KR20120090517A - Arthroscopy self retractor - Google Patents

Abstract

PURPOSE: An arthroscopy self retractor is provided to conveniently perform a surgical operation by easily obtaining a surgical operation space in an arthroscopic surgery. CONSTITUTION: A guide tube(110) passes through a muscle cut-out portion of a joint. One cutting-out portion is inserted inside the joint. A retraction control rod(120) is screwed through the inside of the guide tube. An end portion of the retraction control rod contacts the condylar of the joint. The muscle cut-out portion of the joint is inserted into one outer end portion of the guide tube. One outer end portion of the guide tube is combined with a retracting wing(113) while contacting the inner muscle surface of the joint.

Description

Arthroscopy self retractor

The present invention relates to an arthroscopic self-traction device, and more particularly to an arthroscopic self-traction device having a traction wing for securing a surgical space during arthroscopic surgery.

The arms and legs of the human body are connected to the torso through the joints, while the legs and torso are connected to the joints through the vertebrae and pelvis, whereas the arms form the joints of the humerus and the scapula, and the scapula is the clavicle and scapula It is connected to the body through the joints.

In order for the joints to be strong, the muscles and ligaments must wrap around them.The shoulder joints, unlike other parts of the human body, have a very small area of joints between the body and the bones of the arms, as well as the lower part of the joints (armpits). In this case, no ligaments and muscles surround the joints, so the shoulders fall out due to excessive exercise.

Unlike the past, where the procedure was performed by direct skin incision and joint incision for disease or damage of the joint, it is now possible to perform an operation simultaneously with diagnosis using advanced medical equipment, arthroscopy. Using a small hole without incision, the arthroscopy with a special small camera is inserted into the joint, and then the inside of the joint is observed through a monitor to accurately diagnose even lesions that are not recognized by special imaging (CT, MRI). Not only can it be done, but it can also be operated at the same time.

When arthroscopy is performed, it is a problem to secure a field of view due to the narrow space of the joint itself. Therefore, when arthroscopy is performed on the shoulder or the like, it is necessary to sufficiently secure the surgical space in the joint using a traction device.

By the way, the conventional arthroscopic traction device has a problem that the mechanism itself is large and complicated to interfere with the operation as well as the operation is inconvenient because there is no self-traction function.

The present invention has been made to solve the above problems, an object of the present invention is to provide an arthroscopic self-traction device that has a simple structure and has a self-traction function to facilitate the securing of a surgical space during arthroscopic surgery.

Arthroscopic self-traction device according to the present invention, the guide tube is inserted into the inside of the joint through the guide through the muscle incision of the joint, the traction adjustment rod is screwed through the inside of the guide tube close to the end of the joint head It includes, but the outer surface of one end of the guide tube is inserted into the muscle incision of the joint is coupled to the traction wing is caught in close contact with the inner surface of the muscle of the joint.

In addition, one end of the guide tube is formed with a female thread, one end of the traction control rod is formed with a male screw is screwed to the female thread of the guide tube, the other end of the traction control rod of the traction control rod An adjustment knob portion for adjusting the insertion depth may be formed.

In addition, the end of the towing blade may protrude more than the end of the guide tube when positioned in a direction parallel to the guide tube.

In addition, the length of the towing blade is preferably 2.5cm ~ 3.0cm.

In addition, a handle may be formed at the other end of the guide tube to hold the guide tube during the procedure.

According to the arthroscopic self-traction device according to the present invention, the arthroscopic surgery is easy to secure the operating space at the time of arthroscopy, thereby widening the field of view and simplifying the operation of the instrument.

1 is an assembled perspective view showing the arthroscopic self-traction device according to the present invention,
2 is an exploded perspective view of FIG. 1;
Figure 3 (a) is an end state at the time of inserting the arthroscopic self-traction device of the present invention in the joint at the time of arthroscopy,
Figure 3 (b) is an end state when the arthroscopic self-traction device of the present invention at the time of arthroscopic surgery,
Figure 4 (a) to (c) is a view showing a step in which the arthroscopic articulation of the present invention by inserting the traction device into the joint.

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

1 is an assembled perspective view showing the arthroscopic self-traction device according to the present invention, Figure 2 is an exploded perspective view of FIG.

As shown, the arthroscopic self-traction device 100 of the present invention is composed of a guide tube 110, the traction adjustment rod 120 is inserted into the guide tube 110 and screwed through.

A female thread 111 is formed inside one end of the guide tube 110, and the other end of the guide tube 110 is disposed in the longitudinal direction of the guide tube 110 to hold the guide tube 110 during the procedure. A handle 112 that is erected perpendicularly to is formed.

In addition, one end of the guide tube 110 is inserted into the muscle incision portion of the joint and is rotated so as to rotate around the hinge pin 114 to be pulled by the traction wing 113 closely attached to the inner surface of the joint. have.

The towing wing 113 is in the form of a band, the length is generally 2.5cm ~ 3.0cm. When the length of the towing wing is less than 2.5cm, the supporting effect of close contact with the inner surface of the muscle is weak, and the towing wing easily exits and exits the muscle incision. It is undesirable because it interferes with the tube and makes it difficult to rotate the towing blade inside the joint.

The hinge pin 114 is provided in the middle of the towing blade 113, the end of the towing blade 113 is located in the direction parallel to the guide pipe 110 of the guide pipe 110 It protrudes more than the end.

Therefore, when the tip of the towing blade 113 touches the head B of the joint during the procedure, the towing blade 113 may naturally rotate 90 degrees by the contact of the towing blade 113 and the head B. There is an advantage to this.

One end of the traction control rod 120 is formed with a male screw 121 is screwed to the female thread 111 of the guide tube 110, the other end of the traction control rod 120, the adjustment knob 122 ) Is formed, the insertion depth is adjusted while the traction adjustment rod 120 is inserted as the operator grasps and rotates the adjustment knob 122 by hand during the procedure.

Figure 3 (a) shows the end state when the arthroscopic self inserted into the traction apparatus 100 at the time of arthroscopy, Figure 3 (b) shows the arthroscopy of the present invention at the time of arthroscopy The end state (when the towing blade is rotated) at the time of towing the self-traction device is shown.

When the arthroscopic self-insertion apparatus 100 according to the present invention configured as described above secures the surgical space by inserting the traction apparatus 100 into the joint, as shown in FIG. 4 (a), in the longitudinal direction of the guide tube 110. The longitudinal direction of the traction wing 113 is inserted into the joint through the skin and muscle (M).

When the traction blade 113 touches the head B of the joint, the traction wing 113 is rotated. As the guide tube 110 is further inserted, the end of the guide tube 110 contacts the head B. When the traction wing 113 rotates 90 degrees and pulls the guide tube 110, the traction wing 113 is in close contact with the inner surface of the skin and muscle (M) to ensure a surgical space (see Fig. 4b).

At this time, by forming a separate incision hole through the skin and muscle (M) may be rotated by pushing the towing blade 113 with a separate rod, it is to make the towing blade rotated on its own as in the embodiment of the present invention It is much preferred in terms of reducing the incision of the skin and muscles and simplifying the procedure.

Subsequently, when the operator rotates the adjustment knob 122 by hand, the traction adjustment rod 120 is rotated (screwed with respect to the guide tube), so that the end of the traction adjustment rod 120 is at the end of the guide tube 110. It protrudes, and accordingly changes the internal space height (H) it is possible to ensure a sufficient surgical space.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. The scope of the technical protection shall be determined by the technical idea of the appended claims.

100: self-traction device 110: guide tube
111: female thread 112: handle
113: towing wing 114: hinge pin
120: traction adjustment rod 121: male thread
122: adjustment knob
B: Head M: Skin & Muscle

Claims (5)

It includes a guide tube that is inserted into the inside of the joint through one end of the joint through the muscle incision, and the traction adjustment rod is screwed through the inside of the guide tube in close contact with the head of the joint,
Arthroscopic self-traction device, characterized in that the outer surface of one end of the guide tube is inserted into the muscle incision of the joint is rotated by the traction wing is in close contact with the inner surface of the joint. The method according to claim 1,
An internal thread is formed inside one end of the guide tube,
One end of the traction control rod is formed with a male screw threaded to the female screw of the guide tube,
Arthroscopic self-traction device, characterized in that the other end of the traction adjustment rod is formed an adjustment knob for adjusting the insertion depth of the traction adjustment rod. The method according to claim 1,
The end of the towing blade arthroscopic self-traction device, characterized in that protruding than the end of the guide tube when positioned in a direction parallel to the guide tube. The method according to claim 1,
Arthroscopic self-traction device, characterized in that the length of the towing wing is 2.5cm ~ 3.0cm. The method according to claim 1,
Arthroscopic self-traction device, characterized in that the handle is formed on the other end of the guide tube to hold the guide tube during the procedure.

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