RU2476245C1 - Method for prevention of postoperative complications following oral bone tissue surgery - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely surgical dentistry and physiotherapy, and may be used in dental implantology for preventing postoperative infectious-inflammatory complications following bone tissue surgeries. For this purpose, the surgical intervention is followed by blood sampling from an incisional wound to be treated with ozonised gas of the ozone concentration of 20±2 mg/l. Then blood is mixed with a bone autograft and treated with ozonised gas of the ozone concentration of 20±2 mg/l. The prepared autograft is introduced into an implantation and sinus lifting site. From the second postoperative day, the incisional field is exposed to extremely high frequency for 3-6 days for 10-20 minutes. For 5-7 days, the incisional field is treated with ozonised distillate of the ozone concentration of 1-2 mg/l.

EFFECT: method enables effective prevention of postoperative infectious-inflammatory complications by improving osteogenesis and accelerating implant integration ensured by the ozone treatment in specific regimen and environment.

3 cl, 2 ex

Description

The present invention relates to medicine, namely to surgical dentistry and physiotherapy, and can be used in dental implantology for the prevention of early postoperative infectious and inflammatory complications after interventions on bone tissue.

One of the urgent tasks in dentistry is the prevention of infectious and inflammatory processes in the postoperative wound, the development of which endangers the result of the operation.

Inflammatory and destructive processes of the jaw are rightfully considered one of the most common pathologies of the maxillofacial region, which not only increase the likelihood of rejection of the implant, but also cause the development of common odontogenic inflammatory diseases and their complications, which threaten the lives of patients. Therefore, the most important moment of the therapeutic measures of the postoperative period is the use of means and methods of prevention, allowing to influence both the regeneration process and normalize the parameters of local homeostasis in the oral cavity. It is known that the prevention of complications is much simpler and safer than combating an already developed pathological process.

As effective methods of preventing infectious and inflammatory complications, medications with bactericidal properties, in particular chlorhexidine and its derivatives (for example, Ushakov R.V., Tsarev V.N. et al., Dentist, 2004, No. 2, p. 6) are most often used. .42), dimexide (e.g. RU 2269974 C2, 02.20.2006), Xymedon (e.g. RU 2010129491 A, 20.111.2010). However, as you know, the use of dosage forms often causes side and negative effects, such as slowing down the processes of osteogenesis in direct contact with bone tissue, immunosuppressive properties against the neutrophilic link, and a complete sanitizing effect not only against pathogenic microorganisms, but also the normal flora of the oral cavity. In addition, medications can cause an allergic reaction in a significant number of patients.

Currently, the effectiveness of the prevention of inflammatory processes is recognized by treating the alleged foci of inflammation with ozone, which has a wide range of biological effects and for which there are practically no contraindications. Ozone is used either in the form of aqueous solutions, or in the form of oil applications, or in gaseous form. The effectiveness of ozone exceeds the effectiveness of traditional treatment, strengthens and accelerates the tendency to limit and eliminate the inflammatory focus, reduces the treatment time for patients and helps prevent possible complications.

The present invention relates to the prevention of inflammatory processes by treating a possible focus of inflammation with an ozone-containing gas (New in Dentistry, 2005, No. 5, p. 82-86).

The known method, having undoubted advantages, is not high enough when performing surgery on bone tissue.

The technical result obtained by using the present invention is to increase the effectiveness of the prevention of postoperative complications during operations on bone tissue.

The inventive method for the prevention of postoperative complications after surgery on bone tissue in the oral cavity, based on the use of ozone, is characterized by the fact that during the surgical procedure, blood is taken from the surgical wound, treated with ozonized gas with an ozone concentration of 20 ± 2 mg / l, mixed blood with a bone autograft, an autograft mixed with blood is treated with ozonized gas with an ozone concentration of 20 ± 2 mg / l, after which it is introduced into the implantation site and sinus lift a.

It is advisable from the second day after surgery to irradiate the surgical field of EHF radiation for 3-6 days for 10-20 minutes.

It is also possible after surgery for 5-7 days to treat the surgical field with an ozonated distillate with an ozone concentration of 1-2 mg / l.

The invention is based on studies aimed at finding effective methods of using ozone for surgical intervention on bone tissue and at determining the most optimal bactericidal, anti-inflammatory, immunocorrecting dose of ozone in vitro. In the process of research, factors characterizing the intensity of the local inflammatory reaction (levels of interleukins 1 beta (pro-inflammatory) and 10 (anti-inflammatory), MPO activity, lactate (lactic acid), pyruvate (pyruvic acid) were studied, ornithine decarboxylase activity was determined), the level and intensity of oxidative stress (oxidized modified proteins, the level of free radical oxidation, lipid peroxidation, antioxidant activity) and the state of local antimicrobial protection factors s (MPO of the oral fluid, lactoferin of the oral fluid), before surgery and in the early postoperative period during surgery.

An increase in the body's defenses, normalization of the immunological status on the regeneration process, and normalization of local homeostasis in the oral cavity were noted.

As a result of research, attention was paid to the operation of mixing an autotransplant with blood taken from a vein used in dental implantology to increase osteogenesis and accelerate the integration of implants. An autograft mixed with blood is introduced into the site of implantation and sinus lift.

Conducting a blood sampling from a vein injures the patient and requires considerable time. At the same time, since this operation is carried out in relatively clean conditions, the autotransplant is populated with blood by microorganisms, which can cause postoperative complications. Based on the need to take measures to eliminate the possible accumulation of pathogenic microorganisms and stimulate bone tissue for faster regeneration, in accordance with the invention, it is proposed to process an autotransplant with blood with ozonated gas. The effectiveness of the ozone treatment allows the use of blood taken from the surgical wound, which is treated with ozonated gas before mixing the auto-graft. This reduces the duration of operations as a whole and eliminates injury to the patient during blood sampling from a vein.

Testing the method on 98 patients (45 women and 53 men aged 32 to 57 years) showed that for the effective prevention of postoperative complications, it is necessary to process blood from the surgical field and an ozonized gas autograft mixed with blood with an ozone concentration of 20 ± 2 mg / l.

The method is as follows.

Local anesthesia of the surgical site is performed, an incision of the mucous membrane is made, the mucoperiosteal flap is exfoliated. Next, blood is taken from the wound with a syringe, the blood is placed in a sterile bath and using a special nozzle that covers the bath, it is treated with an ozone-gas mixture. Carry out a bone autograft graft. The bone autograft is mixed with blood and treated with an ozone-gas mixture. When carrying out processing operations with an ozone-gas mixture, a mixture with an ozone concentration of 20 ± 2 mg / l is used, and the processing is carried out for 0.5-1 minutes. A bone autotransplant mixed with blood and ozone-treated is placed at the site of implantation and sinus lift. Next, the operation is carried out according to a standard protocol. The wound is sutured.

After a day, the area of surgical intervention can be irradiated with broadband EHF radiation of the medical range 52-78 GHz for 3-6 days for 10-20 minutes. Also, after surgery, it is possible to treat the surgical field with an ozonated distillate with an ozone concentration of 1-2 mg / l for 5-15 minutes within 5-7 days.

The treatment time with ozone for blood and a bone autograft mixed with blood is prescribed to each patient individually based on the complexity of the surgical intervention, the patient's body condition, and other factors. Additional operations for processing the surgical field and specific modes of their administration are prescribed based on the state of the surgical field the day after surgery.

Sutures are removed on the 7th day after surgery.

When using the method, a decrease of 2-3 times the probability of postoperative complications is noted, postoperative soft tissue edema decreases, pain is reduced, and the time of postoperative rehabilitation of patients is reduced.

The following are clinical examples of the course of the postoperative period during dental implants.

Example 1

Patient V., 38 years old, complained of a missing tooth 46. During the examination revealed:

From the anamnesis: tooth 46 was removed due to complicated caries 1.5 years ago.

Alveolar bone: width 5.7 mm, length of the defect 10 mm. The thickness of the mucosa on the crest of the alveolar ridge is 1.5 mm, from the vestibular side 1 mm, from the palatine or lingual side 1 mm.

Diagnosed with partial tooth loss.

The treatment plan has been drawn up: Dental implantation in the area of the missing tooth 46 and after 5 months orthopedic treatment.

During the surgery, an ozone-oxygen gas mixture with an ozone content of 20 mg / L was used. The treatment time with a gas mixture of blood and a blood-mixed autograft was 35-40 seconds.

On the next day after the operation, slight swelling of the soft tissues of the buccal region on the right was observed, in the oral cavity - slight swelling of the transitional fold. Pain in the postoperative area is insignificant.

On the 5th day. Edema of the soft tissues of the buccal region on the left is not observed, in the oral cavity - slight swelling of the transitional fold. No pain.

On the 7th day the seams were removed. The mucous membrane in the area of surgery has healed, it is pale pink in color, moderately moisturized.

Example 2

Patient M., 34 years old, complained of a lack of teeth 24, 25, 26. During the examination revealed:

From the anamnesis: teeth 24, 25, 26 were removed due to complicated caries 3 years ago.

Alveolar bone: 5.1 mm wide, defect length 23 mm. The thickness of the mucosa on the crest of the alveolar ridge is 1.5 mm, from the vestibular side 1 mm, from the palatine or lingual side 1 mm.

Computed tomographic study: The atrophy of the alveolar bone in the region of missing teeth 24, 25, 26 is determined. The height of the alveolar bone in the 24 tooth region is 5.1 mm, in the 25 tooth region - 4.4 mm, in the 26 tooth region - 4.2 mm.

Diagnosed with partial tooth loss.

A treatment plan has been drawn up: Sinus lifting on the left with simultaneous implantation in the area of missing teeth and after 5 months orthopedic treatment.

During the surgery, an ozone-oxygen gas mixture with an ozone content of 20 mg / L was used. The treatment time with a gas mixture of blood and a blood-mixed autograft was 1 minute.

On the next day after the operation, moderate swelling of the soft tissues of the buccal region on the left was observed, in the oral cavity - moderate swelling of the transitional fold. Postoperative pain is slight.

Assessing the presence of edema of the soft tissues of the buccal region as evidence of the possibility of developing early infectious and inflammatory complications, to prevent this process, irradiation of the surgical field of EHF radiation was carried out for 2 days after 15 days for 3 days for 15 minutes.

After surgery, treatment of the surgical field with an ozonated distillate with an ozone concentration of 1 mg / l was also prescribed for 5 days.

On the 5th day. Edema of the soft tissues of the buccal region on the left is not observed, in the oral cavity - slight swelling of the transitional fold. No pain.

On the 7th day the seams were removed. The mucous membrane in the area of surgery healed, it is pale pink in color, moderately moist.

Claims (3)

1. A method for the prevention of postoperative complications after surgery on bone tissue in the oral cavity, based on the use of ozone, characterized in that during the surgery they take blood from the surgical wound, treat it with ozonized gas with an ozone concentration of 20 ± 2 mg / l, blood is mixed with a bone autograft, an autograft mixed with blood is treated with ozonized gas with an ozone concentration of 20 ± 2 mg / l, after which it is introduced into the site of implantation and sinus lift. 2. The method according to claim 1, characterized in that from the second day after surgery, the operating field of the EHF radiation is irradiated for 3-6 days for 10-20 minutes 3. The method according to claim 1, characterized in that after surgery for 5-7 days, the surgical field is treated with an ozonated distillate with an ozone concentration of 1-2 mg / L.