KR101019121B1 - Operator for surgicalling of periosteum in maxillary by hydraulic - Google Patents

Abstract

The present invention perforates the pores for the implantation of a plurality of neighboring implants, and the periosteum in the maxillary sinus is elevated by hydraulic pressure, and the neighboring periosteal elevation is not discharged by filling the periosteal coarse space by the silicone. A periosteal macrophages caused by hydrostatic pressure in the maxillary sinus to allow the periosteum to be elevated, wherein a first outer circumferential thread 311 is screwed into a hole drilled by a drill 201 in the maxillary sinus and a first penetrating center The first inner peripheral screw thread 313 is formed on the lower inner peripheral surface from the first outer peripheral screw thread 311 and has a hole 312, embossed to rotate by hand on the outer peripheral surface of the first inner screw thread 313 A body 310 formed with one flange 314; The second outer circumferential thread 321 is screwed to the first inner circumferential thread 313 in the first flange 314 of the body 310, and the circumferential groove (s) on the front outer circumferential surface of the second outer circumferential thread 321. 322 is formed and the circumferential groove 322 is coupled to the round cap-shaped silicon cover 323, which is a countercurrent prevention means, the upper portion to communicate with the first through hole 312 of the body of the tower 310 in the center The second through hole 324 is formed through to the lower portion, characterized in that the lower body 320 is formed with a second flange 325 embossed on the outer peripheral surface on the rear side of the second inner threaded thread 321. In the present invention, when the adjacent implants are treated in multiple places, the periosteum in the maxillary sinus is first elevated, and when the periosteum at the adjacent implant procedure is elevated, the water filled in the space of the elevated periosteum is first discharged. By elevating adjacent areas and simultaneously filling artificial bones at multiple implant positions without damaging the periosteum, the procedure takes less time when implants are performed at multiple positions, and the periosteum in the maxillary sinus is easily obtained using an easy-to-use syringe. By elevating, there is an effect that the cost of the procedure is reduced because the colic is not complicated.

Maxillary sinus, periosteum

Description

OPERATOR FOR SURGICALLING OF PERIOSTEUM IN MAXILLARY BY HYDRAULIC}

The present invention relates to periosteal elevations by hydrostatic pressure in the maxillary sinus, and more particularly, to perforate the base hole for the placement of a plurality of neighboring implants, and to perforate the periosteum in the maxillary sinus by hydraulic pressure, and adjacent periosteal elevation The present invention relates to periosteal ligament and method for periosteal elevation by means of hydrostatic pressure in the maxillary sinus, which allows the neighboring periosteum to be elevated without discharging the water filled in the periosteal elevation.

In general, the implant (implant) originally means a substitute that recovers when the tissue of the human body is lost, but in the dentist means an artificial tooth implant.

Implant is a cutting-edge procedure that restores the original function of teeth by fixing artificial teeth by planting artificial tooth roots made of titanium with no rejection in the human alveolar bone to replace the missing tooth roots. In the case of ordinary prosthetics or dentures, the surrounding teeth and bones are damaged over time, but the implant has the great advantage of not damaging the surrounding dental tissue, and it has a similar function or shape but does not cause tooth decay. There is an advantage.

It is reported that the implant success rate in the maxillary posterior region is relatively low compared to other sites during the implantation procedure because the bone is weak in the maxillary posterior region and maxillary sinus cannot be embedded in the long implant. In other words, the maxillary sinus present in the maxilla is a space surrounded by the periosteum, and when the tooth is lost physiologically, it descends downward and expands. This is because the amount of bone in the bone is insufficient and the implantation in the maxillary posterior region is difficult.

On the other hand, in the conventional typical method when the bone volume to the maxillary sinus is insufficient, the lateral approach maxillary sinus lift (Lateral (External) window sinus lift (Sinus graft)) lateral approach maxillary sinus restraint as shown in Figure 1 ( Progression is made sequentially according to the direction of the arrow) In the maxillary posterior region lacking a lot of vertical bone mass (less than 5mm of remaining bone), the maxillary side wall 101 is extracted according to the height of the alveolar bone to the maxillary sinus 100 during implant surgery. It is a surgical technique for securing a long implant 103 by securing a sufficient bone mass through 102).

In the lateral approach of maxillary sinus mobilization, the procedure of collecting the bone of the patient from the non-surgical area for the lack of bone graft (the artificial bone is used if it is difficult to collect the bone) , Maxillary sinus face implantation and opening of fracture line using a round bur (104: round bur) when opening the maxillary sinus The opening of the wall, the elevation of the maxillary sinus face wall and the maxillary sinus mucosa, the treatment of the space in the maxillary sinus with elevated bone, the bone graft process, the suture process, and the implant placement 6-12 months after surgery Is done.

However, in this method of lateral approach maxillary sinus rhythm surgery, the procedure is very difficult by cutting the side wall 101 of the maxillary sinus 100 and a lot of time is required for the transplanted bone to become osteogenic as a large amount of bone graft is performed. There was a problem in that the entire treatment period is long.

In addition, there is a problem that the existing dense bone 105 forming the side wall 101 of the maxillary sinus 100 and the periosteum 106 in the maxillary sinus 100 are damaged, and when the implant is performed in multiple places adjacent to each other, as described above. In the lateral approach maxillary sinus jerking, the dense bone 105 forming the side wall 101 of the maxillary sinus 100 is completely removed and filled with artificial bone, so that the implant is firm when the implant is performed only on the artificial bone 102. There is also a problem that could not be.

Accordingly, an object of the present invention for solving the problems as described above is to drill holes for the placement of a plurality of neighboring implant medium, and to raise the periosteum in the maxillary sinus by hydraulic pressure, and by the neighboring periosteal elevation The present invention provides a periosteal macrophages caused by hydrostatic pressure in the maxillary sinus, which allows the neighboring periosteum to be elevated without discharging water filled in the periosteal coarse space.

In order to achieve the above object, the periosteal elevation of the maxillary sinus according to the present invention includes a first outer circumferential thread screwed into a hole drilled by a drill in the maxillary sinus bottom, and having a first through hole in the center thereof. A body having a first inner circumferential thread formed on a lower inner circumferential surface from an outer circumferential thread and having a first flange embossed to rotate by hand on the outer circumferential surface of the first inner circumferential thread; A second outer circumferential thread is screwed to the first inner circumferential thread in the first flange of the body, and a circumferential groove is formed on the front outer circumferential surface of the second outer circumferential thread so that the backflow preventing means is coupled to the circumferential groove. A second through hole is formed through from the top to the bottom so as to communicate with the first through hole of the body, characterized in that the lower body formed with a second flange embossed on the outer peripheral surface on the rear side of the second inner thread. .

In addition, the method of periosteal elevation by maxillary sinus pressure according to the present invention, using a drill to form a first hole corresponding to the diameter of the implant to the dense bone below the maxillary sinus periosteum that does not touch the periosteum in the maxillary sinus; Removing the drill from the first hole and inserting a periosteum; Connecting a syringe to lift the periosteum to the bottom of the maxillary sinus through the periosteal epithelium; Removing the syringe from the periosteum; Forming a second hole corresponding to the diameter of the implant from the adjacent implant procedure position to the dense bone under the maxillary sinus periosteum; Separating the drill from the second hole and inserting another periosteum; Connecting a syringe to lift the periosteum to the bottom of the maxillary sinus through the periosteal epithelium; Removing the syringe from the periosteum; Separating the periosteal giant inserted into the first and second holes, respectively, and discharging the liquid filled in the upper periosteum of the periosteum; Filling and implanting artificial bone through the first and second holes; When the height of the available bone to secure the implant is secured, it is characterized in that the process of implanting the implant in the first and second holes.

According to the periosteal elevation of the maxillary sinus and the periosteal elevation procedure according to the present invention, when a plurality of adjacent implants are treated in the place, the periosteum in the maxillary sinus is first elevated, and the periosteum at the adjacent implant procedure is elevated. First, the implantation time is reduced when multiple implants are implanted at multiple locations by simultaneously filling the adjacent areas without draining the water filled in the space of the elevated periosteum without damaging the periosteum. By lifting the periosteum in the maxillary sinus simply by using a syringe which is easy to obtain and easy to obtain, there is also an effect that the cost of the procedure is reduced because the elevation is not complicated.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a to 2e is a view showing the process of periosteal coarse due to the pressure in the maxillary sinus according to the present invention, Figure 3 is an exploded perspective view showing the periosteum riser by the hydraulic pressure in the maxillary sinus according to the present invention, Figure 4 It is an assembly sectional view which shows the periosteal elevation by the intra- maxillary sinus pressure.

Referring to the above drawings, the method of periosteal elevation by hydrostatic pressure in the maxillary sinus is performed by using the drill 201 in the maxillary sinus 100 of the maxillary sinus 100 to the extent that the periosteum 106 in the maxillary sinus 100 is not dense. forming a first hole 107 corresponding to the diameter of the implant 103 up to a compact bone; Removing the drill (201) from the first hole (107) and inserting the periosteum riser (300); Injecting liquid (L) by connecting a syringe (400) to penetrate the periosteal phase (300) and lift the periosteum (106) to the bottom of the maxillary sinus (100); Removing the syringe (400) from the periosteum riser (300); Forming a second hole 108 corresponding to the diameter of the implant 103 up to the compact bone 105 below the maxillary sinus 100, the periosteum 106, using the drill 201 at the position of the adjacent implant 103. ; Separating the drill (201) from the second hole (108) and inserting another periosteum (300); Injecting liquid (L) by connecting a syringe (400) to penetrate the periosteal phase (300) and lift the periosteum (106) to the bottom of the maxillary sinus (100); Removing the syringe (400) from the periosteum riser (300); Separating the bone marrow epithelium 300 inserted into the first and second holes 107 and 108, respectively, to discharge the liquid L filled in the bottom of the elevated periosteum 106; Filling and implanting artificial bones (102) through the first and second holes (107, 108); Once the height of the available bone for implantation of the implant 103 is secured, the implant 103 is implanted into the first and second holes 107 and 108.

According to the present invention, the periosteal epithelial cavity 300 by the hydraulic pressure in the maxillary sinus has a first outer circumferential thread 311 screwed into a hole drilled by the drill 201 at the bottom of the maxillary sinus, and a first through hole 312 at the center thereof. And a first flange (313) formed on the lower inner circumferential surface of the first outer circumferential thread (311) and embossed to rotate by hand on the outer circumferential surface of the first inner circumferential thread (313). 314 is formed with the body body 310; The second outer circumferential thread 321 is screwed to the first inner circumferential thread 313 in the first flange 314 of the body 310, and the circumferential groove (s) on the front outer circumferential surface of the second outer circumferential thread 321. 322 is formed and the reverse flow prevention means is coupled to the circumferential groove 322, the second through hole 324 from the top to the bottom to communicate with the first through hole 312 of the body body 310 in the center The lower body 320 is formed through and formed with a second flange 325 embossed on an outer circumferential surface at a rear side of the second inner circumferential thread 321.
The non-return means is a round cap-shaped silicon cover 323, and also includes a check valve and the like.
When the backflow preventing means is a silicon cover 323, the liquid L is injected to raise the periosteum 106 of the maxillary sinus 100 through the second through hole 324 of the lower body 320. The syringe 400 is connected, and in the case of a check valve, a hose for injecting water instead of the syringe 400 is connected to the second through hole 324 of the lower body 320.

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The silicone cover 323 inserted between the body 310 and the lower body 320 injects liquid L through the needle of the syringe 400 to raise the periosteum 106 in the maxillary sinus 100. In addition, even if the syringe 400 is removed, the injected liquid L does not leak.

Next, a description will be made of the periosteal elevation of the maxillary sinus and the periosteal elevation procedure of the present invention configured as described above. First, the drill 201 does not touch the periosteum 106 in the maxillary sinus 100. The first hole 107 corresponding to the diameter of the implant 103 is formed to the compact bone 105 below the maxillary sinus 100, the periosteum 106, and the drill 201 in the first hole 107. Then, screw the periosteum riser 300 to the first hole (107). Connecting the syringe 400 filled with liquid through the through-holes of the screw coupled periosteum 300, and operating the syringe to inject the liquid, the periosteum 106 at the bottom of the maxillary sinus 100 by the hydraulic pressure of the liquid Will be lifted. When a certain amount is filled, the syringe 400 is removed from the periosteal epithelial 300, and the other adjacent implant 103 is treated with a drill 201. The maxillary sinus 100, the dense bone 105 below the periosteum 106, is compressed. The second hole 108 corresponding to the diameter of the implant 103 is formed.

The drill 201 is separated from the second hole 108, and another periosteal epithelial 300 is inserted, and the syringe 400 is connected to the periosteal hypertrophy 300 to thereby form the bottom of the maxillary sinus 100. Lift the periosteum 106 into. When the periosteum is elevated in this way, the space of the periosteum that has been elevated is secured by merging with the space of the periosteum that has been previously elevated. As such, when the space of the periosteum, that is, the useful height at which the artificial bone is filled, is removed from the periosteum riser 300, the periosteum is inserted into the first and second holes 107 and 108, respectively. If the 300 is also separated, the filled liquid is discharged. In this state, the artificial bone 102 is filled and implanted through the first and second holes 107 and 108, and when the artificial bone 102 is hardened for a predetermined time, the implant 103 is placed.

In this way, when the adjacent implants are treated in multiple places, the periosteum in the maxillary sinus is first elevated and the periosteum at the adjacent implant procedure is first elevated. By raising the artificial bone in multiple implant procedure positions simultaneously without damaging the periosteum, the procedure takes less time when the implant is performed in multiple positions, and by simply elevating the periosteum in the maxillary sinus using an easy-to-use syringe As a result, the cost of the procedure can be reduced because of the complexity.

1 is a view sequentially showing a conventional lateral approach maxillary sinus floor elevation method,

Figure 2a to 2e is a view showing the process of periosteal elevation by the hydraulic pressure in the maxillary sinus according to the present invention,

3 is an exploded perspective view showing the periosteal elevation of the maxillary sinus according to the present invention,

Figure 4 is an assembly cross-sectional view showing a periosteal elevation of the maxillary sinus according to the present invention.

Explanation of symbols on the main parts of the drawings

100: maxillary dong 102: artificial bone

103: implant 106: periosteum

201: drill 310: body of the giant

311: 1st outer thread thread 312: 1st through-hole

313: first inner peripheral thread 314: first flange

320: lower body 321: second outer thread

322: circumferential groove 323: silicon cover

324: second through hole 325: second flange

Claims (4)

The first outer circumferential thread 311 is screwed into the hole drilled by the drill 201 at the bottom of the maxillary sinus, has a first through hole 312 in the center, and is formed on the lower inner circumferential surface from the first outer circumferential thread 311. A body 310 formed with an inner circumferential thread 313 and having an embossed first flange 314 so as to be rotated by hand on an outer circumferential surface of the first inner circumferential thread 313; The second outer circumferential thread 321 is screwed to the first inner circumferential thread 313 in the first flange 314 of the body 310, and the circumferential groove (s) on the front outer circumferential surface of the second outer circumferential thread 321. 322 is formed and the reverse flow prevention means is coupled to the circumferential groove 322, the second through hole 324 from the top to the bottom to communicate with the first through hole 312 of the body body 310 in the center Is formed through the periosteal epithelial fluid by maxillary sinus pressure, characterized in that consisting of a lower body 320 formed with a second flange 325 embossed on the outer peripheral surface on the rear side of the second inner peripheral thread (321). delete delete delete

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