RU2688447C1 - Method of dental implantation - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to dentistry, dental implantology and is intended for use in prosthetic repair of patients with partial and complete adentia using cylindrical implants with screw connection of suprastructures. Mucous-periosteal graft is cut out under anesthesia in the area of absent teeth, topographic and anatomical features of the jaws are evaluated, and bone channels are formed in the optimal for interaction of the implants with tissues of the recipient zone in the depth of the alveolar process and/or jaw body, corresponding to length and 0.2–0.3 mm less than diameter of implants, using boron machine and special cutters, at low rotation speed, under water cooling, between milling holes and bases of nickelide-titanium implanted structures with permeable porosity super elastic corded knitted mesh implant material in form of stocking of sizes 10×10–12×12 mm is placed with cells 1.0×1.0–3.0×3.0 mm, made from super-elastic nickelide-titanium filament with thickness of 25–30 mcm and microporous oxide layer to 7 mcm, dental implants are installed with screw-plugs screwed into the central channels so that the implantation material is evenly distributed between the bone walls of the wells and the implants, plug screws are covered with the above implantation material with width of 10–12 mm with overlapping of the implantation zone by 3–5 mm, the mucous-periosteal graft is placed on the previous place, the wound is closed, and the patient is observed for 3–4 months. After the bone grafting period in the implant is completed, the implants are opened by excision of the mucous membrane in the projection of the blinds, which are removed and gum formers are placed for 7–10 days, visible parts of mesh implant material are placed between threaded parts of gum formers and implanted structures. On completion of gingival epithelisation around the necks of the implants and the base of the gingival shaper, support heads are installed on the place of the latter, their orientation in three-dimensional space is performed, and the dental prosthesis is fixed.EFFECT: method enables successful dental implantation with partial and complete adentia in patients with imperfect osteogenesis associated with local or common causes.1 cl, 6 dwg, 1 ex

Description

The invention relates to medicine, namely to dentistry, dental implantology and can be used for prosthetics of patients with partial and complete adentia with the use of cylindrical implants having a screw joint of the superstructure.

There is a method of installing a bone implant, including making a bone bed, introducing the implant skeleton into it, forming a porous layer between them from rings made of metal rubber, and closing the wound (RU 2438618, IPC A61C 8/00, A61C 8/02).

The disadvantage of this method is that the metal rubber is not a biocompatible material. Once placed in the body, it is rejected, and the recipient tissues undergo resorption, which negatively affects the success of the operation.

The closest technical solution is a method of dental prosthetics, including the manufacture of the base plate with guide sleeves, reproducing the spatial position of the implants in relation to the alveolar process, parallel to each other and the remaining teeth, fitting the base plate in the oral cavity, implantation surgery - excision, exfoliation of the mucous periosteum flap, creation of bone beds, insertion of nickel titanium implants with permeable porosity into the bone beds, closure of the operating room anus, taking impressions, excision of the mucous membrane in the projection of implants, removal of screw plugs, connection of the implant support heads with the root parts, production of jaw models and determination of their central ratio, laboratory manufacture of prosthetic support parts and their fitting in the oral cavity, final production of a dental prosthesis in the laboratory and its fixation in the oral cavity with the subsequent dynamic observation of the patient (Medical materials and implants with shape memory, Tomsk, 1998, p. 413-420).

The disadvantage of this method is the possibility of disharmonious interaction of implantable structures with the tissues of the recipient zone, leading to their loss, which may be due to osteogenesis disorders associated with insufficient microcirculation of blood in the jaw bones, trabecular bone volume, bulk density and osteoid thickness, appposition velocity and mineralization, resorptive activity, voids between the bone channels and implantable structures. These characteristics are reduced in patients with imperfect osteogenesis, metabolic disorders of bone tissue, deforming osteosis, various osteoporosis options, as well as in the elderly and elderly.

The task of the invention is to increase the efficiency of surgical treatment of patients with partial and complete edentulous by improving the method of dental implantation.

The task is achieved by the fact that in the method of dental implantation, including the cutting out and peeling of the mucopericular graft, the formation of bone canals, the introduction of nickelide-titanium implants with permeable porosity, wound closure, excision of the mucous membrane in the projection of implants, removal of screw plugs, connection of the wound heads of implants with root parts, obtaining impressions, making models of jaws, determining the central ratio of jaws, laboratory production of supporting parts After the installation of the dental prosthesis and its fixation in the oral cavity, a super-elastic thin-profile corded knitted net implant material in the form of a stocking with dimensions of 10 × 10-12 is placed before installing implants between the walls of the holes and the implantable structures. × 12 mm with cells 1.0 × 1.0-3.0 × 3.0 mm, made of super-elastic nickel-titanium filament 25-30 μm thick and microporous oxide layer up to 7 μm, after installing the implants, the screws of the cap are covered with the indicated material with a width of 10-12 mm with overlapping of the implantation zone by 3-5 mm and then placing its visible part in the threaded structures of the implants.

Super-elastic thin-profile corded knitted netted titanium nickelide 25-30 microns thick, due to its biochemical and biomechanical compatibility with body tissues, placed between the bony walls of the formed canals and dental implants with permeable porosity, provides better fixation of implantable structures in the jaw bones, fills the free space eliminates their pathological mobility for the entire period of formation of a single organotypic bone pore with a porous system Generator, contributes to a better manifestation of the elastic properties of intraosseous parts of implants during loading and unloading. The thin-profile mesh nickelide-titanium implant applied to the alveolar process and cap screws, fixed with a mucoperiosteal flap, after sprouting with connective tissue, in combination with visible parts of it in the threaded structure of the implants, prevents the formation of pathological bone chastomas, which prevents the formation of pathological bone masses, and prevents the formation of pathological bone masses, which are attached to the threaded structure of the implants, prevents the formation of abnormal bone chastomas, which prevents the formation of abnormal bone chastomas, which are attached to the threaded structure of the implants. the process of functioning of orthopedic structures. A double layer of a thin-profile implant eliminates its eruption through the soft tissue due to the absence of sharp edges. This circumstance allows to increase the effectiveness of the surgical stage of treatment, expands the indications for the use of the method of dental prosthetics with support for intraosseous implants in this category of patients.

The method is as follows. Under anesthesia, the mucoperiosteal flap is cut out and peeled off in the zone of missing teeth, the topographic-anatomical features of the jaws are assessed and, in the direction optimal for the interaction of implants with the tissues of the recipient zone, they form bone channels deep into the alveolar process or alveolar process and the body or human body, and the body or human body, and the body or human body, or the body or human body, or the body or human body, is injected into the alveolar process and the body or human body. 0.2-0.3 mm smaller than the diameter of the implants, using bor machines and special mills, at low speed of rotation, under water cooling, between the milling holes and wasps innovations of nickel-titanium implantable structures with permeable porosity are placing cord knitted mesh implant material in the form of a stocking with dimensions 10 × 10-12 × 12 mm with a cell of 1.0 × 1.0-3.0 × 3.0 mm, made of super-elastic nickelide - titanium filament 25-30 microns thick and microporous oxide layer up to 7 microns; dental implants with screw-caps screwed into the central canals are installed so that the implant material is evenly distributed between the bone walls of the holes and the implants, cap screws kryvayut said implant material with a width of 10-12 mm overlap implantation zone 3-5 mm, put mucoperiosteal flaps into place, the wound is sutured and the patient was observed for 3-4 months. After the end of the formation of bone regenerate in the thickness of the implants perform their disclosure by excision of the mucous membrane in the projection of screws, plugs that remove and install the formers of the gums for 7-10 days, visible parts of the mesh implant material placed between the threaded parts of the formers of the gums and implantable structures. Upon completion of the epithelialization of the gingival margin around the necks of the implants and the base of the gingham former, supporting heads are installed in place of the latter, they are oriented in three-dimensional space, and the denture is fixed.

The essence of the proposed method is illustrated in the following graphic materials where:

in fig. 1 - porous-permeable dental implants and support heads;

in fig. 2 - super-elastic thin-profile corded knitted mesh implant material in the form of a stocking;

in fig. 3 - the stage of installation of dental implants and the distribution of ultra-elastic thin-profile cord knitted mesh implant material in the bone canals;

in fig. 4 - the condition of the wound after the installation of dental implants and their coverage with super-elastic thin-profile cord knitted mesh implant material;

in fig. 5 - radiograph of the patient N. to surgical treatment;

in fig. 6 - radiograph of the patient N. after 12 months. after surgical treatment.

Example.

Patient N., 63 years old, addressed about complete maxillary and mandibular adentia, atrophy of the alveolar processes of the jaws, condition after dental implantation of the lower jaw, removable dental prosthetics, inability to use dentures. From the anamnesis: she lost her teeth more than 20 years ago due to complications of caries, twice orthopedic treatment attempts are not effective, 4 dental implants were made 3 years ago from the titanium into the thickness of the submental mandibular body between the mental apertures, the mandibular removable prosthesis was made again, 1 , 5 years pains appeared in the zone of innervation of the lower alveolar and chin nerves when using prostheses. About-but: The configuration of the face is disturbed due to the decrease in the interalveolar height, the chin is advanced forward, the mouth opens freely, the alveolar processes of the jaws are absent, 4 mandibular dental implants are determined, palpation of the mandible causes sharp pain in the area of the mental apertures, left dental implant, fixation not satisfactory. The orthopantomogram revealed the absence of alveolar processes of the jaws, atrophy of the body of the mandible in the area of the premolar-molar segments, partial absence of the upper wall of the right and left mandibular canals in the projection of the body of the jaw and mental apertures, destruction of bone tissue in the area of the left dental implant of the mandible. The operation was performed - removal of the left mandibular dental implant, mobilization, lateral and inferior movement of the lower alveolar nerves, reconstruction of the defects of the lower jaw body, alveolar processes of the right and left upper jaws with osteogenic tissue grown in the thickness of the iliac bones. After 8 months, the mucoperiosteal flaps in the zone of restored alveolar processes of the maxilla and missing left canine and mandibular premolar were cut and peeled off, using bor machine and special milling cutters at a low speed of rotation, water-cooled 10 hole holes in the thickness of the upper and 4 - in the thickness of the lower jaws, in the direction optimal for the interaction of implants with the tissues of the recipient zone, a depth of 11 mm and 0.2 mm less than the diameter of the implants (maxillary - 3.1 mm, mandibular - 3.8 mm), m Between the milling holes and the bases of nickel-titanium implantable structures with permeable porosity, put cord knitted mesh implant material in the form of a stocking with dimensions on the upper jaw 10 × 10 mm, on the lower jaw 12 × 12 mm with cells 1.0 × 1.0-3, 0 × 3.0 mm, made of super-elastic nickel-titanium filament 30 μm thick and microporous oxide layer up to 7 μm, dental implants with screw-plugs screwed into the central channels with uniform distribution of implanted ma are installed into the formed channels The series between the bone walls of the holes and the implants, the cap screws were covered with the specified implant material 10 mm wide on the upper jaws, 12 mm on the lower jaw with overlap of the implantation zone by 3-5 mm, mucoperiosteal flaps were laid in the same place, the wound was sutured tightly interrupted sutures. After 4 months, the implants were opened by excision of the mucous membrane in the projection of the cap screws, after removal of which the gum formers were installed, visible areas of mesh implant material were placed between the threaded parts of the gum formers and implantable structures. After 10 days, support heads were installed in place of the latter, and their orientation in space was completed. The upper dentition was restored by a metal-ceramic-bridged structure, the lower one by a removable dental prosthesis that compensates for interalveolar height, based on dental implants. When viewed in 12 months, the state of the dental apparatus, the reviews of the prostheses are satisfactory. X-ray signs of bone resorption around dental implants were not detected.

The proposed method of dental implantation is applied in the treatment of 30 patients aged from 16 to 70 years, with partial and complete edentulous in conditions of atrophy of the alveolar processes and bodies of the jaws or without, which have 135 dental implants installed and made dentures of various designs. Patient observations for 3.5–7 years showed satisfactory functioning of orthopedic structures, radiologically lack of bone resorption in the implantation zones.

The technical result of the invention is the possibility of successful implementation of dental implantation in patients with partial or complete absence of teeth and imperfect osteogenesis associated with local or common causes. Placing a super-elastic thin-profile cord knitted mesh nickelide titanium between the bone walls of the holes and the implantable structures helps optimize reparative processes and harmonious functioning of the orthopedic design based on dental implants, and covering the screws with this material, then placing the visible part of it in the threaded structure of the implant. pockets around the necks of the implants in the operation of orthopedic struction.

Claims (1)

The method of dental implantation, including cutting out and peeling of the mucoprocodular flap, formation of bone canals, the introduction of nickelide-titanium implants with permeable porosity, wound closure, excision of the mucous membrane in the projection of implants, removal of screws-plugs, connection of the implant support heads with root parts. impressions, making models of the jaws, determining the central ratio of the jaws, laboratory production of the prosthetic support parts and fitting them in the oral cavity, the end Production of a dental prosthesis and its fixation in the oral cavity, characterized in that before installing implants between the walls of the holes and the implantable structures, an ultra-elastic cord knitted mesh implant material in the form of a stocking with dimensions of 10 × 10-12 × 12 mm with cells 1.0 × 1 is placed , 0-3.0 × 3.0 mm, made of ultra-elastic nickel-titanium filament 25-30 microns thick and microporous oxide layer up to 7 microns, after installing the implants, the cap screws cover with the specified material 10-12 mm wide with overlapping the implantation zone on 3- 5 mm and then placing its visible part in the threaded structure of the implants.

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