WO2022131460A1

WO2022131460A1 - Vertical drilling guide device for bone conduction implant

Info

Publication number: WO2022131460A1
Application number: PCT/KR2021/006922
Authority: WO
Inventors: 서영준
Original assignee: 연세대학교 원주산학협력단
Priority date: 2020-12-15
Filing date: 2021-06-03
Publication date: 2022-06-23
Also published as: KR102482771B1; KR102440539B1; KR20220085877A; KR20220124131A

Abstract

The present invention relates to a device that guides vertical drilling during bone conduction implant surgery, which is able to stably and accurately guide vertical drilling without depending on the sight of an operating surgeon, wherein during the process of replacing a drill bit, an upper guide member can be easily replaced whilst a lower support member is in a fixed state.

Description

Bone conduction implant vertical drilling guide device

The present invention relates to a vertical drilling guide device and a vertical drilling device used in bone conduction implant surgery.

If symptoms such as conductive hearing loss, unilateral hearing loss (SSD), or mixed hearing loss exist, bone conduction implant surgery is performed. The bone conduction implant is a medical device that transmits sound directly to the inner ear through the bone without passing through the outer and middle ear. As such, the bone conduction implant system consists of an implant (Bone Conduction Implant-BCI) and an external device (sound processor).

The bone conduction implant system converts the sound captured by the sound processor, an external device, into an electrical signal, and transmits the electrical signal converted from the internal device to the coil of the internal implant inserted into the subcutaneous layer. It works on the principle that sound energy delivered to the inner ear is converted into a nerve signal and transmitted to the auditory nerve for listening.

Internal device implant surgery involves injecting a local anesthetic into the surgical site, making a C-shaped incision in the skin for insertion, drilling with a guide drill using a 3mm drill bit, removing the drill bit and drilling to a depth of 4mm Step, placing the implant perpendicular to the bone surface, fixing the implant by tightening, fixing the bone bed indicator to the implant, rotating the bone bed indicator to measure flatness Step, if there is a protruding part, grinding and removing the soft tissue and bone, fixing the implant magnet to the implant, and sealing the surgical site.

In order for the implant magnet to vibrate properly, the implant fixing the implant magnet is inserted vertically, and the surgical site is removed by flat grinding so that the implant magnet does not touch the surface of the insert or too far apart. It is important to maintain and place it. Nevertheless, since the vertical fixation of the implant is made depending on the operator's vision through the upper vertical chim rod of the drill, there is a problem that the accuracy may be lowered. As such, in bone conduction implant surgery, implants used in the dental field such as Republic of Korea Patent Registration No. 10-1763763 despite the fact that vertical fixation of the implant, which is a premise for the implantation process so that the magnet is spaced apart from the skin at regular intervals, is relatively more important. Only the Republic of Korea Patent Registration No. 10-1095245, which is used for the production of instruments for guiding the implantation position and parts for the space industry, is disclosed, and there is no technology disclosed for a vertical guide device for bone conduction implants.

In addition, since the electric drill used for bone conduction implants is very expensive, there are practical problems that are difficult to introduce in small and medium-sized hospitals and clinics. When the user manually drills the implant implantation part using the device of , it is very difficult to drill accurately vertically than with an electric drill, so the need for a vertical drilling guide device is greater.

An object of the present invention for solving these problems is to provide a bone conduction implant vertical guide device.

In addition, another object of the present invention is to provide a vertical drilling guide device capable of manual operation in the form of a driver that can be manufactured at a relatively low cost.

In order to solve this problem, the present invention is supported on the perforated surface of the bone conduction implant and has a through hole formed in the center perpendicular to the perforated surface of the bone conduction implant, the lower surface of which is provided in a flat shape. It is supported on and provides a vertical drilling guide device for bone conduction implants including an upper guide member having a through-hole formed in the center perpendicular to the perforation surface of the bone conduction implant.

In addition, in the lower support member supported on the perforation surface of the bone conduction implant, a through hole perpendicular to the perforation surface of the bone conduction implant is formed in the center, and the lower surface is provided in a flat shape, a plurality of lower portions having different through-hole diameters A bone conduction implant comprising a set of support members, a set of a plurality of lower support members having different diameters of the through holes in the upper guide member supported on the upper surface of the lower support member and having a through hole in the center formed perpendicular to the perforation surface of the bone conduction bone conduction implant. Provides a vertical drilling guide device.

In addition, the present invention includes a driver handle that can perform vertical drilling according to a user's manual rotation operation through the guide of the bone conduction implant vertical drilling guide device manually by fixing the bone conduction implant vertical drilling guide device and the drill blade. Provided is a vertical drilling device for bone conduction implants.

Using the present invention, it is possible to accurately guide the vertical perforation without depending on the operator's field of vision during the surgical procedure.

In addition, by forming part or all of the device of the present invention in a transparent color, it is possible to secure the operator's view, and since a plurality of members having different through-holes can be selectively used, vertical drilling guides of drills having different diameters can be performed.

In addition, by using a manual screwdriver together with the vertical guide device of the present invention, vertical drilling is possible without using a relatively heavy and expensive electric drilling device.

1 is a view showing the external shape of the vertical drilling guide device of the present invention.

2 is a diagram showing the shape of a drill bit used for a bone conduction implant.

Figure 3 is a view showing a vertical drilling guide device of the present invention viewed from the bottom.

4 is a view showing a state in which the drill bit is coupled to the vertical drilling guide device.

5 is a diagram showing a state in which an electric drill and a vertical drilling guide device are combined and used.

6 is a diagram showing a manual screwdriver handle.

7 is a photograph showing a drill bit used for a bone conduction implant.

The terms or words used in the present specification and claims are not to be construed as limited in their ordinary or dictionary meanings, and on the principle that the inventor can appropriately define the concept of the term in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as “…unit”, “…group”, “module”, and “device” described in the specification mean a unit that processes at least one function or operation, which is implemented by a combination of hardware and/or software can be

Throughout the specification, the term “and/or” should be understood to include all possible combinations of one or more related items. For example, the meaning of “the first item, the second item, and/or the third item” means to be presented from the first, second, or third item as well as two or more of the first, second, or third items. A combination of all possible items.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

1, the present invention is supported on the perforated surface of the bone conduction implant, the through hole 15 perpendicular to the perforated surface of the bone conduction implant is formed in the center, and the lower support member is provided with a flat lower surface. (20), a bone conduction implant vertical drilling guide device including an upper guide member (10) supported on the upper surface of the lower support member (20) and having a through hole (15) formed in the center perpendicular to the perforation surface of the bone conduction implant do. The lower support member 20 and the upper guide member 10 are mutually detachable, and a through hole 15 is formed in the center to allow the drill bit 50 to be inserted. The lower support member 20 is provided in the form of an open central portion, the lower surface is supported on the perforated surface, and the lower surface may be provided in a flat form, but according to the movement such as rotation or movement during the operation, the surgical site It is preferable that the outer surface is provided in a circular shape to minimize damage to the device.

The upper guide member 10 of the bone conduction implant vertical drilling guide device of the present invention may be made of a transparent color, which is for the purpose of securing the operator's field of view and transmits the light used in the surgical procedure to the surgical site to protect the surgical site. In order to be able to observe accurately.

In addition, a locking member 30 is formed on the upper guide member 10 and the lower support member 20 of the bone conduction implant vertical drilling guide device of the present invention so that the upper member and the upper member rotate together according to any one rotation. may be provided in the form. As a method of coupling the upper member and the lower support member 20, various well-known methods such as a form of forming a screw line may be used, but the drill bit 50 as it is in a state where the lower support member 20 is left on the perforation surface during the operation. ) There is a need to replace, and there is also a need to easily replace the upper member according to the diameter of the drill bit 50 and use it. Therefore, when the upper guide member 10 or the lower support member 20 is rotated or moved by forming a coupling means with the engaging member 30 for relatively easy detachment, the upper guide member 10 or the lower support member 20 is rotated or moved together while allowing easy detachment. will be. It is preferable that the locking member 30 is formed in plural of 2 to 4 so that the upper guide member 10 and the lower support member 20 are coupled together to rotate and move not only during position movement but also during rotation. The lower surface of the engaging member 30 may be provided to be positioned on the same plane as the lower surface of the lower support member 20. In this case, when the vertical drilling guide device is rotated, the engaging member 30 is perforated while rotating together. If there is a part caught in the surface (not flat, but protruding surface), it can perform the role of flatness detection so that it can be found and polished.

In addition, in order to more conveniently guide the user's operation, one of the upper guide member 10 and the lower support member 20 of the bone conduction implant vertical drilling guide device is made of a magnetic material, and the other is made of a metal or a magnetic material. By providing to include a metal body made of, it is possible to perform a certain auxiliary fixing role through magnetic force. In the drilling process, the operator holds the upper guide member 10 of the drilling guide device and proceeds with the operation in a fixed form, but the magnet serves to guide the accurate bonding position in the initial stage. Since the drilling position should not be changed during the replacement process of the drill bit 50, such an accurate coupling position guide is very important.

Referring to FIG. 2 , the reason that the upper guide member 10 and the lower support member 20 are provided in each shape rather than in one shape is the bone conduction implant drill used in bone conduction implant surgery. In the case of the bit 50, since the diameter of one end portion fixed to the drill chuck is smaller than the diameter of the other end, the through hole 15 of the upper guide member 10 after coupling the drill bit 50 to the wide lower member Inserting one end of the drill bit 50 into (15) and moving the upper guide member 10 down to make surface contact with the lower support member 20 to fix it. This is to replace the upper guide member 10 or the lower support member 20 having the through hole 15 . As shown in Figure 7, the diameter of the drill bit 50 is different depending on the use. Therefore, a through hole 15 supported on the perforation surface of the bone conduction implant and perpendicular to the perforation surface of the bone conduction implant is formed in the center, and the lower surface is a through hole 15 in the lower support member 20 provided in a flat shape. A set of a plurality of lower support members 20 having different diameters, a through hole 15 supported on the upper surface of the lower support member and perpendicular to the perforation surface of the bone conduction bone conduction implant is penetrated in the upper guide member 10 formed in the center By providing a bone conduction implant vertical drilling guide device including a set of a plurality of upper guide members 10 having different diameters of the balls 15, select and use the upper guide member 10 or the lower support member 20 of the required size By doing so, it can be applied to the drill bit 50 of various diameters.

In the bone conduction implant vertical drilling guide apparatus of the present invention, the diameter of the through hole 15 of the lower support member is larger than that of the through hole 15 of the upper guide member 10 . As described above, in the case of the bone conduction implant drill bit 50, since the diameter of one end fixed to the drill chuck is smaller than the diameter of the other end, after coupling the drill bit 50 to the lower member having a wide through hole 15 This is for inserting and fixing one end of the drill bit 50 into the through hole 15 of the upper guide member.

According to another aspect of the present invention, the present invention provides vertical drilling according to the user's manual rotation operation through the guide of the bone conduction implant vertical drilling guide device by fixing the bone conduction implant vertical drilling guide device and the drill bit 50 manually. It provides a bone conduction implant vertical drilling device comprising a driver handle portion (60) that can. Referring to FIG. 6 , the screwdriver handle unit 60 has a structure in which the drill bit 50 is fixed at one end and the user grips and rotates the drilling by hand, and a plurality of protrusions are formed to prevent slipping. It is preferable to do As the fixing method of the drill bit 50, a method of fixing the drill bit 50 by pressing the drill bit 50 while the inner diameter of the chuck decreases as a member surrounding the outside of the chuck is rotated with a chuck like an electric drill. It is not limited.

The present invention can be used in bone conduction surgery as a vertical drilling guide device that can be used in bone conduction implant surgery.

Claims

A through hole 15 supported on the perforated surface of the bone conduction implant and perpendicular to the perforated surface of the bone conduction implant is formed in the center, and the lower surface is supported on the flat lower support member 20, the lower support member and the upper surface of the bone conduction implant. Bone conduction implant vertical drilling guide device including an upper guide member (10) formed in the center of the through hole (15) perpendicular to the implant perforation surface.
The bone conduction implant vertical drilling guide device according to claim 1, wherein at least one of the upper guide member 10 or the lower support member of the bone conduction implant vertical drilling guide device is made of a transparent color.
According to claim 1, wherein the upper guide member (10) and the lower support member (20) of the bone conduction implant vertical drilling guide device is provided with a locking member (30), the upper guide member (10) and the lower support member (20) Bone conduction implant vertical drilling guide device, characterized in that to rotate together according to any one rotation.
The metal body of claim 1, wherein one of the upper guide member 10 and the lower support member 20 of the bone conduction implant vertical drilling guide device includes a magnetic material, and the other is made of a metal or a magnetic material. Bone conduction implant vertical drilling guide device comprising a.
[2] The bone conduction device according to claim 1, wherein the through hole 15 of the lower support member 20 has a larger diameter than the through hole 15 of the upper guide member 10 of the bone conduction implant vertical drilling guide device. Bone conduction implant vertical drilling guide device.
A through hole 15 supported on the perforation surface of the bone conduction implant and perpendicular to the perforation surface of the bone conduction implant is formed in the center, and the diameter of the through hole 15 in the lower support member 20 of a flat shape is the lower surface. Another set of a plurality of lower support members 20, a through hole 15 in the upper guide member 10 supported on the upper surface of the lower support member and having a through hole 15 perpendicular to the perforation surface of the bone conduction bone conduction implant in the center. ) Bone conduction implant vertical drilling guide device comprising a set of a plurality of upper guide members (10) having different diameters.
According to claim 6, wherein the upper guide member (10) and the lower support member (20) of the bone conduction implant vertical drilling guide device is provided with a locking member (30), so that the upper guide member (10) and the lower support member (20) Bone conduction implant vertical drilling guide device, characterized in that to rotate together according to any one rotation.
The bone conduction implant vertical drilling guide device of claim 1 or 6; And Bone conduction including a screwdriver handle part 60 capable of performing vertical drilling according to a user's manual rotation operation through a guide of the bone conduction implant vertical drilling guide device manually by fixing the drill bit 50 to one end Implant vertical drilling device.