through hole 5 from moving in the opposite direction. The cerclage tape is made of a composite formed from a degradable polymer, which includes a bioactive component. In different embodiments, the bioactive component can be located in the surface layer of the tape material or in the volume of the tape material. The cerclage tape is made of polycaprolactone PCL or poly-L-lactic acid PLLA or polyglycolic acid PGA or polylactic-glycolic acid PLGA or poly-D-lactic acid PDLA or poly-DL-lactic acid PDLLA, or a polymer with similar properties, saturated with a bioactive component such as hydroxyapatite and/or tricalcium phosphate and/or biphasic calcium phosphate and/or deproteinized bone tissue. The bioactive component makes up from 10 to 25% of the composite mass, the rest is polymer.

It is envisaged that the cerclage tape may be made of a composite saturated with an antibacterial drug, such as ofloxacin and/or vancomycin and/or gentamicin, where the composite mass contains: a bioactive component, a polymer, an antibacterial drug. The antibacterial drug is released after implantation, suppresses bacteria sensitive to it, and thus allows for the prevention of infectious complications. The antibacterial drug of the cerclage tape acting locally in combination with systemic administration of an antibiotic to the patient allows for a more effective effect on pathogenic microorganisms. The antibacterial drug may be located in the surface layer of the tape material or in the volume of the tape material.

It is envisaged that the cerclage tape may be made with a network of through transverse holes 8, along its entire length or in individual sections contacting the bone 9, during the installation of the cerclage tape. The formation of bone substance occurs inside such holes 8, and as the polymer included in the cerclage tape material degrades, the bone mass increases under the influence of the released bioactive component, reparative osteogenesis is stimulated based on osteoinduction and osteoconductive capabilities, and the process of osseointegration of the cerclage tape is ensured.

It is assumed that the cerclage tape is made of a composite formed from a degradable polymer, into the volume of which a bioactive component is included, using additive technology, by layer-by-layer build-up of the material, contains a network of transverse through holes 8 with a diameter of up to 300 microns.

Example 1 (Fig. 1).

Cerclage tape biodegradable bioactive for enveloping fixation of bone fragments and splinters in fractures and defects of long bones (Fig. 1). Made of composite formed from degradable polymer polycaprolactone PCL, which includes a bioactive component - hydroxyapatite in a mass of 10% located in the surface layer of polycaprolactone PCL intended for contact with bone.

Length 150 mm, thickness 2 mm, width 5 mm (along the projections of the teeth 3). The cerclage tape has a first end 1 and a second end 2, as well as a connecting element including a row of teeth 3 located on the first end 1 of the tape and a lock 4 located on the second end of the tape, with a through hole 5 for receiving the tape with a locking element that blocks the tape inserted into the through hole 5 from moving in the opposite direction. The locking element 6 is made in the form of a second hole, a figured shape with projections intended for contact with the teeth 3.

The connecting element is made with a lock 4 in the form of two holes located sequentially on the surface of the tape, one hole 5 is intended for the free passage of the tape, and the second hole serves as a locking element 6, made with projections that block the movement of the tape upon contact with teeth 3. End 1 is fixed with lock 4 on end 2 to form a loop.

Example 2 (Fig. 2).

Cerclage tape biodegradable bioactive antibacterial for enveloping fixation of bone fragments and splinters in fractures and defects of long bones (Fig. 2). Made of a composite formed from a degradable polymer, poly-L-lactic acid PLLA, which includes a bioactive component - tricalcium phosphate (25% by weight located in the volume of the polymer poly-L-lactic acid PLLA) and gentamicin.

Length 350 mm, thickness 2 mm, width 4 mm. The cerclage tape has a first end 1 and a second end 2, as well as a connecting element including a row of teeth 3 located on the first end 1 of the tape and a lock 4 located on the second end of the tape, with a through hole 5 for receiving the tape with a locking element 6, which locks the tape inserted into the through hole 5 from moving in the opposite direction. The connecting element is made with a lock 4 in the form of a head 7, with a through hole 5 (channel) parallel to the tape, wherein the locking element 6 is made in the form of a tooth on the head 7, blocking the movement of the tape upon contact with the teeth 3. End 1 is fixed to end 2 with a lock 4 to form a loop.

Example 3 (Fig. 3).

Cerclage tape biodegradable bioactive for enveloping fixation of bone fragments and splinters in fractures and defects of long bones (Fig. 3). Made of composite formed from degradable polymer polyglycolic acid PGA, which includes a bioactive component - biphasic calcium phosphate in a mass of 20% located in the volume of polyglycolic acid PGA.

Length 200 mm, thickness 3 mm, width 6 mm (along the projections of the teeth 3). The cerclage tape has a first end 1 and a second end 2, as well as a connecting element including a row of teeth 3 located on the first end 1 of the tape and a lock 4 located on the second end of the tape, with a through hole 5 for receiving the tape with a locking element that blocks the tape inserted into the through hole 5 from moving in the opposite direction. The locking element 6 is made in the form of a second hole, a figured shape with projections intended for contact with the teeth 3.

The connecting element is made with a lock 4 in the form of two holes located sequentially on the surface of the tape, one hole 5 is intended for the free passage of the tape, and the second hole serves as a locking element 6, made with projections that block the movement of the tape upon contact with teeth 3. End 1 is fixed with lock 4 on end 2 to form a loop.

Example 4 (Fig. 4; 5).

Cerclage tape biodegradable bioactive for enveloping fixation of bone fragments and splinters in fractures and defects of long bones (Fig. 4). Made of a composite formed from a degradable polymer of polylactic-glycolic acid PLGA, which includes a bioactive component - deproteinized bone tissue in a mass of 15% located in the volume of the polymer of polylactic-glycolic acid PLGA.

Length 180 mm, thickness 1 mm, width 4 mm (along the projections of the teeth 3). The cerclage tape has a first end 1 and a second end 2, as well as a connecting element including a row of teeth 3 located on the first end 1 of the tape and a lock 4 located on the second end of the tape, with a through hole 5 for receiving the tape with a locking element that blocks the tape inserted into the through hole 5 from moving in the opposite direction. The locking element 6 is made in the form of a second hole, a figured shape with projections intended for contact with the teeth 3.

The connecting element is made with a lock 4 in the form of two holes located sequentially on the surface of the tape, one hole 5 is intended for the free passage of the tape, and the second hole serves as a locking element 6, made with projections that block the movement of the tape upon contact with teeth 3. End 1 is fixed with lock 4 on end 2 (Fig. 5) to form a loop.

Example 5 (not shown in the figures).

Cerclage tape biodegradable bioactive antibacterial for covering fixation of bone fragments and splinters in fractures and defects of long bones with a network of transverse holes. Made of composite formed from degradable polymer, poly-DL-lactic acid PDLLA, which includes a bioactive component - hydroxyapatite in a mass of 25% and vancomycin and ofloxacin.

Length 280 mm, thickness 1.5 mm, width 6 mm. The cerclage tape has a first end 1 and a second end 2, as well as a connecting element including a row of teeth 3 located on the first end 1 of the tape and a lock 4 located on the second end of the tape, with a through hole 5 for receiving the tape with a locking element 6, which locks the tape inserted into the through hole 5 from moving in the opposite direction. The connecting element is made with a lock 4 in the form of a head 7, with a through hole 5 (channel) parallel to the tape, wherein the locking element 6 is made in the form of a tooth on the head 7, blocking the movement of the tape upon contact with the teeth 3. End 1 is fixed to end 2 with lock 4 to form a loop. The surface of the tape contains a network of transverse holes with a diameter of 300 μm.

Use (Fig. 6; 7).

To install the cerclage band, the bone is opened in the appropriate places using surgical instruments. The first end 1 of the cerclage band is inserted under the bone or fragments, encircles the bone, and is brought out at end 2, encircling the bone with a loop. Then end 1 is pulled through opening 5 of lock 4 and fixed with locking element 6. In this case, the band encircles and compresses the bone and/or fragments (Fig. 6) or the ends of the implant (Fig. 7) if it is used to fix the implant. The free end of the band coming out of lock 4 is cut off.

In the example in Fig. 6, the application of four cerclage bands of the claimed design ensured reliable compression fastening of bone fragments of the tibia, stable fixation and osseointegration of bone fragments. The cerclage band integrates with the bone, bone tissue grows in, and rigid, enveloping, low-traumatic fixation is ensured.

The cerclage tape allows fixing bone fragments and splinters in comminuted fractures of long bones, as well as implants (Fig. 7). The cerclage tape stabilizes the area of contact of the ends of the fragments with the implant when replacing bone defects, covering the cavity of non-through bone defects without losing the stability of the fragments and splinters in a given position.

The degradable polymer, which includes a bioactive component, gradually dissolves after installation (complete decomposition occurs after bone fusion, not earlier than 3 months), and releases the bioactive component, which has a beneficial effect on osteogenesis. For specific cases of the invention, when the composite contains an antibacterial drug, the process of polymer resorption releases the antibacterial drug, which suppresses infectious processes. This reduces the risk of infectious complications and expands the scope of application of cerclage tapes, including open and multi-fragmentary fractures, prosthetics.

Claims (7)

1. A biodegradable bioactive cerclage tape for enveloping fixation of bone fragments and splinters in fractures and defects of long bones, comprising a connecting element including a row of teeth located at one end of the tape, and a lock with a through hole for receiving the tape with a locking element that blocks the tape inserted into the through hole from moving in the opposite direction, characterized in that the tape is made of a composite formed from a biodegradable polymer that includes a bioactive component, wherein the tape is made of polycaprolactone PCL 150 mm long, 2 mm thick, 5 mm wide; or the tape is made of poly-L-lactic acid PLLA 350 mm long, 2 mm thick, 4 mm wide; or the tape is made of polyglycolic acid PGA, 200 mm long, 3 mm thick, 6 mm wide; or the tape is made of polylactic-glycolic acid PLGA, 180 mm long, 1 mm thick, 4 mm wide; or the tape is made of poly-DL-lactic acid PDLLA, 280 mm long, 1.5 mm thick, 6 mm wide. 2. A biodegradable bioactive cerclage tape according to claim 1, characterized in that the composite is saturated with an antibacterial drug, for example, ofloxacin and/or vancomycin and/or gentamicin. 3. A biodegradable bioactive cerclage tape according to item 1, characterized in that it is made with a network of through transverse holes. 4. A biodegradable bioactive cerclage tape according to claim 1, characterized in that it is made from a composite formed from a degradable polymer, the volume of which includes a bioactive component, using additive technology, by layer-by-layer build-up of material, and contains a network of transverse through holes with a diameter of up to 300 µm. 5. A biodegradable bioactive cerclage tape according to claim 1, characterized in that the bioactive component is located in the surface layer or the bioactive component is located in the volume of the tape material. 6. A biodegradable bioactive cerclage tape according to claim 1, characterized in that it contains hydroxyapatite and/or tricalcium phosphate and/or biphasic calcium phosphate and/or deproteinized bone tissue as the bioactive component. 7. A biodegradable bioactive cerclage tape according to claim 1, characterized in that the tape is saturated with hydroxyapatite in a mass of 10 to 25%.