KR101937052B1 - Medical biomaterials unit and Applicator for attaching the mdical biomaterials unit - Google Patents

Abstract

The present invention relates to a medical biomaterial unit and an applicator for attaching a biomaterial. According to the present invention, the medical biomaterial unit comprises: a sealing biomaterial attached to a lesion to seal or stanch the lesion during a surgical operation; and a magnet unit generating repulsion with an outer magnet and coupled to the sealing biomaterial to attach the sealing biomaterial on the lesion by the repulsion.

Description

TECHNICAL FIELD [0001] The present invention relates to a medical biomaterial unit and an applicator for attaching the biomaterial,

The present invention relates to a medical biomaterial unit and an applicator for biomaterial attachment, and more particularly, to a medical biomaterial unit capable of being adhered smoothly to a lesion for hemostasis or sealing of a lesion, To an applicator for attaching a bio-material, which enables the applicator to be attached accurately and quickly.

Among the biomaterials used in modern surgical operations, Tachosil®, a hemostatic agent widely used in the entire surgical field, has a very strong hemostatic and tissue sealing ability, but many surgeons, especially those of minimally invasive surgery Have experienced difficulty in attaching Tachosil® (hereinafter referred to as "Tacosyl").

In other words, minimally invasive surgery is widely used due to the development of surgical techniques. Laparoscopic, thoracoscopic or robotic assisted surgery minimizes the patient's pain by performing a surgical incision through a small incision window, It is an operation method.

Tachosyl, an essential hemostatic agent for minimally invasive surgery, has been used for hemostasis of hemorrhage, reinforcement of sutures, sealing of graft vessels, long term anastomosis of gynecologic surgery, ureteral anastomosis of ureteral surgery, renal attachment and revealed lung surface, Used for air leakage sealing of wire.

In the case of conventional thoracotomy and laparotomy, since it is operated through a wide surgical incision window, there is no difficulty in applying Tachosil® since the hands of the home doctor and various surgical instruments can be used. However, in the case of minimally invasive surgery, the operation is carried out through a very small surgical field which can not enter the hands of the operator and can not pass through large instruments.

The tachyseal is transported by a surgical grasper such as a grasper during minimally invasive surgery, but it is easily broken due to its weak structure. Tachosil® requires a time of more than 3 minutes before complete attachment, so if it is attached to a position that is against gravity, it should be applied by evenly spreading the entire surface with the tool.

At this time, Tachosil® is often difficult to push and hold evenly to the forceps, and when a forceps is withdrawn, a part of the forceps is attached to the forceps, which is often unwanted and not attached to the lesion. These disadvantages are attributed to the excellent adhesion and excellent hemostatic ability, as shown by the fibrin sealant patch, which is a component name of tacosyl, but it is also a property that sticks well to the apparatus.

Also, the thoracic cavity and abdominal cavity of our body are composed of elliptical cross-sectional structure. Minimally invasive thoracotomy is performed in a decubitus position and the patient is placed on the operating table. If a bleeding lesion or an air leak lesion occurs during the operation, it is possible to apply biomaterials on the lesion using gravity and wait until the lesion is completely attached. However, in most surgical situations, , It is not easy to apply due to the existence of a lesion on the site opposite to gravity, and even after hardly applying it, it is required to spread evenly for a certain period of time until complete attachment.

That is, since the tachometer is continuously pressed by the device until it is completely attached to the lesion, it causes inconvenience to the operator and prevents the bleeding or sealing of the lesion from being performed smoothly due to the nature of sticking to the device used for pressing Causing problems.
Korean Patent Registration No. 10-1587627 (2016.01.25)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for quickly and accurately attaching to a lesion requiring hemostasis or sealing, And to provide a medical biomolecule unit which enables the biomolecule unit to be used.

It is another object of the present invention to provide an applicator for attaching a bio-material which enables a bio-material to be attached to a lesion quickly and accurately.

In order to accomplish the above object, a medical biomaterial unit according to the present invention comprises: a sealing biomaterial attached to a lesion for hemostasis or sealing of a lesion during a surgical operation; And a magnet unit coupled to the seal biomaterial and generating a repulsive force with an external magnet so that the seal biomaterial is brought into close contact with the lesion side by its repulsive force.

Wherein the magnet unit comprises: a first film detachably attached to the sealed bio material; a second film coupled with the first film; and a plurality of magnets disposed between the first film and the second film; .

Wherein the first film includes a base portion having a shape corresponding to the sealed bio material and an extension portion extending from the base portion so that the separation can be smoothly performed with respect to the sealing bio material of the base film. .

According to an aspect of the present invention, there is provided an applicator for attaching a bio material, the apparatus comprising: an operating unit for attaching the medical bio material unit to a lesion side, A main body part extending from the operation part to the lesion side so as to form a suction path for allowing air to be sucked in and allowing the sealing biomaterial to be temporarily held by the suction force; And a repulsive force generating unit provided at a front end side of the main body facing the magnet unit so as to generate a repulsive force to the magnet unit after the suction force generated in the main body unit is removed.

Preferably, an inlet port communicating with the suction passage is formed at a front end of the main body portion facing the magnet unit, and the inlet port and the repulsive force generating unit are disposed so as to surround one another.

The medical biomaterial unit according to the present invention having the above-described structure is configured such that the outer magnet and the magnet unit causing repulsive force are detachably coupled to the sealing biomaterial such as a tachometer used for hemostasis or sealing, Since the material can be attached to the lesion by the repulsive force between the magnets after approaching the side of the lesion requiring hemostasis or sealing, the sealing biomaterial (ex. Tacosyl) can be attached to the biomaterial attachment apparatus quickly and accurately, So that it is possible to improve the convenience of the operator and to provide a medical service of good quality.

1 is an exploded perspective view of a medical biomaterial unit according to an embodiment of the present invention;
2 is a plan view of the combined state of one embodiment of the present invention.
3 is a sectional view taken along the line III-III of Fig.
4 is a partial cross-sectional view illustrating a schematic structure of an applicator for attaching a bio material according to an embodiment of the present invention;
5 and 6 are views for explaining an operation process of an applicator for attaching a bio material according to an embodiment of the present invention.

Hereinafter, a medical biomaterial unit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of a medical biomaterial unit according to an embodiment of the present invention, FIG. 2 is a plan view of a combined state of the embodiment of the present invention, and FIG. 3 is a sectional view taken along line III-III of FIG.

As shown in these drawings, a medical biomaterial unit according to an embodiment of the present invention includes a sealed bio material 1 attached to a site requiring hemostasis or sealing of the lesion A, and a sealing biomaterial 1 ) To the lesion (A) quickly and accurately.

The sealed bio material 1 is attached to the lesion A for hemostasis or sealing of the lesion A during surgical operation and is made in the form of a patch having a relatively small and thin thickness. Such a sealed bio material 1 is preferably made of a material capable of adhering to a tissue or an organ inside the human body, such as Tachosil (hereinafter referred to as "Tachosil").

The magnet unit 2 is coupled to the sealing bio material 1 in a state where the magnet 23 is installed and generates a repulsive force between the magnet 23 and an external magnet 33 And functions to bring the sealed bio material 1 into close contact with the side of the lesion (A) by a repulsive force.

The magnet unit 2 is detachably coupled to the sealed bio material 1 so that the sealed bio material 1 is bonded to the sealed bio material 1 until it is attached to the lesion A, After the sealed bio material (1) is completely attached to the lesion (A), it is separated from the sealed bio material (1).

The magnet unit 2 is designed such that the coupling force with the sealing biomaterial 1 is smaller than the adhesion force between the sealing biomaterial 1 and the lesion A so that the magnet unit 2 can be smoothly separated from the sealing biomaterial 1 desirable.

The medical biomaterial unit according to one embodiment of the present invention having such a constitution is characterized in that the magnet unit 2 (causing repulsive force with the outer magnet) is separated from the sealed bio material 1 such as a tachometer used for hemostasis or sealing. It becomes possible to attach the sealed bio material 1 to the lesion A with a repulsive force between the magnets after approaching the lesion A side requiring hemostasis or sealing, 1) (ex. Tacosyl) can be attached to the lesion site A quickly and accurately without sticking to the bio-material attaching device, thereby improving the convenience of the practitioner and providing a high quality medical service To be able to anticipate the benefits of enabling it.

The magnet unit 2 employed in this embodiment comprises a first film 21, a second film 22 and a plurality of magnets 23 as best shown in Fig. The first film 21 is detachably attached to the sealing bio material 1 and the second film 22 is bonded to the first film 21 by fusion bonding or the like, 23 are disposed between the first film 21 and the second film 22.

This embodiment having such a configuration enables manufacturing of the magnet unit 2 by disposing the magnets 23 between the pair of films and combining the films and the magnets 23, And the manufacturing cost can be reduced.

1 and 3, the first film 21 includes a base portion 21a (see FIG. 1) and a second base portion 21b (a second base portion 21a) so that the magnet unit 2 can be smoothly separated from the sealed bio material 1 And an extension portion 21b.

That is, the base portion 21a has a shape and size corresponding to the sealing bio material 1, and the extension portion 21b extends from the base portion 21a, So that separation of the sealed bio material (1) can be smoothly performed.

Hereinafter, an applicator 3 for attaching a bio-material to move the medical bio-material unit to the lesion A and attach it will be described in detail with reference to FIG. 4 to FIG.

FIG. 4 is a partial cross-sectional view illustrating a schematic structure of an applicator for attaching a bio material according to an embodiment of the present invention, and FIGS. 5 and 6 illustrate an operation process of an applicator for attaching a bio material according to an embodiment of the present invention FIG.

As shown in these drawings, the applicator 3 for attaching a bio material according to an embodiment of the present invention is for attaching a medical biomaterial unit to the side of the lesion A, and includes an operating part 31 and a main part 32 and a repulsive force generating unit 33. [

The operation section 31 is provided with an air suction button 31a to allow operation of the operator and the main body section 32 is extended from the operation section 31 toward the lesion A side And the repulsive force generating portion 33 is a portion which generates a repulsive force on the side of the magnet unit 2 attached to the sealing bio material 1. [

The suction passage 32a formed in the main body portion 32 enables the external air to be sucked so that the main body portion 32 can temporarily hold the sealing biomaterial by a suction force for sucking air.

5, the repulsive force generating portion 33 is provided at the tip end side of the main body portion 32 facing the magnet unit 2, and the repulsive force generating portion 33 is formed on the main body portion 32, And acts to generate a repulsive force to the magnet unit 2 after the suction force is removed.

The present embodiment having such a configuration is characterized in that when the medical biomaterial unit should be attached to the lesion A requiring hemostasis or sealing, as shown in FIG. 4, The medical biomaterial unit including the sealed bio material 1 and the magnet unit 2 can be temporarily attached to the main body 32 side by the air suction force so as to be brought close to the lesion A by generating a suction force, So that the medical biomaterial unit can be prevented from sticking to another position before it is attached to the precise position of the lesion (A).

5, after the medical bio-material unit is applied to the lesion A, the repulsive force by the repulsive force generating unit 33 is removed by removing the air suction force, It is possible to expect an advantage that the sealed bio material 1 such as a tachometer can be attached to the lesion A smoothly without adhering to the attachment mechanism as in the present embodiment I will.

As shown in FIG. 5, after the medical biomaterial unit is attached to the lesion A, the extension portion 21b of the first film 21 is separated by the separating tool 4, as shown in FIG. The magnet unit 2 is separated from the sealed bio material 1 by gripping and pulling.

On the other hand, in the present embodiment, an inlet 32b communicating with the suction passage is formed at the tip of the main body 32 facing the magnet unit 2.

The inflow port 32b and the repulsive force generating unit 33 are preferably arranged so as to enclose the other one so as to minimize the size and simplify the configuration. In this embodiment, the inlet port 32b is formed at the center, and the repulsive force generating section 33 is disposed in a manner to surround the inlet port 32b.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the scope of the present invention It will be apparent that those skilled in the art can easily devise modifications and specific embodiments within the scope of the present invention.

1: Sealing Bio material 2: Magnet unit
21: first film 21a: base part
21b: Extension part 22: Second film
23: Magnet 3: Applicator
31: Operation part 31a: Air suction button
32: main body portion 32a:
32b: Inlet port 33:
4: separation tool A: lesion

Claims (5)

A seal biomaterial in patch form attached to the lesion for hemostasis or sealing of the lesion during surgical operation; And
And a magnet unit coupled to the seal biomaterial and generating a repulsive force with an external magnet so as to bring the seal biomaterial into close contact with the lesion side by its repulsive force,
Wherein the magnet unit comprises: a first film detachably attached to the sealed bio material; a second film coupled with the first film; and a plurality of magnets disposed between the first film and the second film; Wherein the biomolecule is a biomolecule. delete The method according to claim 1,
Wherein the first film comprises:
And an extension part extending from the base part so that separation of the base film from the sealing bio material can be smoothly performed. Material unit. The medical biomaterial unit according to any one of claims 1 to 3, which is attached to the lesion side,
An operating portion for enabling operation of the operator;
A main body part extending from the operation part to the lesion side so as to form a suction path for allowing air to be sucked in and allowing the sealing biomaterial to be temporarily held by the suction force; And
And a repulsive force generating unit provided at a distal end side of the body portion facing the magnet unit so as to generate a repulsive force to the magnet unit after the suction force generated in the body unit is removed. An applicator for attachment. 5. The method of claim 4,
An inlet port communicating with the suction passage is formed at a tip end of the main body portion facing the magnet unit,
Wherein the inlet and the repulsive force generating unit are arranged so that one of the inlet and the repulsive force generating unit surrounds the other.

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