RU2716506C1 - Detachable nozzle to screwdriver - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to traumatology and orthopaedics. Detachable nozzle to the screwdriver for retention and introduction of the intramedullary spiral fixator with the loop or middle lintel at surgical treatment of periarticular fractures of tubular bones has the end and opposite parts. End part is made in the form of a cone for arrangement of a spiral fixator on it. Cone is made with length of 50 mm, diameter in end part of 6 mm with cone-like expansion at base to 18 mm and with slot along whole axis of cone up to 3 mm. Slot is designed for loop part or mid lint of retainer to exclude rotation of latch on screwdriver due to resilient-elastic properties of retainer, providing tight "fit", opposite part of screwdriver has cylindrical shape with end part for handle.

EFFECT: invention provides reliable fixation of the fixator, fast insertion into bone, minimally invasive, comfort for the operating team.

1 cl, 2 dwg

Description

The invention relates to the field of traumatology and orthopedics and is intended to hold and insert an intramedullary fixative, diameter 10; 12; 14 mm in the surgical treatment of periarticular fractures of the tubular bones, in particular fractures of the distal radius, fractures of the femoral neck, fractures of the proximal humerus.

A device for introducing a screw for osteosynthesis is known, comprising a rod with a handle and a screw fixing element with a leaf spring, and the screw fixing element is made in the form of a removable cylindrical hollow nozzle with a groove in which the leaf spring is installed, slots are made in the cavity of the nozzle in the form of protrusions corresponding to the slots on the screw head, while the cavity has a diameter equal to the diameter of the screw head (copyright certificate 858807, A61 B17 / 18, publ. 30.08.1981).

A disadvantage of the known screw insertion device for osteosynthesis is a non-rigid screw grip. The leaf spring does not provide rigid axial fixation of the screw head. In addition, the hook as the head of the installed screw, as a rule, has a small height, and therefore the contact surfaces of the longitudinal slots in the nozzle cavity and the slots on the screw head are small in length, and due to the inevitable clearances between the nozzle slots and the screw head slots, a rigid fixing the screw in the radial direction, i.e. at the time of installation in the bone, it can be rotated about the axis of the device, and as a result, the screw is removed from the desired direction. Therefore, when the screw is inserted into the bone, increased attention and caution are required, which will lead to an increase in the duration of the operation and complicates the work of the surgeon.

A screwdriver for osteosynthesis is also known, comprising a handle and a rod equipped with a hollow sleeve with a cross-shaped blade at the end, a sleeve with a right and left internal thread, and a screwdriver rod made with a thread, with a handle installed on one end of the rod and a handle at the other end a sleeve is installed, which is connected to the rod by means of a sleeve (copyright certificate 940376, АВВ 17/56, publ. 02/07/1985). The main disadvantage of the known design is the non-rigid grip of the screw with a relatively complex manufacturing technology.

A set of devices for osteosynthesis of bone fractures of the extremities is known (Patent 2621587, АВВ 17/74. Publ. 06.06.2017), in which a screwdriver for a screw is used, made with the possibility of rotation of the distal and / or proximal rods, consisting of two coaxially located rods of different diameters, one of which - of a larger diameter - is made with an axial hole and is rigidly fixed in the handle, and the second rod of a smaller diameter is movably mounted in the hole of the larger diameter rod, while the shape of the end surface of the rod is smaller the larger diameter is made corresponding to the hole for the screwdriver of the proximal rod, the shape of the end surface of the larger diameter rod is made corresponding to the hole for the screwdriver of the distal rod; and a latch that provides adjustment of the position of the smaller diameter rod in the larger diameter rod to change the length between the ends of the rods depending on the length of the telescopic screw used and on the distance specified for a particular operation, by which the screw length can be reduced during fracture treatment.

A disadvantage of the known technical solution is the use of a screwdriver with a nozzle for screws.

Known screwdrivers with an end part in the form of a hexagon, cross, star-shaped, which have an elongated or T-shaped handle, an oblong or T-shaped handle, in turn, these handles can be fixed and removable with quick-locks. designed to screw standard screws used for osteosynthesis.

As a prototype, you can use a screwdriver with interchangeable parts for osteosynthesis. link http://medprom.ru/medprom/36141.

The main disadvantage of this technical solution is the use of standard screwdrivers for tightening standard screws of various diameters during osteosynthesis.

The objective of the claimed invention is to provide a device - quick-release nozzle for osteosynthesis with an intramedullary fixator of various diameters.

The technical result is to ensure reliable fixation of the fixator itself, the speed of insertion into the bone, minimally invasiveness, comfort for the operating team.

The proposed removable nozzle for a screwdriver for holding and inserting an intramedullary spiral retainer with a loop or middle bridge during surgical treatment of periarticular fractures of the tubular bones, has an end and opposite part, the end part is made in the form of a cone for placement of a spiral retainer on it, while the cone is made in length 50 mm, with a diameter in the end part of 6 mm with a cone-shaped extension at the base of up to 18 mm and with a slot along the entire axis of the cone up to 3 mm, and the slot is designed for a loop h part or middle jumper of the lock to prevent rotation of the lock on the screwdriver due to the elastic properties of the lock, providing a tight "fit", the opposite part of the screwdriver has a cylindrical shape with an end part under the handle.

The proposed solution allows you to quickly insert a spiral retainer into the bone, minimize implant incidence outside the sterility zone, reduce the risk of postoperative infectious complications, and minimize soft tissue and bone tissue trauma during surgical intervention.

Thus, the claimed technical solution as an invention meets the criteria of “Novelty” and “Industrial Applicability”.

The implementation of the claimed invention is shown on the example of the use of a T-shaped screwdriver with the claimed quick-release nozzle and a titanium spiral retainer.

The implementation of the invention is given below.

The latch is a spoke. The spoke is made in the form of a cylindrical spring containing the distal and proximal parts. The outer diameter of the turns of the needle is 6-16 mm. The coils of the coil spring are parallel to each other and are made in increments of 7–11 mm; in the frontal plane, they are inclined to the axis OO1 of the retainer within the angle φ = 30–50 degrees. At least three distal turns represent a conical spring, which descends to the diameter of the spokes and has a point, which is made as a cut of the spokes. The conical shape of the distal part and the cut exclude jamming in the medullary canal. At the end of the proximal part, the coils are compressed and the last of them is equipped with a radially located grip for installation tools. The body of the spokes is multilayered and contains an internal dielectric bioinert layer in the form of a coating with hyaluronic acid, an intermediate hardened layer made in the form of a calcium phosphate coating, and an external dielectric bioactive layer. The outer bioactive layer is made in the form of a coating consisting of two layers. A sandwich-type multi-layer coating provides not only bioactivity, but also improves the springy properties of the spring, which is important for stabilizing bone fragments.

The diameter of the spokes S for a particular patient is selected from the required strength of the spokes and the minimally invasiveness of its introduction. Standard Kirschner spokes with a diameter of 1.0 mm to 3.0 mm are used, having sufficient elasticity and strength. For patients with fractures of small and medium bones (radius, ulna, fibula), a smaller diameter needle is used, for which a smaller perforation hole in the bone is needed. For patients with fractures of large bone segments (proximal femur, humerus), to obtain stable osteosynthesis with sufficient deformation properties, it is necessary to choose a needle with a diameter of 2.0, 2.5-3.0 mm. For example, for small tubular bones, a spiral with an outer diameter of turns of 6.0 mm is used. which is made of a spoke with a diameter of 1.5 mm, for the humerus a spiral with an outer diameter of 10-12 mm is used, which is made of a spoke with a diameter of 2.0 mm. A spiral with an outer diameter of turns 10.0-12.0-14.0-16.0 is used on large tubular bones (humerus, tibia, femur), respectively, the diameter of the spokes is 2.5-3.0 mm.

The length of the retainer is 50-200 mm and is selected for each individual patient, taking into account the fracture site. Adjustment of the real length of the latch is carried out directly during the operation, an extra portion of the distal end of the latch bites off. The cylindrical part of the clamp consists of 10-12 turns.

The located grip allows the use of a slotted T-shaped screwdriver with a quick-detachable cone-shaped nozzle, which ensures minimally invasiveness, increases the lever of force impact, and this significantly reduces the time of the operation, significantly minimizes trauma to bone and soft tissues and, accordingly, reduces the risk of postoperative infectious complications.

The invention is illustrated by drawings, namely in FIG. 1 and 2 show a General view of the removable nozzle to the screwdriver.

Claims (1)

A removable nozzle for a screwdriver for holding and inserting an intramedullary spiral retainer with a loop or median jumper during surgical treatment of periarticular fractures of the tubular bones, having an end and an opposite part, the end part is made in the form of a cone for placing a spiral retainer on it, while the cone is 50 mm long , with a diameter in the end part of 6 mm with a cone-shaped extension at the base of up to 18 mm and with a slot along the entire axis of the cone up to 3 mm, and the slot is intended for the hinge part or dinnuyu to exclude jumper retainer latch rotation on the screwdriver due resiliently-elastic properties of the retainer, providing a tight "fit" opposite part screwdriver has a cylindrical shape with an end portion of a handle.

Images