RU2688699C1 - Method for sinus-lifting operations scheduling - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to surgical dentistry and can be used for planning and calculating materials during reconstruction of maxillary sinus with subsequent dental implantation. Disclosed is a method for planning a sine-lifting operation involving conical-beam computed tomography, taking impressions, making models, characterized by that the produced models are scanned, their scans are obtained in .STL format, then the cone-beam computer tomography data in .DCM format and the model scans in .STL format are loaded into Avantis 3D program and based on the obtained data, the "grid" is plotted, and reference points are used to compare cone-beam tomography and scans - scene data, install implants in orthopedic profitable positions, make a surgical template and according to mesh data and geometrical parameters of maxillary sinus, osteone-substituting material is simulated, its exact volume is measured, which is required for introduction into maxillary sinus.EFFECT: invention provides determining bone-substituting material when planning a sine-lifting operation.1 cl, 7 dwg

Description

The invention relates to medicine, namely to dental surgery, and is intended for planning and calculating materials for the reconstruction of the maxillary sinus, followed by dental implantation.

Sinus lifting is one of the most common and sought-after osteoplastic operations. A large number of methods of radiation diagnosis predetermined the need to identify the most informative and least dangerous technologies for the patient at each stage of dental implantation. Today, a standard in examining patients who plan to have a sinus lifting operation is to conduct a cone-beam computed tomography [1]. Analyzing cone-beam computed tomography, it is possible not only to determine the spatial configuration of the maxillary sinus, but also to identify anatomical structures that may affect the course of surgical intervention. The experience of using cone-beam computed tomography indicates the high informativeness of the technique and the possibility of improving the efficiency, quality and optimization of the examination, surgical treatment based on the data obtained.

But under difficult anatomical conditions, large defects, implantation should be carried out with 3-D planning and using a surgical template made using rapid prototyping technology, the advantage of which is the high accuracy of the made template (0.016 mm), as well as the complete absence of manual labor [2] .

An open procedure for sinus lift surgery (raising the bottom of the maxillary sinus) is shown when the height of the bone tissue in the bottom of the maxillary sinus is less than 5 mm. It must be remembered that with a residual bone height of 4-5 mm, it is possible to perform simultaneous implantation, to achieve sufficient primary stability of the implant. With a residual height of 2-3 mm, it is necessary to perform the operation without installing an implant, and to return to this area after the formation of a sufficient bone mass.

Closest to the proposed technical solution is planning an operation to raise the bottom of the maxillary sinus. Minimization of complications [3].

The method consists in the fact that the patient is conducted cone-beam computed tomography. After that, the dentist and surgeon is planning an operation to raise the bottom of the maxillary sinus:

1. Determining the number and specific location of dental implants, their diameter and length.

2. Depending on the width of the crest of the alveolar process and the volume of the existing bone, planning the height and width of the elevation of the bottom of the maxillary sinus.

3. The choice of the method of forming a “window” in the front wall of the maxillary sinus and its subsequent closure using a fixed or non-fixed membrane technique.

4. The presence of indications for the use of additional resorbable (collagen) membrane, as well as the filling of artificially created "bone defect" with regenerative material without the installation of dental implants.

5. Planning for the use of regenerative material to fill the resulting "bone defect".

6. The choice of the membrane to close the "window" of the front wall of the sinus.

Planning for the installation of dental implants.

A dentist, an orthopedist, and a dentist, a surgeon, determine where dental implants are installed. Using a cone-beam computed tomography and Simplant program, the diameter, the length of the implants are determined on the monitor, as well as their location in the right places and the right direction, according to a specially made surgical template, with guide sleeves.

However, when carrying out this planning method, the dentist-surgeon doctor does not have information on the amount of bone-substituting material needed to be inserted into the maxillary sinus.

The task is to determine the amount of bone-substituting material when planning a sinus lift operation.

The task is achieved by scanning manufactured models with obtaining their scans in the .STL format, obtaining the results of a cone-beam computed tomography in the .DCM format, processing their data in the Avantis 3D program and, based on the result, building a grid, comparing the data of the cone-beam computer tomography and model scans on reference points, installation of implants in orthopedic advantageous positions, production of a surgical template, on the geometric parameters of the maxillary sinus, modeling the exact volume ma kostnozameschayuschego material required for inclusion in the maxillary sinus.

The method of planning a sinus lift operation is as follows.

The patient undergoes a cone-beam computed tomography, with data in the format. DCM.

A dentist orthopedist takes impressions, casts models, produces wax modeling Wax-up in the area of missing teeth. Models scan and get scans of models in the .STL format. Next, the results of a cone-beam computed tomography and model scans are loaded into the Avantis 3D program.

According to the computed tomography data, a “grid” is built, and the reference points are compared with the data of a cone-beam computed tomography and scans (scene). Then, in this program, virtual installation of implants is performed in orthopedic advantageous positions and a surgical template is prepared. The program visualizes how much the implant is immersed in the maxillary sinus. Before planning the volume of the bone-substituting material, manipulations with the “grid” are carried out: its cleaning and enlargement. After that, according to the “grid”, the volume of bone substitute material is simulated according to the geometry of the maxillary sinus, which is necessary for insertion into the sinus, taking into account the anatomical features of the alveolar coil and measure the volume of bone substitute material. After this planning, the dentist surgeon has a complete picture of the upcoming operation and the amount of bone-substituting material needed for insertion into the maxillary sinus.

Photo 1 presents a comparison of computed tomography data and scans, by reference points on the lower jaw, where 1 is a scan model in the .STL format, X are reference points. 2 - cone-beam computed tomography in the .DCM format, X - reference points. 3 is a view of a mapped cone-beam computed tomography and mandibular scans.

Photo 2 presents a comparison of computed tomography and scan data on the upper jaw reference points, where 4 is the scan model in the .STL format, X is the reference points. 5 - conical beam

computed tomography in .DCM format, X - fixed points. 6 is a view of a mapped cone-beam computed tomography and scans.

Photo 3 shows mapped computed tomography and scans of the upper and lower jaw, where 3 is a view of the matched cone-beam computed tomography and scans of the lower jaw, 6 is a view of the associated cone-beam computed tomography and scans of the upper jaw.

Photo 4 shows the placement of implants in orthopedic advantageous positions, where 1 is a scan of the lower jaw model, 4 is a scan of the upper jaw model, 7 are implants.

Photo 5 shows the bone deficit in the vertical, where 8 is the cone-beam computed tomography of the maxillary sinus, 7 is the implant.

Photo 6 shows the volume of bone-substituting material needed for insertion into the maxillary sinus, where 9 is the volume of bone-substituting material, 7 is the implant.

Photo 7 shows the amount of bone-substituting material - 9, which is necessary for entering into the maxillary sinus 0.5 cm ³ in volume.

Clinical case

We were approached by patient X. at the age of 53 with complaints about the loss of chewing teeth in the upper jaw to the right. Loss of teeth occurred during 10 years of the patient's life due to complicated forms of caries and periodontitis.

On examination: there are no teeth 1.5, 1.6, 1.7 in the upper jaw, the mucous membrane of the oral cavity is pale pink in color, moderately moist, without pathological changes - photo 8.

In the study of cone-beam computed tomography, atrophy of the alveolar crest along the vertical, in the area of 1.7 teeth, which corresponds to 3 degrees of atrophy, 4 mm high, was revealed.

Diagnosis: Partial loss of teeth, Atrophy of the alveolar ridge of the upper jaw 3 degrees.

The operation was performed under local anesthesia, the incision was made on the top of the alveolar ridge in the area of the teeth 1.5, 1.6, 1.7. Photo 9 shows exfoliated mucoperiosteal flaps, formed window for access to the maxillary sinus, lifting the Schneider membrane - 10. Next, install a dental implant - 7, in the tooth area 1.7, bone defect is closed with an allokroshka in a volume of 0.5 cm ³ - 11 , photo 10, with further closure of the augmentation zone with a collagen membrane - 12 - photo 11, mucoperiosteal flaps are put in place and suture with monofilament - 13, photo 12.

Antibiotics, nonsteroidal anti-inflammatory drugs, mouth baths with antiseptic solutions were prescribed. In the post-operative period there was a moderate swelling of the soft tissues, pain of medium intensity for 3 days. The patient felt satisfactory.

The application of the method of planning a sinus lift operation allows you to determine, taking into account the anatomical features of the alveolar bay, the amount of bone substituting material necessary for insertion into the maxillary sinus.

Information sources

1. Nechaeva N.К., Modern 3-D diagnostics in implantological practice. Dentistry today №9 (149) 2015

2. Yudin PS, Polyakov MK, Evaluation of the accuracy of surgical templates for the installation of dental implants using computerized pre-surgical planning. Dental implantology and surgery №4 (17) 2014

3. Losev FF, Sharin AN, Losev VF, Planning the operation of raising the bottom of the maxillary sinus. Minimization of complications. Master of Dentistry №1 (61), 2016

Claims (1)

A method of planning a sinus lift operation, including cone-beam computed tomography, taking impressions, making models, characterized in that the made models scan, get their scans in the .STL format, then the data of the cone-beam computed tomography in .DCM format and scans models in the .STL format are loaded into the Avantis 3D program, and based on the data obtained, a “grid” is constructed, and the reference points are compared with the data of a cone-beam tomography and scans - the scene, implants are installed in orthopedic favorable positions, and the surgical template manufactured according mesh and the geometric parameters of the maxillary sinus model kostnozameschayuschy material measure its exact volume required for inclusion in the maxillary sinus.

Images