RU171751U1 - Maxillofacial surgery plate - Google Patents

Abstract

The utility model relates to medicine, namely to maxillofacial surgery. The plate is made of allogeneic osteoplastic material "Lioplast" and is modeled on the configuration of the zygomatic region of the healthy side. This plate is resorbable, i.e. resolves within 2-3 months, allows you to accelerate the regeneration processes in the fracture zone and thereby reduce the time of fracture fusion, and also helps to ensure a stable position and consolidation of bone fragments, to avoid displacement of plates or screws in the early and late postoperative periods, to provide a good aesthetic result .4 s.p. f-ly, 1 ill.

Description

The utility model relates to medicine, namely to maxillofacial surgery.

Known direct titanium osseous plate for osteosynthesis of the bones of the facial skeleton (Instruments and implants for surgery from titanium: catalog-M., ZAO "Konmet", 2000. - S. 7-10.)

The disadvantage of this plate is the mismatch of its shape and configuration of the anatomical fracture region, therefore, difficulties arise with its fixation perpendicular to the fracture line and reliable stabilization of bone fragments. When using these plates, repeated surgical intervention is necessary to remove them after the joint of the fracture.

Known titanium osseous plate plate is L-shaped with a right angle between the fixing shoulders for fixing fractures of the zygomatic bone. (Komelyagin D.Yu., Roginsky VV A set of titanium implants for craniofacial osteosynthesis: a Guide for use. - M., ZAO Konmet, 2001. - 18 p.)

The disadvantage of this plate is the incongruence of the surfaces in contact with the fixation in the fracture zone. Another disadvantage is the high probability of damage to the roots of the teeth of the upper jaw with fixing screws when fixing the shoulder of the plate on the alveolar process.

A device for osteosynthesis is known (RF patent 2307615, IPC A61 B17 / 68, published on November 30, 2005) made of titanium nickelide wire with a shape memory effect twisted into a bundle in such a way that the ends of the wire are opposite apart in the bone part of the device, forming a ring-shaped forms of expansion, the annular parts of the device are counter-curved, forming intraosseous legs.

The disadvantage of this device is the limited use in comminuted fractures, as well as the limited ability to perform osteosynthesis in fractures of the bones of the facial skeleton having a complex surface topography.

The closest in technical essence is a plate for maxillofacial surgery (utility model of the Russian Federation No. 77539, IPC АВВ 17/00, published on October 27, 2008), made of elastic flat titanium with rounded corners, coated with an electret film of tantalum oxide, containing through holes over its entire surface.

The disadvantage of such a plate is the need to install a significant number of screws, which significantly increases the time and injuries of the operation at the stages of its installation, removal of the plate, as well as the slowed down regeneration processes in the fracture zone and the extended terms of fracture fusion.

The utility model is based on the task of stimulating the growth of bone tissue in the fracture area, accelerating the regeneration processes in the fracture zone and thereby reducing the time of fracture fusion, ensuring stable fixation and correct position of bone fragments.

The problem is achieved due to the fact that the plate for maxillofacial surgery of a flat shape containing holes, according to a utility model, the plate is made of allogeneic osteoplastic material "Lioplast" and is modeled on the configuration of the zygomatic region of the healthy side.

In addition, the plate is made 1.5-2 mm thick, 4 mm wide and long, individually selected taking into account the size of the bones of the patient’s facial skeleton.

It has an antibacterial effect by sterilizing it by immersion in a 0.9% saline solution with 30% Linkomycin and subsequent exposure to ultrasound for 3-5 minutes.

This antibacterial coating reduces the number of postoperative inflammatory complications in comparison with the use of standard titanium bone plates.

Holes are made at the ends of the plate in an amount of no more than 3, screws are installed in the holes for attaching the plate to the bone tissue, the diameter of the holes is 1.6 mm

This plate is resorbable, i.e. resolves within 2-3 months by the time of complete consolidation of bone fragments, which avoids repeated surgical intervention to remove the implant in comparison with standard titanium bone plates.

The essence of the utility model is illustrated in the drawing.

Plate 1 is made of allogeneic osteoplastic material “Lioplast” and is modeled individually according to the configuration of the zygomatic region of the healthy side. At the ends of the plate holes 2 are made for intraosseous screws, 3 - infraorbital foramen, 4 - fracture line.

After computed tomography of the bones of the patient’s facial skeleton using 3D modeling on the healthy side, the planned correct standing of the fragments in the fracture area is recreated. Depending on the individual structural features and size of the bones of the facial skeleton, the location of the roots of the teeth on the upper jaw and the infraorbital foramen, the design of the future osseous plate, the distance between the holes to bypass the roots of the teeth, the infraorbital foramen and the anterior wall of the maxillary sinus are modeled. On a milling machine, according to a given program, the plate is processed from an allogeneic bone block of the Lioplast company. The plate thickness is 1.5-2 mm, the width is 3-4 mm, the diameter of the holes is 1.6 mm. At the stage of sterilization of this plate, it is immersed in a 0.9% saline solution with 30% “Linkomycin” and is affected by ultrasound for 3-5 minutes to give an antibacterial effect. In sterile bags, the plate is delivered by the time of the operation.

The plate is used as follows.

After adequate pain relief is achieved, a standard intraoral incision is made along the transitional fold of the upper jaw of the corresponding side. Skeletalization and reposition of fragments into the correct anatomical position is performed. The plate is superimposed on repaired fragments, the accuracy of its fit to the bone surface is checked and the location of the holes for fixation is planned. The plate is fixed with self-tapping intraosseous screws. Controls the stability of fixation of fragments. The wound is sutured. In the postoperative period, a control x-ray of the bones of the facial skeleton is performed after 3.5-4 months, on which partial or complete resorption of the plate of the proposed design is noted at the time of complete consolidation of the fragments in the fracture zone. This avoids additional surgery for plate removal.

Clinical example 1.

Patient K., 25 years old, was admitted to the clinic of the Chelyabinsk Medical Center of Samara State Medical University in an emergency with a diagnosis of a closed fracture of the zygomatic bone on the left with displacement of fragments.

At admission, the patient complained of pain in the infraorbital region, swelling of the soft tissues of the infraorbital, zygomatic regions, asymmetry of the face due to the displacement of the zygomatic bone inwards and backwards.

According to the patient, he received an injury during a sports class in boxing. Consciousness did not lose, nausea, vomiting was not. He asked for help on the day of the injury to the clinic at the place of residence, from where he was sent to the department of the ChLH clinic of SamSMU. As a result of the examination, the neurologist did not reveal the presence of an injury to the central nervous system. After an additional examination, a decision was made on the surgical treatment of the patient using individual osseous plates made of allogeneic osteoplastic material “Lioplast”.

The patient underwent computed tomography of the bones of the facial skeleton, after which the results were sent to the laboratory. The plate is individually modeled according to the study and processed on a milling machine from allogeneic osteoplastic material "Lioplast". The plate had two shoulders, one of which was planned to be fixed to the alveolar process of the upper jaw and had 3 holes for fixing the plate with screws, the second for fixing the zygomatic bone through two holes. The osseous plate was treated with an antibiotic, sterilized, and sent to the department of the CLH Clinics of Samara State Medical University.

Under endotracheal anesthesia, an incision was made along the transitional fold of the upper jaw on the left in the projection of teeth 1.3, 1.4, 1.5, 1.6, 1.7, 1.8.

Bone fragments and a fracture line are skeletonized. Fragments were repaired to the planned correct anatomical position and fixed with a bone plate of the proposed design. After that, stability control of fixation of bone fragments was carried out, and then the wound was sutured according to the standard method.

The postoperative period was uneventful. On the second day, moderate swelling of the soft tissues in the intervention zone was noted. Complex anti-inflammatory therapy was prescribed. Sutures were removed on the 14th day.

Control radiography was performed on the 2nd day, 1 and 3 months after the operation. 3 months after the operation on the control CT, partial resorption of the osseous plate was observed, which proceeded in parallel with the growth of bone tissue in the area of fractures.

This plate allows you to accelerate the regeneration processes in the fracture zone and thereby reduce the time of fracture fusion, and also helps to ensure a stable position and consolidation of bone fragments, to avoid displacement of plates or screws in the early and late postoperative periods, to ensure a good aesthetic result. The stability of fixation of fragments when using these plates is in no way inferior to that of standard methods of osteosynthesis.

Claims (5)

1. A plate for maxillofacial surgery of a flat shape containing holes, characterized in that the plate is made of allogeneic osteoplastic material "Lioplast" and is modeled on the configuration of the zygomatic region of the healthy side. 2. The plate according to claim 1, characterized in that it is made of a thickness of 1.5-2 mm, a width of 4 mm and a length selected individually taking into account the size of the bones of the patient’s facial skeleton. 3. The plate according to claim 1, characterized in that it has an antibacterial effect by sterilizing it by immersion in 0.9% saline with 30% Linkomycin, followed by exposure to ultrasound for 3-5 minutes. 4. The plate according to claim 1, characterized in that the holes are made at the ends of the plate by a number of not more than 3, the diameter of the holes is 1.6 mm and they are individually located on the plate, taking into account the position of the roots of the teeth of the upper jaw, infraorbital foramen. 5. The plate according to claim 1, characterized in that screws are installed in the holes for attaching the plate to the bone tissue.

Images