RU2157666C2 - Method for splinting jaw - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves filling spoon with plastic material to its whole depth and fixing it on the dental arch from vestibular, oral and distal side at the level of interdental papillae and alveolar yokes and holding it in this position until the plastic material hardens. The spoon has a groove and vestibular, oral and distal arches. EFFECT: enhanced effectiveness and functional results of treatment. 5 dwg

Description

 The invention relates to medicine, in particular to methods and devices for splinting jaws.

 A large number of proposals on this issue are known, but all of them basically continue to reproduce S.S. Tigertedta, which consists in the ligature fixation of the teeth and teeth, which significantly lengthens and complicates the process of splinting.

 Closest to the proposed method of splinting is the technique proposed by M.R. Marey (1). The technique is as follows. Pre-made aluminum shape in the form of a chute, curved in the form of a dental arch. The mold is made of an aluminum plate 1 cm wide, 12-14 cm long and 0.25-0.3 mm thick. The shape is bent along the dental arch with the fingers, and the edges are guided with krampon forceps. Ligatures of bronze-aluminum wire with a cross section of 0.3 mm are applied to the teeth above their equator in the upper jaw and below the equator in the lower jaw on each tooth outward and somewhat towards the interdental gap. The prepared plastic is placed in a vaseline-lubricated mold and the latter is pressed against the teeth so that the ligature ends fit into the mold. At the end of the polymerization, the aluminum mold is separated from the tire, which remains on the teeth from the vestibular side.

The disadvantages of this method include:
1) the use of ligatures twisted on each tooth and requiring a significant investment of time,
2) the location of the manufactured tire from only one vestibular side of the dentition.

 In connection with these shortcomings, there is a need to create a device that allows them to be avoided.

 The closest technical solution in this direction is an adjustable impression tray (2), which can be adjusted to any size of the upper and lower jaw. This is achieved by the fact that both side branches can be moved apart on one side, one in relation to the other, and, on the other hand, lengthened due to the presence of movable front-rear elements.

The disadvantages of the prototype are:
1) the use of a spoon only to obtain an impression from the entire dentition and prosthetic field, followed by the removal of the impression and the manufacture of the prosthesis in laboratory conditions.

2) the inability to use a spoon for simultaneous manufacture on a dental splint directly in the oral cavity,
3) the presence in the branches of the spoon of the bed, which is a connecting element between the sides of the branches and therefore preventing the deep advancement of the spoon along the teeth along the vertical axis so that the cutting and chewing surfaces of the teeth remain open during the impression,
4) the absence of a gutter in the sides of the branches,
5) rigid execution of jaws.

 The basis of the invention is the creation of a method and device for splinting the jaw, the use of which, due to the simultaneous coverage of the entire dentition with the vestibular, oral and distal sides of the tooth splint formed as a result of using the proposed device, can reduce the time of splinting.

A comparison of the proposed method with the prototype shows its distinguishing features:
1) the absence of ligature fixation, as the most time-consuming stage in the process of splinting the jaws,
2) providing simultaneous coverage of the entire dentition with the dental splint from the vestibular, oral and distal sides.

 Therefore, the claimed method for splinting the jaw meets the criterion of "novelty."

 Comparison of the proposed method with other known in science and technology solutions did not allow them to identify signs similar to those that distinguish the claimed solution from the prototype. Therefore, the inventive method of splinting the jaw meets the criterion of "significant differences".

 The absence of ligature fixation significantly speeds up and facilitates the process of splinting the jaw, because the fixation of the tire is ensured by a simultaneous tight coverage of the splinting material, for example, protacryl plastic, of the entire dentition from all sides at the level of the interdental papillae and dimples. The resulting reduction in splinting time, convenience and simplicity in its implementation meets the criterion of "positive effect".

To implement the proposed method, the claimed device when compared with the prototype discovers a number of distinctive features:
1) the possibility of obtaining an impression of the jaw from all sides only at the level of the interdental papilla and dimpled elevations, which is not removed and remains in the oral cavity on the teeth,
2) the direct manufacture of a tooth splint from a splinting material in the oral cavity, due to the fact that the resulting impression remains on the jaw and subsequently acts as a splint,
3) the branches do not contain a bed, so the device is hollow and easily moves along the teeth along the vertical axis to the required level, leaving the cutting and chewing surfaces of the teeth open,
4) the execution of the jaws (in the inventive device they are also the sides) in the form of a continuous horseshoe-shaped composite grooved in the form of a hollow contour, where the splinting material is laid,
5) the branches are made on a metal mesh frame covered with a polymer material, which provides easy adjustment of the device with respect to the jaw of any size.

 Therefore, the claimed technical solution meets the criterion of "novelty."

 Comparison of the proposed solution with other known in science and technology did not allow them to identify signs similar to those that distinguish the claimed technical solution from the prototype. Therefore, the claimed solution meets the criterion of "significant differences".

 The use of the inventive device for splinting the jaw significantly speeds up and simplifies the splinting process due to such structural elements as a metal mesh frame coated with a polymeric material, the presence of a groove designed to fill with plastic splinting material, the presence of distal arches that make it possible to adjust the device depending on the length of the dentition, which, taken together, allows you to use the device relative to the jaw of any size and makes it possible to directly manufacture in the oral cavity of an individual tooth splint. All this allows us to conclude that the claimed device meets the criterion of "positive effect".

 The essence of the device is shown in FIG. 1. The constituent elements of the device are grooved in the form of the vestibular (Fig. 1, pos. 1), oral (Fig. 1, pos. 2) and distal (Fig. 1, pos. 3) arcs made on a metal mesh frame covered from the outside and inside with polymeric material, and facing the grooves in the direction of the dentition (Fig. 1, item 4). The vestibular and oral arches with their upper (Fig. 1, pos. 5) and lower (Fig. 1, pos. 6) edges, distally, starting from the middle, gradually narrow from 8-10 mm to 4-6 mm and usually end in level of 5, 6 teeth for jaws with a normal bite and a complete set of teeth, while the distal arches with their ends (Fig. 1, pos. 7) are medially gradually expanding, reaching the level of 3-1 teeth, and, thus, they are aligned in width with the corresponding fragments of the vestibular and oral arches. Due to this combination, the formation of continuous jaws (they are also the sides of the device in the form of a continuous horseshoe-shaped grooved in the shape of a hollow contour covering the dentition from all sides. The connection of all elements of the device into one unit is ensured by paired pelots (Fig. 1, item 8) extending from the lower upper edges of the vestibular and oral arches at the level of 4, 5 and 6 teeth and superimposed on the outer surfaces of the vestibular and oral arches from two sides. grooves are created in which the ends of the distal arcs are created, thus combining the components of the device, its mobility is achieved in all directions, both in width and in length, which allows the device to be adjusted to the jaw of any size. mesh frame, dilution or rapprochement of the jaws. Lengthwise adjustment is achieved by moving the distal arches in the grooves relative to the vestibular and oral arches. You can also adjust the width of the jaws (trough) in individual sections of the device by drawing closer or breeding the lower and upper edges of the jaws (trough). When assembled, the device is ready for use to implement the proposed method for splinting the jaw. Immediately before work, the device outside the patient undergoes special processing, after which it can be finally fitted to the jaw of any size, taking into account the most diverse anatomical features of its structure. For this reason, the device, after such special preparation, is inserted into the oral cavity, for which, for the purpose of convenience in working on the vestibular arch, there is a handle outside (Fig. 1, item 9), is put on the jaw, and moves along the teeth along the vertical axis so that the cutting and chewing surfaces of the teeth remained open, and the jaw groove was installed at the level of the interdental papillae and dimpled elevations. The finally fitted device is removed from the oral cavity, the gutter is filled to the entire depth with a pre-prepared plastic splinting material, for example, protacryl with self-hardening plastic, re-worn on the dentition and installed in a predetermined position. At the same time, branches filled with plastic are additionally pressed to the teeth and jaw. Due to this, the splint mass fills all the undercuts in the dentition and reproduces all the unevenness of the mucosal relief in the region of the dimpled elevations, which subsequently ensures reliable fixation of the tire on the teeth. After hardening the splint mass (polymerization of plastic), the device is removed from the oral cavity, separating it from the resulting tire, which remains in the oral cavity, tightly covering the dentition along with the alveolar process from all sides. In other words, the impression remains on the teeth at the same time, which is not removed and since that time functions as an instantly created tire (Fig. 2, item 1). If intermaxillary traction is necessary, the Vasiliev or Tigerstedt splint is placed in the device’s gutter before filling it with splinting material, for the hook hooks of which corresponding holes are created in the wall of the vestibular arch (Fig. 3, pos. 1). In this case, at the end of the splinting, the metal arch of the tire remains in the hardened splinting material, and the hooks protrude freely and serve the purpose of intermaxillary traction (3), (Fig. 4, item 1).

 The process of splinting using self-hardening plastic protacryl takes no more than 8-10 minutes, while with ligature fixation it is much longer. Under the same conditions, noracryl-5 plastic can significantly speed up the work process, because The polymerization time of this plastic is 5-6 minutes. As a splinting material, not only plastics can be used. For example, the inventive method and device allows to produce directly in the oral cavity metal tires, for example, from halodent-M., Used for tooth filling. The "casting" of a metal tire directly in the oral cavity greatly expands the possibilities of treating not only jaw fractures, but also the treatment of periodontal disease. With the aim of long-term retention of therapeutic pastes on the mucosa in the treatment of their diseases, the proposed tires made of thermoplastic masses, such as Stens, may be useful. Removing the tire is not difficult, for this it is only necessary to saw it in 2-3 places after which it is easily removed in separate fragments.

 Conventional ligature splinting requires special skills, while for the implementation of this method it is not necessary. Therefore, the inventive method and device can be recommended for wide practical application in the daily work of dentists. It is very useful to use it in the military field of maxillofacial surgery and disaster medicine.

 Examples of the use of the proposed method and device.

 Example No. 1.

 Patient K., (source. Pain. 198) 18 years old, was admitted to the dental department of the Dnepropetrovsk garrison hospital 4.01.94, with a diagnosis of bilateral fracture of the lower jaw in the region. angle to the right and chin, reg. left. In the oral cavity a complete set of teeth, including 8 teeth. Produced bimaxillary splinting according to the claimed method. The consolidation of the fracture was normal, no complications were noted. Tires removed 2.02.94, the bite restored.

 Example No. 2.

 Patient P., (Ex. Bol. N 386) 19 years old, was admitted January 14, 94, to the dental department of the garrison hospital with a diagnosis of a fracture of the lower jaw on the right in the region. 3rd tooth. In the oral cavity a complete set of teeth. Given that the fracture without displacement was applied according to the claimed method using the inventive device monomaxillary plastic tire. Fracture healing was uneventful. The tire was removed on 02/07/94.

Claims (1)

 The method of splinting the jaw by applying a spoon with self-hardening plastic to the dentition with previously applied wire ligatures on each tooth, after polymerization of the plastic, the spoon is removed, characterized in that the spoon having a groove and made with vestibular oral and distal arches is filled with plastic to the entire depth of the groove and fix on the dentition of the jaw from the vestibular, oral and distal sides at the level of the interdental papilla and dimple elevations and hold in this position until the shutter glow of plastic.

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