RU2157138C1 - Method for modeling occlusion surface of permanent artificial denture with artificial tooth supports - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves producing temporary plastic prosthesis in articulator unit with facial arch to be used. Patient uses the prosthesis during 2-3 months. Individual occlusion relations are formed, stable occlusion and adequate loading conditions upon the artificial supports are achieved due to plastic wear taking place in the oral cavity. The temporary prosthesis is transferred to the permanent structure by means of transparent template. The transparent template is filled with light- hardening material and superposed over carcass prepared in advance. The material polymerization is carried out through the template. The template is removed and the prosthesis is treated in usual way. EFFECT: improved functional conditions. 5 cl, 6 dwg

Description

 The invention relates to medicine, namely to orthopedic dentistry, and can be used in orthopedic treatment of patients with partial and complete loss of teeth with prostheses on artificial supports (implants).

 The modern method of prosthetics with fixed structures supported by implants includes preliminary temporary prosthetics for the period of manufacture of the permanent structure. The relevance of the use of temporary prostheses is determined, firstly, by preliminary splinting of the implant, and secondly - by protecting the supporting teeth (if they are included in the design) from external influences, preventing deformation of the occlusal surface of the dentition, aesthetic indications and partial restoration of the chewing function. The relevance of duplication on the permanent relief structure of the occlusal surface of a temporary prosthesis is determined by a sufficiently long (up to 1 month, and sometimes more) period of use of the provisional prosthesis. During this period, due to the plasticity of the plastic and its abrasion, individual occlusal relationships are formed that exclude premature contacts during movements of the lower jaw. Accordingly, during the period of use of the temporary structure, stable occlusion and an adequate load on the artificial support are developed, which is extremely important for the full, long-term use of the prosthesis. In conditions of violation of the occlusal relationship, an overload of the implant occurs, which can cause its rejection [2].

 The traditional method of prosthetics on artificial supports does not imply repeating the relief of a temporary prosthesis on a permanent structure. Some authors propose to achieve separation between the permanent prosthesis and antagonists (15-100 nM), while others - to create a full contact of the occlusal surfaces [3]. There is no consensus on this issue. In addition, temporary prostheses themselves are often not modeled in the articulator. The doctor has to significantly adjust the occlusion in the patient’s oral cavity. During the use of a temporary prosthesis, a certain load on the implant is developed, which then changes dramatically not only due to other material of the permanent prosthesis, but also due to a change in the occlusal relationship. Applicants believe that the relief of the occlusal surface of the temporary prosthesis should be modeled in the articulator and must be taken into account when prosthetics are of permanent design.

 As a prototype, the applicants propose to adopt a method of transferring the masticatory surface of temporary prostheses to a permanent structure fixed on the abutment teeth, developed by Abdullov I.I. and Strelnikov V.N. for treating patients with increased tooth abrasion using a thermal vacuum apparatus and a polystyrene plate. This method involves the use of structures with molded chewing surface. According to this technique, a temporary prosthesis is made using traditional technology and is fixed in the oral cavity.

 The patient uses a temporary prosthesis for 2-3 months, creating an individual chewing surface. Then, an impression with an alginate mass was taken from temporary prostheses in the oral cavity, a gypsum model was made, which was then crimped in a thermovacuum apparatus with a polystyrene plate [1]. Thus, a polystyrene template for an individual occlusal surface was prepared. This template was then applied to a wax prosthesis with a cast chewing surface. After that, the design was converted to metal. Thus, a repetition of the relief of the masticatory surface of the temporary prosthesis on a permanent structure was achieved.

 The disadvantages of the method proposed as a prototype are: 1. The ability to create only cast metal chewing surface of a permanent prosthesis. 2. The impossibility of lining with any material that meets the aesthetic criteria in the oral cavity. 3. A certain difficulty is the moment of applying a polystyrene template to the simulated structure, because due to the opacity of the template, it is difficult to orient it on the wax model in the correct position. 4. Temporary prostheses are modeled in an occluder.

The aim of the invention is
Creating optimal load on artificial supports when prosthetics are fixed structures. This goal is achieved, firstly, by modeling temporary prostheses in the articulator in the traditional way. In this case, the process of getting used to temporary prostheses is facilitated and premature occlusal contacts, which can adversely affect the implant during the manufacture of a permanent structure, are excluded. Secondly, we suggest using a temporary prosthesis on artificial supports for a longer amount of time (2 months or more). During this time, an occlusal surface formed by the patient during natural movements of the lower jaw is modeled on the temporary structure in the oral cavity. Thirdly, we believe that repeating the relief of the occlusal surface of a temporary prosthesis will make it possible to achieve occlusal relationships familiar to the patient and eliminate adverse contacts that overload the implant. This is achieved using the technique described below for transferring the relief of a temporary prosthesis to a permanent structure. We used the material ARTGLASS in our work. Obviously, any other light-curing material that is suitable for cladding metal frames (for example, ISOSIT CHROMASIT) can be used as a facing material.

 The authors propose a method for modeling the occlusal surface of artificial limbs on artificial supports, which consists in manufacturing temporary fixed plastic prostheses in an articulator (which is usually done in the occluder) and a transparent occlusal surface template followed by light polymerization through this HERAEUS KULZER ARTGLASS template. For the manufacture of a transparent template, DURAN plastic from SCHEU DENTAL is used. The gypsum model is crimped in a MINISTAR machine manufactured by the same company.

The method is as follows:
After fixing the implant heads, impressions are removed with an alginate mass for the manufacture of a temporary fixed structure made of plastic. The central ratio of the jaws is determined. A temporary denture is made in the dental laboratory. Modeling of a temporary prosthesis is performed in an articulator using a facial arch. An additional correction of the occlusal relationship is performed in the oral cavity. In this way, optimal occlusal relationships that are favorable for the implant and comfortable for the patient are achieved on the temporary structure. After fixing the provisional prosthesis, the patient uses it for two months. If necessary, an additional correction of occlusion is performed. During the natural, functional movements of the lower jaw, the patient forms an individual chewing surface due to the abrasion and plasticity of the plastic. At the end of the period of using the pharmacist design, the patient becomes accustomed to and adapts to it and to new conditions in the oral cavity, individual occlusal relationships favorable for artificial support are formed.

 Then the impression is removed with an alginate mass from the dentition with a temporary denture.

 A gypsum model is made. After that, the model is crimped in the MINISTAR with transparent DURAN plastic, 0.75 mm thick. Mode: heating - 25 sec, cooling 50 sec. A transparent chewing surface of the entire dentition, including a temporary denture, is cut out at the equator. Then, a cast bridge with a cladding made of ARTGLASS material is made according to the traditional method, except that the chewing surface is not modeled completely on the above design, and only its contours are outlined by the material. Then the transparent template is filled with a thin layer of facing material, superimposed on a pre-modeled prosthesis, which is located on the model. Then the material is polymerized through a transparent template in the uniXS apparatus. After polymerization of the material, the template is easily removed from the model, the prosthesis is grinded and polished according to the usual method.

 Clinical example. Patient N., 58 years old, I. B. N41523, turned to the clinic of orthopedic dentistry for the purpose of prosthetics. Diagnosis: partial loss of teeth on the upper and lower jaws, end defects in the upper jaw, limited to 24 on the left, 13 on the right, combined defect on the lower jaw: left defect, limited to 33; anterior defect included, limited to 32 and 42. Open bite. Diastema, three. After additional examination methods, the upper dentition was planned with an integral cast combined prosthesis with ARTGLASS lining, resting on all the teeth of the upper jaw and implants in the areas 17, 15 and 26. The treatment plan for the loss of teeth on the lower jaw included the prosthesis with an integral cast bridge with lining from ARTGLASS supported by 33, 32, 42, 43 and the implant in area 36.

 Dental implantation operations were performed in the planned areas. Before the implant heads were fixed, impressions were taken with an alginate mass for the manufacture of temporary plastic prostheses. Using the front arc, an indicative print was taken. Modeling of temporary prostheses was carried out in a QUICK perfect articulator. The authors used the front arch of the same company. The manufactured prostheses, after additional correction and relocation, were fixed on the prepared teeth and artificial supports on Repin. The patient used temporary dentures for two months. By the end of the term of use, he fully adapted to them. The authors drew attention to the fact that the patient felt the lack of discomfort much earlier than other patients with a similar clinical situation in the oral cavity. This, in our opinion, is due to the fact that an articulator was used to model temporary prostheses, which made it possible to accurately project the nature of the occlusal relationships in the patient's oral cavity.

 According to the method described above, the occlusal surface of temporary prostheses was transferred to permanent structures that were fixed in the patient's oral cavity.

 The proposed method: 1. Allows you to provide optimal load on the artificial support. This is achieved by duplicating the individual chewing surface (formed on temporary prostheses) on a permanent structure, which eliminates traumatic occlusion and ensures quick adaptation to permanent prostheses. 2. Makes it possible to cover the frames of fixed bridges with material that meets the aesthetic criteria of the patient’s oral cavity. 3. Modeling of temporary prostheses is performed in the articulator.

List of used literature:
1. Abdullov I.I., Strelnikov V.N. "A method of manufacturing solid cast fixed dentures in patients with increased abrasion of hard tooth tissue." Invention. Copyright certificate N 1690734. - prototype.

 2. Vorobyov Victor Alexandrovich. "The choice of the design of dentures and implant systems based on software and mathematical modeling in the treatment of patients with various defects of the dentition." (Diss. Doct. Medical Sciences. Irkutsk, 1997).

 3. Rits J. Century. Problems of occlusion during prosthetics using implants. (Quintessence. -1995. - N3).

Claims (3)

 1. A method for modeling the occlusal surface of fixed prostheses with artificial supports, including the manufacture of a template for an individual occlusal surface of a temporary fixed plastic prosthesis, with the transfer of its relief to a permanent structure, characterized in that a transparent template is made of the occlusal surface of a temporary fixed plastic prosthesis on artificial supports, filled facing composite material, impose a template on a pre-prepared frame of constant otosis, light-polymerisation of the material is performed through the template, thus translating the relief of the occlusal surface from a temporary to a permanent prosthesis, while maintaining optimal occlusal relationships.  2. The method according to claim 1, characterized in that the occlusal surface is formed in the patient’s oral cavity for 2 months or more.  3. The method according to claim 1, characterized in that the manufacture of a temporary prosthesis is carried out in an articulator.