RU2618951C1 - Method for open sinus elevation in dental implantation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: prior to the surgery, the patient is subject to computer tomography. Computed Tomography Data are converted to STL format. A bone implant is simulated with individual parameters in the volume of the alveolar bay and bone window of the maxillary sinus anterolateral wall with subsequent milling of the previously lyophilized bone biomaterial. The mucous membrane is incised; a mucoperiosteal flap is dissected and elevated under local anesthesia. A bone window is created using burs, drills, taps, the maxillary sinus mucosa alveolar bay bottom is peeled. The milled implant from pre-lyophilized bone biomaterial with dental implant bone guides in the volume of alveolar bay and bone window of the maxillary sinus anterolateral wall are placed in the surgery area under the mucosa. The individually milled bone implant is fixed due to anatomical retention to the bay alveolar and the bone window and of the maxillary sinus anterolateral wall, as well as dental implants mounted on the milled bone guides considering the individual anatomical and topographic features of the patient. The wound is closed.

EFFECT: method allows to reduce the error in bone-plastic material positioning in the maxillary sinus bottom area, to optimize the step of material introduction into the maxillary sinus, to shorten the period of implanted material integration, to reduce the risk of material dislocation and the risk of maxillary sinus mucosa perforation.

Description

The invention relates to medicine, namely to maxillofacial surgery and dentistry, and can be used during reconstructive surgery.

A known method of open sinus lift, consisting of the following steps. Before the operation, for the entire duration of its operation, the drug effect is supplemented by introducing the patient into a state of drug sedation and controlled hypotension, for this, determine the amount of systemic blood pressure and patient body weight, select a tranquilizer, calculate its dose taking into account body weight and pressure and enter it under the control of psychoemotional state and magnitude of pressure until sedation and hypotension are achieved. Radiation diagnostics is supplemented by infrared thermography, for this the part of the face selected for the operation is left open for review, the survey is carried out continuously and simultaneously with thermography in the infrared range of the tissue radiation spectrum using a thermal imager in the range from +26 to + 36 ° С. The thermal imager is installed opposite the selected surface in a position that ensures obtaining a color image on its screen and using it to determine the temperature of the skin of the face, mucous membrane, wound surface, surgical instruments, fluids and osteoplastic materials in contact with tissues in the wound area, evaluate the level of interference with blood circulation and hemostasis in the wound as safe in detecting body temperature and local temperature of the patient’s tissues in the study area within the physiological ormy and while maintaining the performance operation is performed sinus lift. When detecting the onset of general hyperthermia, they conclude that a pyrogenic reaction begins, begin to blow the patient’s body surface with a stream of room temperature air until the temperature normalizes, while maintaining hyperthermia, a hypothermic agent is injected. When revealing the onset of general hypothermia, they conclude that the hypothermic syndrome begins to develop, to prevent it, a solution of 10% calcium chloride in an average therapeutic dose is injected intravenously, 500 ml of drinking water is injected into the stomach at a temperature of 42 ° C and at the same time the patient's body is heated with warm water. If the beginning of the formation of the zone of local hyperthermia in the tissue area and in the surgical instrument is detected in the studied area, they are immediately irrigated with isotonic solution of 0.9% sodium chloride at a temperature of 32-35 ° C, and before the formation of a ring groove in the bone, they are introduced into the corresponding half of the nasal cavity endoscopic probe with a source of cold blue-violet light, place it opposite the natural opening in the maxillary sinus and begin to evenly illuminate its outer wall through this opening, after which the e, they select a dental bur and begin to form an annular groove with continuous visual monitoring of the illumination of tissues under the working end in transmitted blue-violet light, while the boron is deepened only until the tissues underneath are stained in blue-violet color, the Schneider membrane is peeled off continuous visual control of its integrity in transmitted light, after which the probe is removed. The method improves the accuracy, efficiency and safety of performing sinus lift, ensures the safety of the patient’s health without feelings of fear, nervous tension, hypertensive crisis, collapse, perforation of the Schneider membrane, sinusitis and bruising in the skin of the face. [one].

The disadvantage of this method is the positioning error of the osteoplastic material in the bottom of the maxillary sinus, the difficulty of introducing the material into the maxillary sinus, the risk of material dislocation, the risk of perforation of the mucous membrane of the maxillary sinus, the long integration time of the implanted material, the difficulty of the subsequent stage of dental implantation.

A known method of open sinus lift, consisting of the following steps. Under local anesthesia, an incision is made along the crest of the alveolar process of the upper jaw. Mucosal-periosteal flap is detached and the anterolateral wall of the maxillary sinus is skeletonized. A bone autograft is taken from the region of the alveolar-alveolar ridge and the anterolateral sinus wall. A flexible endotracheal tube with an inflatable cuff is inserted into the middle nasal passage, into which air is introduced, providing an obstruction of the opening between the nasal cavity and sinus. The bone fragment is carefully moved together with the mucous membrane of the maxillary sinus upwards and an autoplasma membrane is fixed to it. After the introduction of osteoplastic material and implants, an autoplasma membrane enriched in platelets is placed on the defect area of the anterolateral wall of the maxillary sinus. Then the mucoperiosteal flap is returned to its place and the wound is sutured [2].

The disadvantage of this method is the positioning error of the osteoplastic material in the bottom of the maxillary sinus, the difficulty of introducing the material into the maxillary sinus, the risk of material dislocation, the risk of perforation of the mucous membrane of the maxillary sinus, the long integration time of the implanted material, the difficulty of the subsequent stage of dental implantation.

A known method of open sinus lift, consisting of the following steps. Perform a perforation hole in the anterolateral wall of the maxillary sinus. Peel and raise the mucous membrane of the bottom of the maxillary sinus with the formation of space above the bone tissue of the alveolar process. Alloplant biomaterial in the form of a dura mater or fascia is placed on the exfoliated mucous membrane from the side of the formed space. The rest of the space is filled with biomaterial, which is used as an autograft or Alloplant biomaterial or a combination thereof, and Alloplant biomaterial is used in the form of bone powder, or bone block, or a combination thereof [3].

The disadvantage of this method is the positioning error of the osteoplastic material in the bottom of the maxillary sinus, the difficulty of introducing the material into the maxillary sinus, the risk of material dislocation, the risk of perforation of the mucous membrane of the maxillary sinus, the long integration time of the implanted material, the difficulty of the subsequent stage of dental implantation.

This method is taken as a prototype.

The aim of the invention is to reduce the positioning error of the osteoplastic material in the bottom of the maxillary sinus, optimize the introduction of the material into the maxillary sinus, reduce the risk of material dislocation, the risk of perforation of the mucous membrane of the maxillary sinus, shorten the integration time of the implanted material, optimize the positioning of dental implants.

This goal is achieved by the fact that in the method of open sinus lifting, which includes cutting the mucous membrane, peeling and folding the mucosal-periosteal flap, creating using the burs, drills, taps of the bone window, peeling the bottom of the alveolar bay of the mucosa of the maxillary sinus, laying and fixing the bone implant in the area of the bone window of the anterolateral wall of the maxillary sinus, a bone implant with individual parameters milled from pre-lyophilized bone biomaterial with bone guides of dental implants in the volume of the alveolar bay and in the volume of the bone window of the anterolateral wall of the maxillary sinus are placed in the surgical area under the mucous membrane; The individually milled bone implant is fixed due to anatomical retention to the alveolar bay and the bone window of the anterolateral wall of the maxillary sinus, as well as dental implants installed along the milled bone guides taking into account the individual anatomical and topographic features of the patient.

Using the new method and the results of its application are confirmed by examples.

The proposed method is used as follows. Prior to surgery, computed tomography of the patient is performed. Computed tomography data is converted to STL format. A bone implant is modeled with individual parameters in the volume of the alveolar bay and in the volume of the bone window of the anterolateral wall of the maxillary sinus, followed by milling of pre-lyophilized bone biomaterial. Under local anesthesia, an incision is made in the mucous membrane, peeling and folding of the mucoperiosteal flap. Using burs, drills, taps create a bone window, exfoliate the bottom of the alveolar bay of the mucosa of the maxillary sinus. A milled implant from pre-lyophilized bone biomaterial with bone guides of dental implants, in the volume of the alveolar bay and in the volume of the bone window of the anterolateral wall of the maxillary sinus is placed in the surgical area under the mucous membrane. The individually milled bone implant is fixed due to anatomical retention to the alveolar bay and the bone window of the anterolateral wall of the maxillary sinus, as well as dental implants installed along the milled bone guides taking into account the individual anatomical and topographic features of the patient. The wound is sutured. Establish gum formers.

The proposed method is confirmed by the following clinical examples.

A group of 16 patients was operated on with a diagnosis of partial or complete absence of teeth in the upper jaw. All patients underwent surgery - sinus lift with dental implantation. Prior to surgery, computed tomography of patients was performed. Computed tomography data has been converted to STL format. A bone implant was modeled with individual parameters in the volume of the alveolar bay and in the volume of the bone window of the anterolateral wall of the maxillary sinus, followed by milling of pre-lyophilized bone biomaterial. Under local anesthesia Sol. Ultracaini D.S. - 1.8 ml. incision of the mucous membrane, peeling and folding of the mucosal-periosteal flap. With the help of burs, drills, taps, a bone window was created, peeling of the bottom of the alveolar bay of the mucosa of the maxillary sinus was made. An implant milled from pre-lyophilized bone biomaterial with bone guides of dental implants in the volume of the alveolar bay and in the volume of the bone window of the anterolateral wall of the maxillary sinus is placed in the surgical area under the mucous membrane. The individually milled bone implant was fixed due to anatomical retention to the alveolar bay and the bone window of the anterolateral wall of the maxillary sinus, as well as dental implants installed along the milled bone guides taking into account the individual anatomical and topographic features of the patient. The wound is sutured. Establish gum formers.

The positive effect of using the proposed method is expressed in reducing the error in positioning osteoplastic material in the maxillary sinus fundus, optimizing the stage of introduction of the material into the maxillary sinus, reducing the risk of material dislocation, the risk of perforation of the mucous membrane of the maxillary sinus, shortening the integration time of the implanted material, optimization positioning of dental implants.

The proposed method can be used in dental implantology in the departments of maxillofacial surgery and outpatient dental institutions.

INFORMATION SOURCES

1. RF patent for the invention No. 2563090 “Method for sinus lift with dental implantation”, priority from 08.08.2014.

2. Patent for invention No. 2527840 "A method for preventing perforation of the mucous membrane of the maxillary sinus during sinus lift surgery, priority from 03/27/2012.

3. RF patent for the invention No. 2397719 "Method for sinus lift with dental implantation", priority from 04/20/2009.

Claims (1)

A method of open sinus lifting, including a mucosal incision, peeling and folding of the mucoperiosteal flap, creating using the burs, drills, taps of the bone window, peeling the bottom of the alveolar bay of the maxillary sinus mucosa, laying and fixing the bone implant in the area of the bone window of the anteromandibular wall sinus, characterized in that the bone implant with individual parameters, milled from pre-lyophilized bone biomaterial with bone n guides of dental implants in the volume of the alveolar bay and in the volume of the bone window of the anterolateral wall of the maxillary sinus are placed in the surgical area under the mucous membrane; The individually milled bone implant is fixed due to anatomical retention to the alveolar bay and the bone window of the anterolateral wall of the maxillary sinus, as well as dental implants installed along the milled bone guides taking into account the individual anatomical and topographic features of the patient.