RU2391069C1 - Device for treatment of complicated fractures of tubular bones - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: device contains a cylindrical stepped pin and a fastening face of the stage in a larger diametre for attachment to the conductor, with a tip in the stage of a smaller diametre and made in stages transverse, cross-cutting, blocking holes for the location of locking screws at fixing the pin to the proximal and distal bone fragments. The pin is made detachable and consists of a body and a removable tip, which plays a part of a cork and is sealed with the body through threaded connection. The coaxial sequential cavity is made in the body. At the tip there is a hollow cavity communicated with the through body cavity for placement of microbicides. In the stage of a smaller diametre of pin furrows are made located on the outer surface of this stage, parallel to the pin axis. The flowing holes are made in the furrows passing through the wall of the stage of a smaller diametre at an angle of inclination of the axes of the openings to the pin axis toward the tip of no more than 75, at that the holes are located around this stage on a screw line, with constant pitch between the axes of holes and hole diametre gradually decreasing to the tip. At the tip there are at least two evenly spaced flowing holes connected through the bottom of a hollow cavity and located with the slope of the axes of the openings to the pin axis at an angle of no more than 45. A blocking stage hole of greater diametre is made oval, and one of the blocking screws is made with coaxial channel and two perpendicular flowing holes passing through the screw for additional submission of microbicide through the cannula. Flowing holes made in the specified screw are located in planes perpendicular to the screw axis and are equidistant from the pin axis at a distance not greater than 1/6 of the diametre of the through body cavity. The head of this blocking screw is made with a hexagonal cavity for the key for screw locking, and with a cavity with a carving for mounting the cannula to the screw. The body and tip surfaces are made with a silver coating. ^ EFFECT: invention allows recovery of patient's support ability at fractures of tubular bones complicated by infection, increase bone strength and reliability of osteosynthesis with simultaneous treatment, elimination of causative agents of infection, recovery of diseased tissue up to a full recovery, the simplicity of the device, reduction of terms of treatment. ^ 2 cl, 5 dwg

Description

The invention relates to medicine, namely to traumatology and orthopedics, and can be used in clinical practice in the treatment of complicated oblique, helical, coarse, multi-fragmented (non-supportive) fractures of tubular bones by intraosseous osteosynthesis.

A device is known for treating open bone fractures complicated by purulent infection of soft tissues, osteonecrosis, arthritis (see patent RU 2100976, class A61B 17/56, 1995). In the device, transosseous osteosynthesis is performed by applying the Ilizarov apparatus to the operated limb, the spokes of which are passed through the wound, or through infiltrated tissues, and after applying the apparatus, distraction is created. During the operation, a container with a sorbent with dioxide is brought down to the medullary canal or into the joint cavity, with the help of which indirect lymphotropic therapy is carried out. After stopping the wound infection, compression is performed with the simultaneous application of secondary sutures. Using the spokes of the Ilizarov apparatus, in combination with these measures, they achieve a decrease in endogenous intoxication, suppression of the microflora present, prevention of secondary infection, development of osteomyelitis and local

purulent-inflammatory complications, which is achieved by reducing the average length of stay of patients in a hospital. However, after the operation on the following days, it is necessary to additionally perform an injection with broad-spectrum antibiotics.

A device for the treatment of fractures, bones of the leg, complicated by infection (see http://travmatology.narod.ru/tezis01.htm).

This device contains an external fixation apparatus, together with which, both before the operation and after it, they perform intra-arterial osmoenzyme reflexotherapy. In osteosynthesis and compression arthrodesis of large joints, the foci of infection are affected by electromagnetic radiation of increased frequency and low intensity (EHM EHF NI therapy), after which bone grafting is performed by allogeneic bone matrix (AKM), which is used in the form of chips and sponges. This ensures the replacement of parietal bone defects in the corticotomy with primary healing of wounds, their quick cleaning from necrotic tissue, the development of healthy granulation tissue, which allows to improve blood flow and trophic limbs. Surgical treatment of purulent wounds is performed to the entire depth of the segment, including bone, sequestrnecrectomy, or circular resection of the purulent-necrotic lesion, with adequate drainage or open wound management is performed.

However, with increased trauma to the bone and soft tissues, it is extremely difficult to determine the degree of elimination of the infection, and long-term follow-up by experienced surgeons requires treatment outcomes (up to 7 years). In order to prevent recurrence of purulent complications in the postoperative period, wound dialysis is additionally performed with solutions of antiseptics and antibiotics, which requires additional expensive equipment.

In addition, the treatment of fractures in the above analogues is performed by external fixation devices, which leads to the risk of osteomyelitis associated with the use of knitting needles for fixation. In addition, the increased time spent on assembling the device during surgery, as well as on caring for the device, is difficult for patients and creates problems for doctors. The device is inconvenient for patients, limits their mobility and increases treatment time.

The work http://www.znaj.ru/html/1861_2.html) proved that the most reliable for the treatment of complicated fractures of the tubular bones is closed intraosseous osteosynthesis using an intramedullary pin.

Known devices for treating fractures of tubular bones using an intramedullary pin (see US Pat. No. 2271768, 2006, US 5352228, 1994, US 7056322, 2006).

The closest analogue is a device for the treatment of complicated fractures of tubular bones, containing a cylindrical step pin with a fastening end in a step of a larger diameter for attachment to a jig, with a tip in a step of a smaller diameter and, with steps made in it, transverse, through, blocking holes for blocking screws when locking the pin to the proximal and distal bone fragments (see US Pat. No. 7056322, 2006).

However, from experience in treating open fractures with closed osteosynthesis using an intramedullary pin, it is known that, as a rule, this process is complicated by an infection: soft tissue necrosis, extensive purulent wounds that can spread to the entire segment of the limb, including bone. Moreover, the lack of funds for the treatment of infection leads to the development of purulent-septic complications and may lead to the need to remove metal structures. This creates obstacles to the immobilization of fracture fragments in the most acute period, significantly increases the treatment time and can lead to amputation of the limb.

The objective of the proposed technical solution is to restore the patient's support ability for fractures of tubular bones complicated by infection, to increase the reliability of osteosynthesis and maintain the acceptable strength of the pin while eliminating foci of infection and pathogens of infection, to restore diseased tissue to complete reconvalescence, to shorten the treatment time for simplicity of the device at the same time.

To solve the problem in the proposed device for the treatment of complicated fractures of tubular bones, containing a cylindrical step pin with a fastening end in a step of a larger diameter for attachment to a conductor, with a tip in a step of a smaller diameter and, with steps made in it, transverse, through, blocking holes for the location of the locking screws when locking the pin to the proximal and distal bone fragments, according to the invention, the pin is collapsible and consists of a housing and a removable onegnik, which acts as a cork and is fastened to the housing by a threaded connection, moreover, a coaxial through cavity is made in the housing, and a blind cavity is made in the tip, which communicates with the through cavity of the housing to accommodate bactericidal agents, while grooves located on the lower diameter of the pin are made the outer surface of this stage, parallel to the axis of the pin, and in the grooves are made flowing holes passing through the wall of the step of a smaller diameter at an angle of inclination of the axis of the holes to the axis of the pin in a hundred the tip, not greater than 75 °, and the holes are located around this step along a helical line, with a constant pitch between the axes of the holes, and with the diameter of the holes gradually decreasing to the tip, and at least two uniformly arranged flow openings communicated in the tip through the bottom with a hollow cavity and the holes axially inclined to the axis of the pin at an angle not greater than 45 °, while one locking hole of the larger diameter step is oval, and one of the locking screws is made coaxial to with an analog and with two mutually perpendicular flowing holes passing through this screw for additional supply of bactericidal agents through the cannula, and the flowing holes made in the specified screw are located in planes perpendicular to the axis of the screw and are equidistant from the axis of the pin by a distance of not more than 1 / 6 of the diameter of the through cavity of the housing, while the head of the specified locking screw is made with a hexagonal cavity for the key to lock the screw, and with a cavity with thread for attaching the cannula to this screw, and ited body and tip are made from silver-plated. In addition, according to the invention, in the cross section of a step of a smaller diameter perpendicular to the axis of the pin, the gutters are located at an angle of 45 ° relative to each other, and 5-6 flow openings are made in each gutter.

The technical result of the proposed technical solution is to simplify the treatment of fractures of tubular bones complicated by infection due to the possibility of using an intramedullary pin filled with bactericidal agents to simultaneously treat fractures and eliminate foci of infection, while maintaining the acceptable strength of the pin. Performing reliable osteosynthesis, they eliminate the pathogens of the spread of infection, restore diseased tissues until complete recovery while increasing bone strength after regeneration and shortening the treatment time.

Figure 1 shows a General view of the proposed intramedullary device without locking screws.

Figure 2 shows the locking screw, designed to additionally supply bactericidal agents from the system through the cannula.

FIG. 3 shows a view A of an oval locking hole in a pin.

Figure 4 shows the cross section of the pin BB.

Figure 5 shows the cross section of the pin along BB.

The device comprises a cylindrical step pin 1 having a step 2 of a larger diameter, made with a mounting end 3, and a step 4 of a smaller diameter, made with a tip 5. In steps 2, 4 there are transverse through holes for locking 6 for locking screws (screws are not shown in the drawings ) One of the locking screws 7 (see figure 2) is intended for additional supply of bactericidal agents. One locking hole 8, located in the stage 2 of the larger diameter of the pin, is oval, which is intended for axial compression, which is carried out some time after the operation. The fixing end face 3 of the pin is used for fastening with the conductor 9 when locking the pin to the proximal and distal fragments or for inserting a plug (not shown).

The pin 1 is made collapsible and consists of two parts: the housing 10 and the specified tip 5. The latter acts as a plug and can be fastened to the housing 10 by a threaded connection 11. In the housing 10, a through cavity 12 is made, and in the tip 5 there is a blind cavity 13 communicated with a cavity of 12, which is designed to accommodate bactericidal agents. In the step 4 of a smaller diameter, parallel to the axis of the pin of the trough 14 are evenly spaced on the surface of this step (see FIG. 1, FIG. 5). Flowing holes 15 are made in the troughs. Flowing holes 15 pass through the wall of the step 4 of a smaller diameter at an angle of inclination of the axis of the holes to the pin axis in the tip side, not greater than 75 °. These holes bend around step 4 along a helical line with a constant pitch between the axes of the holes and with the diameter of the holes gradually decreasing towards the tip.

At the tip 5, at least two flow openings 16 are made, which through the bottom 13 ¹ communicate a blind cavity 13 with a medullary canal. The angle of inclination of the axes of the flow openings 16 to the axis of the pin is not more than 45 °.

The locking screw 7 is made with a coaxial channel 17 and with two mutually perpendicular flowing holes 18, 19 passing through this screw 7, the axes of which are located in planes perpendicular to the axis of the screw 7 and are equidistant from the pin axis by a distance of 1/6 of the diameter d of the through cavity 12 of the housing 10, which is intended for uniform supply of bactericidal agents from the cannula into the medullary canal. In the head 20 of the screw 7, a turnkey hexagonal cavity 21 is made for screwing in the screw 7 when locking and a cavity 22 with a thread for attaching the cannula 23.

A hole 24 with a thread is made in the fixing end face 3 of the pin, in which, after locking the pin and removing the conductor 9, a plug is installed (not shown in the drawing). This hole 24 is in communication with the through cavity 12 of the housing 10.

The device is used as follows. Before the operation, the foci of infection are examined and the possibility of its spread through the soft tissues, including tissues affected by pyogenic bacteria. Bone infection is determined. The choice of antibiotics, antiseptics, fibrinolytically active plasma (FAP), hydroxyapatite and their dosage depend on the bacteriological diagnosis of the disease, and for each specific case on the condition of the lesion site of the patient. The sensitivity of the patient's flora to the prescribed drug and its age are taken into account.

The tip 5, which serves as a stopper, is screwed from the housing 10. The opened cavity 12 of the housing 10 of the pin 1 at the first stage is filled with antibiotic or hydroxyapatite with antibiotics in the required proportion. Antibiotics and hydroxyapatite with antibiotics are used in the form of granules or in the form of a gel. The diameter of the flow holes 15 of the step of the smaller diameter of the pin is reduced to the tip from 2.5 to 2.0 mm, which eliminates the pouring or leakage of drugs when filling pin 1. After that, the cavity 12 of the housing 10 of the pin 1, filled with bactericidal agents, is closed with a stopper, which serves tip 5.

The patient is placed on the operating table and after reposition of the fragments, under the control of the image intensifier, they access the medullary canal of the injured bone. The pin 1, filled with the indicated bactericidal agents, is inserted through the prepared access under the control of the image intensifier into the medullary canal of this bone.

The locking of the pin in the medullary canal is performed according to the known technology (see US Pat. RU 2271768, 2006) using the conductor 9, fastened to the fastening end 3 of the pin using knitting needles and a trocar. The pin is locked with locking screws to the proximal and distal fragments. The locking screws are driven through the corresponding locking holes 6. The installation of the locking screw 7 is carried out with a key (not shown in the drawing), which, when locked, is inserted into the hexagonal cavity 21 of the head 20 of the screw 7, which increases convenience and helps reduce operation time.

Treatment of fractures occurs simultaneously with the treatment of foci of infection and is performed by an intramedullary pin. In this case, antibiotics or hydroxyapatite with antibiotics, passing through the cavity 12 of the housing 10 and through the flow openings 15, enter the gutters 14 in the form of a bactericidal mixture. The axes of the flow openings 15 pass through the wall of the step of smaller diameter at an angle relative to the axis of the pin to the side of the tip 5, not less than 75 °, which allows the bactericidal mixture to easily leak out of the cavity 12 through the openings 15 and evenly distributed along the grooves 14. The distribution of the axes of the flow openings 15 around steps 4 of smaller diameter are made along a helical line with a constant pitch between the axes of these holes 15, which is associated with maintaining the permissible strength of the pin. At the same time, uniform filling of the gutters with the mixture is achieved with the creation of a layer of bactericidal mixture in the medullary canal to eliminate the foci of infection.

In one embodiment of the proposed device, 8 gutters are made in the step of the smaller pin diameter, i.e. in the section of the step of a smaller diameter perpendicular to the axis of the pin, the axis of the grooves are located at an angle of 45 ° relative to each other, and 5-6 flow openings are made in each groove. When carrying out operations using this device, good osteosynthesis results and effective elimination of foci of infection were obtained, and acceptable mechanical characteristics of the pin were provided.

The axis of the flow openings 16 of the tip 5 is located at an angle of 45 ° to the axis of the pin, at the bottom 13 ^{1 of the} deaf cavity 13. This allows the bactericidal mixture from the deaf cavity 13 to easily drain through the openings 16 into the medullary canal. The presence of at least two holes allows you to evenly distribute the mixture in the medullary canal around the tip 5.

The experience of the operations made it possible to choose the most effective antibiotics for the treatment of infection, which were tested at all stages

purulent-necrotic forms of infection and gave the best results. These are cefazolin, gentamicin, ciprofloxacin, thienam. The indicated funds from the through and deaf cavities 12, 13 of the case 10 and tip 5, respectively, which entered the medullary canal in the form of a bactericidal mixture, cover all fragments affected by the infection. At the same time, the sites affected by the infection are resorbed, and defects, including bone tissue, are completely replaced by newly formed tissue, preventing hypertrophy. Hydroxyapatite, used with antibiotics, controls the process by correcting bone metabolism and increases bone strength after regeneration. At the same time, the reliability of treatment with intramedullary osteosynthesis increases.

After 2-3 weeks, to replenish the expended bactericidal agents, the cannula 23 connected to the bactericidal agent supply system (not shown in the drawing) is connected through a screw 7 to the cavity 12. To fasten the cannula with the screw 7, the cannula is screwed into the cavity 22 with a thread that is made in the head 20 of the screw 7, which increases convenience and reduces the time of operation. The locking screw 7 (see figure 2) can be placed in one of the round holes 6 or in the oval hole 8, the steps of the larger diameter of the pin, as shown in the proposed device, which is associated with the location of the foci of infection. From the system through the cannula, the channel 17 and the flow holes 18, 19 of the locking screw 7, the bactericidal agents enter the cavity 12 of the pin body 10. The location of the axes of the holes 18, 19 in the section planes perpendicular to the axis of the screw 7, at equal distances from the axis of the pin, at a distance from the axis of the pin equal to 1/6 of the diameter d of the through cavity 12 of the housing 10, provides a uniform supply of bactericidal agents and their uniform mixing in cavity 12. Next, the resulting bactericidal mixture, as described above, flows from the cavities 12, 13 through the flow openings 15, 16 into the medullary canal. As bactericidal agents coming from the cannula, with an additional supply, use FAP, antibiotics: cefazolin, gentamicin, ciprofloxacin, thienam and antiseptics. FAP serves to “melt” blood clots, and also prevents their further development and growth, opens access to blood. The experience of the operations made it possible to choose antiseptics that were tested for treatment at all stages of purulent-necrotic forms of infection and showed the best results. This is chlorhexedine, lavasept.

Along with the treatment of fractures with an intramedullary pin, the infection is eliminated.

The device provides another additional supply of bactericidal agents to the medullary canal. For this, a dropper (not shown) is installed in the threaded hole 24 in place of the plug, which is connected through an additional cannula to the bactericidal agent supply system. This expands the possibilities of treatment.

The surface of the body and the cover of the pin are made with silver coating. The presence of grooves on the surface of the step 4 of smaller diameter increases the surface area of the pin, increasing the effect of the bactericidal properties of silver on the areas affected by the infection, with the complete elimination of the pathogens of the spread of infection. At the same time, the required concentration of the bactericidal mixture is maintained in the bone and soft tissues, and the intracellular exchange of the growth products of the restored tissue increases. The silver coating of the pin completely destroys pathogenic bacteria, viruses, fungi, spreading its effect to more than 650 types of bacteria (for comparison, the spectrum of action of any antibiotic is 5-10 types of bacteria).

Beneficial bacteria do not die from silver, as occurs with antibiotic treatment, which eliminates dysbiosis.

A device for treating the femur, tibia and humerus is proposed, although this does not limit the claims of the applicant, and the device can be used to treat fractures complicated by infection of other bones. Moreover, for the treatment of the femur, the proposed pin has a length of 285-480 mm with an outer diameter of 10 mm A pin is proposed for treating the tibia, which has a length of 280-420 mm with an outer diameter of 9 mm, and a pin for treating the humerus has a length of 205-300 mm with an outer diameter of 8 mm.

The technical and economic effect of the proposed device consists in treating fractures of tubular bones with the simultaneous elimination of foci of infection and suppurative processes with an intramedullary pin filled with bactericidal agents, maintaining the acceptable strength of the pin, combining the advantages of intramedullary osteosynthesis and simplifying the process of eliminating foci of infection, as well as reducing the time treatment of fractures complicated by infection until complete reconvalescence

Claims (2)

1. A device for the treatment of complicated fractures of tubular bones, comprising a cylindrical step pin with a fastening end in a step of a larger diameter for attachment to a jig, with a tip in a step of a smaller diameter and with transverse, through, blocking holes made in the steps for locating the locking screws when locking the pin to proximal and distal bone fragments, characterized in that the pin is made collapsible and consists of a body and a removable tip, which acts as a cork and a clamp flax with the housing by a threaded connection, moreover, a coaxial through cavity is made in the housing, and a blind cavity is made in the tip, communicated with the through cavity of the housing to accommodate bactericidal agents, while grooves located on the outer surface of this stage are parallel to the axis pin, and in the grooves are made flowing holes passing through the wall of the step of a smaller diameter at an angle of inclination of the axis of the holes to the axis of the pin towards the tip, not more than 75 °, and the holes I are located around this step along a helical line, with a constant step between the axes of the holes, and with the diameter of the holes gradually decreasing towards the tip, and at the tip there are made at least two evenly spaced, flowing holes communicated through the bottom with a blind cavity and located with the axes inclined holes to the axis of the pin at an angle not greater than 45 °, while one blocking hole of the larger diameter step is made oval, and one of the blocking screws is made with a coaxial channel and with two passing through this screw They are perpendicular to the flow openings for additional supply of the bactericidal agent through the cannula, and the flow openings made in the indicated screw are located in planes perpendicular to the axis of the screw and are equidistant from the pin axis to a distance not greater than 1/6 of the diameter of the through cavity of the housing, the head of the specified locking screw is made with a turnkey hexagonal cavity for locking the screw and with a threaded cavity for attaching the cannula to this screw, and the surface of the housing and the tip are made with sulfur ryanym coating. 2. The device according to claim 1, characterized in that in the cross section of a step of smaller diameter perpendicular to the axis of the pin, the gutters are located at an angle of 45 ° relative to each other, and 5-6 flow openings are made in each gutter.

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