RU2223695C1 - Method for treating odontogenic cysts and cystogranulomas - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: after carrying out cystectomy one should fill osseous cavity with mixture of demineralized osseous transplant and "Hydroxyapol" at 1:1 ratio. EFFECT: higher efficiency of therapy. 1 ex

Description

 The invention relates to medicine, namely to surgical dentistry, and can be used in the treatment of odontogenic cysts and cystogranulomas.

 Recently, an increase in destructive odontogenic foci (7-12% of the total number of diseases of the maxillofacial region) has been noted in endodontics and dental surgery, which is associated both with a decrease in general and local protective reactions, and with errors in endodontic treatment. But even with the correct and high-quality endodontic treatment, there is often no regression of pathological foci, which significantly increases the indications for tooth extraction and root apex resection. At the same time, the number of teeth in the area of operation increases, i.e. the volume of surgical intervention is increasing (3).

 The effect of the most common operation for odontogenic cysts and cystogranulomas - cystectomy with resection of the root apex - often decreases due to delayed or incomplete bone regeneration. The restoration of bone tissue in the area of defects that occur after removal of pathological near-root foci occurs for 1-10 years or more, and in 25% of patients the bone does not recover to its full volume, which significantly reduces bone strength or leads to the development of a relapse of the disease ( 4).

 It is reliably known that the development of full-fledged tissue in the resulting bone cavities allows you to remove many problems during subsequent orthopedic rehabilitation.

 Therefore, one of the urgent problems of modern maxillofacial surgery and surgical dentistry remains the search for the most effective means and methods of bone grafting (5). These funds should be able to optimize and at the same time stimulate the processes of reparative osteogenesis, as well as reduce the risk of inflammatory complications in the postoperative period.

 For the prototype of the present invention, a well-known method for the treatment of odontogenic cysts and cystogranulomas by cystectomy with subsequent filling of the bone cavity with a demineralized bone graft (VCT) was selected (1).

 The known method is as follows: conduct a cystectomy with resection of the root apex, followed by filling the formed bone cavity with a substance that can accelerate osteogenesis, namely, canned spongy bone substance.

 The disadvantage of this method is that the induced osteogenesis is usually focal in nature. It was established that the inductive activity of a demineralized bone graft is due to the presence of a specific inducer protein in them. Moreover, a new bone is formed only in those parts of the graft that contain a sufficient amount of this protein. In the absence of the latter or its deficiency, the formation of demineralized sections of new bone tissue in place does not occur, which leads to a sharp slowdown in bone tissue regeneration in the center of the destruction focus or to the formation of a secondary granuloma, i.e. actually to relapse of the disease.

 The objective of the invention is to reduce complications in the postoperative period and accelerate bone regeneration after surgical treatment of inflammatory and destructive periapical processes.

 The problem is solved in that in the known method for the treatment of odontogenic cysts and cystogranulomas by cystectomy followed by filling the bone cavity with a demineralized bone graft after cystectomy, the bone cavity is filled with a mixture of demineralized bone graft with "Hydroxyapol" in a ratio of 1: 1.

 Particles of a material based on hydroxyapatite ("Hydroxyapol"), "planted" in a bone wound, when they are highly sorbed, are traps that fix biologically active factors (morphogenetic protein). Fine particles sorb a short-lived morphogenetic protein in the bone wound that induces and stimulates the process of reparative bone formation. At the same time, the source of osteogenetic potency is the cellular elements of the mother’s bone, and Hydroxyapol allows you to realize your own reparative potency of bone tissue. Due to the gradual resorption of resorbable hydroxyapatite introduced into the bone wound, the latter is freed from the implanted material and is filled with newly formed bone substance. This is facilitated by the saturation of the medium with calcium and phosphorus released during the resorption of hydroxyapatite. The processes of bone formation are most active in the parietal zone of the bone wound, therefore, often when using only one “Hydroxyapol” in the postoperative period, foci where bone formation is absent are identified for a long time (7).

 The literature describes cases (2) when, when using only one "Hydroxyapol" to fill in bone defects in the postoperative period, an infiltrative-exudative reaction is observed - the result of aseptic inflammation, manifested in the form of extensive edema, hyperemia of the mucosa in the area of surgical intervention and the allocation of exudate from the wound . This is of negative importance, since the accumulation of exudate under the wound cover interferes with the normal process of epithelization and promotes the development of suppuration.

 Our studies have found that the addition of DCT sawdust to the "Hydroxyapol" granules significantly accelerates bone formation, since DCT is an additional source of morphogenetic protein. In addition, for the preservation of demineralized bone grafts, a 20% urea solution is used, which has powerful antiseptic properties and inhibits the growth of staphylococci, streptococci, protea, Pseudomonas aeruginosa, anaerobic flora and other pyogenic microorganisms.

 It has been experimentally proven that the ratio of demineralized bone graft and "Hydroxyapol" 1: 1 for filling the bone cavities after cystectomy is optimal.

 The present invention meets the criterion of "novelty", because in the process of conducting patent information research of materials discrediting the novelty of the invention, not identified.

 The present invention meets the criterion of "inventive step", because in the search process no solutions with essential features of the proposed method were found.

 The proposed method was applied in 21 patients with odontogenic cysts and cystogranulomas. As a result of treatment, the absence of inflammatory complications in the postoperative period and a decrease in the timing of bone tissue regeneration in the area of postoperative bone defect were noted.

 Thus, the proposed method allows to solve the problem, namely, to reduce the number of complications in the postoperative period and accelerate bone regeneration after surgical treatment of inflammatory and destructive periapical foci.

 The method is simple and affordable to use.

 The method is as follows.

 Under local anesthesia from the vestibular side of the alveolar process of the jaw, an arcuate or trapezoidal incision is performed. A mucoperiosteal flap is removed by a raspator. Boron or bone nippers create a trepanation hole in the bone. Remove the cystic membrane or granulation. Fissure boron resection of the roots of the teeth facing the cavity of the cyst. The bone cavity is treated with a cutter, then with an antiseptic solution of 0.06% chlorhexidine bigluconate solution, and then the tooth root is prepared by retrograde filling with Argeon molar glass ionomer cement.

 Hydroxyapol and sawdust of a demineralized bone graft with the addition of an antibiotic solution (Linkomycin hydrochloride 30%) are mixed in equal proportions on a sterile glass plate to knead the filling material. The bone cavity after drying in 3/4 of the volume is filled with this mixture. The mucoperiosteal flap is placed in place and the wound is sutured tightly with a polyamide thread.

 Example.

 Patient M., 1952 turned to the dentist for the purpose of sanitation of the oral cavity.

 Dz: radicular cyst of the lower jaw in the region 32, 31, 41.

 Anamnesis: cyst detected by chance.

 Objectively: The mucous membrane is pale pink, not changed, 31 teeth under the seal, changed in color, mobility 2 degrees. 32, 41 teeth are intact, mobility 1 degree, percussion is painless. On palpation from the vestibular side, the compliance of the cortical plate in the region of the apex of the roots 32, 31, 41 is determined. Additional examination methods: on the orthopantomogram and sighting images in the anterior part of the lower jaw in the periapical tissues of the 31 tooth, a rarefaction site with clear contours up to 1/3 in height is determined root length 31, extending to the apices of the roots 41 and 32 of the teeth. 31 teeth are depulped unsatisfactorily - there are two channels in the tooth, one of which is not sealed. 41 teeth also have two channels. The tops 32, 41 of the teeth in the focus. The size of the cyst is 2.0 - 1.5 cm. Treatment: In order to prepare for the operation, 32, 41 were depulped, channels 31 were cured.

 10/16/2000. Operation cystectomy of the n / jaw.

 Under bilateral mental anesthesia of S. Septanesti 1: 100,000 - 5.0, an incision was made along the gingival margin and vertically from the vestibular side in the region of 42, 41, 31, 32, 33, and a mucoperiosteal flap was exfoliated. In the root region of the 31 tooth there is a bone defect. The defect is expanded with a drill to the size of a cyst. The cyst shell was scraped out and the apexes of the roots of 32, 31 and 41 teeth protruding into the cavity of the cyst were resected with a fissure boron. The walls of the formed bone cavity were processed with a milling cutter, retrograde filling of the resected roots with Argion molar glass ionomer cement was performed. The cyst cavity is treated with an antiseptic - 0.06% solution of chlorhexidine bigluconate and is filled with a composition of 3/4 volume consisting of sawdust of a demineralized bone graft on urea and Hydroxyapol in a ratio of 1: 1. The flap is mobilized, laid in place and fixed by Polysorb . The postoperative wound is covered with a Diplen-Dent film.

 In the postoperative period, the patient received lincomycin hydrochloride 0.5 × 3 times - 5 days, phencarol 0.02 × 2 times - 5 days, oral baths with 0.06% solution of chlorhexidine bigluconate, applications of Solcoseryl-dental adhesive paste.

 The postoperative period was uneventful, the wound healed by first intention.

 After 3 months, an Rg examination was performed - the bone tissue of the spongy structure is determined in the area of the defect, there are areas of heterogeneity at the sites of introduction of VCT.

 Periapecal fissures 41.32 slightly widened.

 At the control examination after 6 months, the patient did not show complaints. On the control x-ray of the lower jaw in the anterior section, a bone defect is not defined.

 List of references.

 1. Bernadsky Yu. I. Fundamentals of maxillofacial surgery and surgical dentistry, 1998, Vitebsk, p. 309-310.

 2. Rizvanov I.R., Durnovo E.A. To the question of increasing the effectiveness of dental implantation // Materials of the 5th International Conference May 22-25, 2000 Saratov. S. 118-121.

 3. Loshkarev V.P., Bauchenkova E.V. Comparative characteristics of the long-term results of the use of a bioplant and colapol-KPZ and methods of maintaining a bone wound under a blood clot in the surgical treatment of chronic periodontitis, pericarp cysts. Dentistry 2000, 6, p. 23-26.

 4. Vorobev Yu.I., Volozhin AI, Bogdashevskaya VB, Truten VP, Truten II Clinical and radiological evaluation of the effectiveness of hydroxyapatite with collagen in the treatment of periodontitis and radicular cysts. Dentistry 1995, 2, p. 34-35.

 5. Grigoryan A.S., Volozhin A.I., Agapov V.S., Belozerov M.N., Drobyshev A. Yu. Osteoplastic efficacy of various forms of hydroxyapatite according to experimental and morphological studies. Dentistry 2000, 3, p. 4-8.

 6. Obtaining and preservation of demineralized bone grafts / Methodological recommendations /. Gorky, 1990.

 7. Leontiev V.K. Dentistry, 5/96, p. 4-6.

Claims (1)

A method of treating odontogenic cysts and cystogranulomas by performing a cystectomy followed by filling the bone cavity with a demineralized bone graft, characterized in that after the cystectomy, the bone cavity is filled with a mixture of demineralized bone graft with “Hydroxyapol” in a 1: 1 ratio.