RU81427U1 - CUNULATED SCREW FOR OSTEOSYNTHESIS - Google Patents

Abstract

The utility model relates to the field of medical technology, in particular to medical devices used in traumatology and orthopedics in the implementation of osteosynthesis. The result of using the proposed utility model is the possibility of stimulating bone tissue restoration due to the nanostructured calcium phosphate coating located on the surface of the screw, which is represented by active calcium phosphate crystals. The indicated result is achieved in that the cannulated screw for osteosynthesis contains a cannulated rod 1. The latter has a working 2 and fixing 3 ends. The working end 2 is made in the form of a screw. Furthermore, the pitch on the screw part is 4 mm. At the mounting end 3, a cylindrical head 4. is made. It has a countersunk hexagonal hole 5 for the socket wrench. On the cylindrical outer surface 6, located between the working and mounting ends, a layer of nanostructured calcium phosphate coating is applied.

Description

The utility model relates to the field of medical technology, in particular to medical devices used in traumatology and orthopedics in the implementation of osteosynthesis.

A device for connecting a longitudinal holder with a bone fixer is known for connecting a longitudinal holder (11) with a bone fixer (1), in particular, with a screw for the leg of the vertebral arch containing A) a connecting element (5) mounted coaxially with respect to to the central axis (2), with the upper end (6), the lower end (7), the cavity (8) made coaxially with respect to the central axis (2) passing through the connecting element (5) from the upper end (6) to the lower end (7), which is made tapering in towards its lower end (7) in the form of at least one shoulder (9), and with a channel (10) passing through the connecting element (5), transversely to the longitudinal axis (2), for installation of a longitudinal holder ( eleven); B) a sealing cap (12) containing a front end (20), a rear end (19), a second cavity (18) opening at the front end (20) for installation of a connecting element (5) and a second channel (17) extending laterally with respect to the central axis (2) and opening towards the front end (20) of the sealing cap (12); and C) tightening means (13) that can be fixed on the sealing cap (12) at its rear end (19) and with which the longitudinal holder (11) installed in the channel (10) can be fixed in the connecting element ( 5), whereby D) snap-on fixing means (21) are installed outside of the connecting element (5) and in the second cavity (18) of the sealing cap (12), which are arranged so that they complement each other, which serves to fix the sealing cap (12) on the connecting element (5) in which rum E) the device contains a means (35) of fixation, by means of which the head 30 of the screw of the means 1 of fixing the bone is fixed in the cavity 8 (Application No. 2004118720, RF. Publ. 2005.06.27).

A device for the treatment of fractures (pseudoarthrosis) of the femoral neck and intertrochanteric valgus osteotomy, including a spongy screw and a bracket from

nickel-titanium, in which the spongy screw is a support for the impression bracket in the area of the slope of the greater trochanter, and the bracket is additionally C-shaped in the plane of the legs, with one leg having a ring-shaped shape (Application No. 96112453 of the Russian Federation. Publ. 1998.09.27).

A known implant containing a plate in which holes for screws are made, the plate has guides for the screws of the humeral head screws holding the said screws stably at an angle to the plate, in addition, the plate has a clamping device that securely fixes, preferably removably, screws the head of the humerus in relation to the displacement in the direction of the rods of these screws (Patent No. 2222284, RF. Publ. 2004.01.27).

A device for osteosynthesis is known, which consists of a screw having a head, a neck and a threaded part, while the screw neck is a spring rigidly connected to the head and the threaded part of the screw, there are two hexagonal slots in the head and threaded part of the screw, for which are fixed two hex wrenches located on one rod having a handle (Patent No. 2231990 of the Russian Federation. Publ. 2004.07.10).

However, the known device allows the individualization of the degree of compression between bone fragments during osteosynthesis of a femoral neck fracture, taking into account the heterogeneity of the mechanical properties of bone tissue along the volume of the femoral neck and is not intended to stimulate the growth of bone structures.

Known cannulated screw-rod for extra focal osteosynthesis, containing threaded and threadless parts, while the threaded part is made with external metric thread and internal immersion thread, between which there is a threadless part, while the screw-rod is provided with communicating channels, one of which is made in vertical axis, and the other two - perpendicular to the axial channel, and relative to each other they are located at an angle of 90 ° (Application No. 2003102335, RF. Publ. 2004.07.27).

However, the known cannulated screw-rod is not intended to stimulate the growth of bone structures.

The objective of this utility model is the ability to stimulate bone restoration due to the nanostructured calcium phosphate coating located on the surface of the screw, which is represented by active calcium phosphate crystals.

The problem is solved in that the screw - cannulated for osteosynthesis, contains a cannulated rod having a working and fixing ends, the working end is made in the form of a screw, and the pitch between the turns is 4 mm, and a cylindrical thickening is made on the fastening end, in which a countersunk is made a hexagonal hole for the socket wrench, in addition, a layer of nanostructured calcium phosphate coating is applied at the working end.

The present utility model is illustrated by a detailed description and drawings, in which:

Figure 1 - depicts a General view of the screw - cannulated for osteosynthesis, according to a utility model;

Figure 2 - depicts a view A, the same as in figure 1;

Figure 3 - depicts a view of B, the same as in figure 2.

The screw - cannulated for osteosynthesis contains a cannulated rod 1 (Figure 1). The latter has a working 2 and fixing 3 ends. The working end 2 is made in the form of a screw (Fig.1, 2). Furthermore, the pitch on the screw part is 4 mm. At the mounting end 3 (Fig. 1, 3) a cylindrical head 4 is made. It has a countersunk hexagonal hole 5 (Fig. 1, 2) for a socket wrench.

On the cylindrical outer surface 6 located between the working and fixing ends, a layer of nanostructured calcium phosphate coating with a thickness of about 100 microns is applied.

Screw - cannulated for osteosynthesis for fractures of the femoral neck is used as follows.

After the general anesthesia, the Whitman reposition is performed on the orthopedic table after the first stage. Determine the anversion of the femoral neck with a Kirschner needle drawn along the ventral surface of the neck, control the accuracy of insertion of the spoke using an image intensifier tube. Using a guide, a guide needle is inserted in parallel to the center of the femoral head to insert the three spokes. The position of the guide can be changed within certain limits by placing a spoke in its various holes. Using the guide, two more knitting needles are inserted. Delete the guide. Using a length meter, the depth of introduction of the three spokes is determined, subtracted from the measured length 10 mm. To measure the length of the cannulated screw, subtract 5 mm from the originally measured hole depth. The thread of the cannulated screw should be beyond the fracture line, otherwise it becomes a spacer, preventing the fracture from consolidating. Calciophosphate coating applied to cannulated

the screw after its insertion should be located at the fracture site. A 1-1.5 cm incision is made at the point of insertion of the needles. A hole is drilled along the guide needle with a 4.5 mm cannulated drill using a protective sleeve, a hole is made along the length of the cannulated screw, the thread is cut with a cannulated tap and a cannulated screw is inserted using a screwdriver. Two more cannulated screws are inserted along the guide pin in a similar manner. The main principle in this operation is the strictly parallel insertion of screws to the subchondral layer of the femoral head.

The proposed screw - cannulated for osteosynthesis allows you to significantly accelerate the fusion of the fracture and stable osteosynthesis. This is ensured by the calcium phosphate coating on the screw surface, which is represented by active calcium phosphate crystals, the sizes of which correspond to the sizes of nano-particles, the latter contribute to a significant acceleration of fracture fusion and stable osteosynthesis due to the proven effect of osteoinduction and osteoconduction.

The use of the working part, made in the form of a screw with a pitch of 4 mm screw - cannulated allows you to keep an array of bone tissue between the blades after screwing the screw - cannulated, which is partially resorbed (absorbed) during treatment. In addition, a sufficiently large array of bone tissue between the auger blades provides strong mechanical fixation in the near and distant periods.

The proposed screw cannulated for osteosynthesis is used in the Regional Clinical Hospital No. 2, Tyumen.

Claims (1)

A cannulated screw for osteosynthesis, comprising a cannulated rod, characterized in that it has a working and fixing ends, the working end is made in the form of a screw, while the pitch between the turns is 4 mm, and a cylindrical thickening is made in the fixing end, in which a blind hexagonal hole is made under the socket wrench, in addition, on the working part of the cylindrical outer surface located between the working and fixing ends, a layer of nanostructured calcium phosphate coating is applied.