KR102179069B1 - Needle guide device for biopsy - Google Patents

Abstract

The present invention discloses a needle guide device for biopsy that can easily separate the guide needle and the core needle. The present invention is composed of a housing, a core needle, a guide needle assembly, a slide button and a spring. The housing includes a bore formed in the center, an inlet formed at the front to be connected to the bore, and a slide hole formed on one side of the outer surface. The core needle is coupled to the housing so as to extend toward the front of the housing, and has a tip formed at the tip end so as to be inserted into the tissue. The guide needle assembly is accommodated so as to be separated into the bore of the housing through the inlet, and the hub through which the core needle passes is formed in the center and the snap fit is formed on the upper side, and the guide needle assembly is coupled to the bore of the hub and passes through the core needle. The passage is provided with a guide needle formed in the center. The slide button has a locking hole in which the snap fit can be locked, and is coupled to the slide hole to move between the locking position and the unlocking position of the snap fit. The spring is mounted in the bore of the housing to provide an elastic force in the direction of pushing the hub out of the bore of the housing. According to the present invention, since the snap fit of the guide needle assembly is configured to be locked or unlocked by a slide button operated in a one-touch manner, the guide needle and the core needle can be easily separated.

Description

Needle guide device for biopsy {NEEDLE GUIDE DEVICE FOR BIOPSY}

The present invention relates to biopsy technology, and more particularly, to a needle guide device for biopsy that can easily separate a guide needle and a core needle.

A biopsy (biopsy) is one of histopathological examinations in which living cells, tissues, etc. of a patient's lesion site are collected and then analyzed by analyzing a sample. The biopsy is mainly performed when a disease such as cancer is suspected, and is classified into an excisional biopsy, an incisional biopsy, and a percutaneous biopsy. As an example of biopsy, the biopsy of a breast lesion is a core needle biopsy that obtains part of the tumor with a biopsy needle, and a vacuum-assisted breast biopsy that collects many tissues using a thick biopsy needle and a vacuum. There is a vacuum-assisted breast biopsy (VABB).

Biopsy devices include Korean Patent Registration No. 10-1649713'Biopsy Device and System', U.S. Patent No. 7,419,472'Biopsy instrument with internal specimen collection mechanism', U.S. Patent No. 8,177,728'Valve mechanism for tetherless biopsy device', It is disclosed in many patent documents such as Patent No. 8,206,316'Tetherless biopsy device with reusable portion'.

The biopsy apparatus of some patent documents includes a housing, a needle, a cutter, a cutter driver, and a vacuum chamber. The needle extends from the housing and has a Passageway, Tissue receiving port or Opening. The cutter is arranged to be rotated and translated into the passage of the needle for cutting tissue and has a passage communicating with the passage of the needle. The vacuum chamber is connected to the path of the cutter, and transports the tissue sample from the tissue receiving port along the paths of the needle and the cutter to collect the cut tissue sample and discharges it out of the cutter. The tissue sample discharged from the cutter is collected in a tray, a cartridge, and the like. A vacuum chamber or a vacuum source is provided with a vacuum pump that generates a suction force of air.

Meanwhile, a needle guide device capable of guiding a needle when a needle of a biopsy device is inserted into a tissue at a lesion site is used. The needle guide device for biopsy is Korean Patent No. 10-1523662'Biopsy needle', Korean Patent No. 10-1523662'Biopsy needle cartridge', and US Patent No. 5,236,334'Core Biopsy needle units use with automated biopsy guns are disclosed in many patent documents. The needle guide device of these patent documents is composed of a housing, a guide needle, and a core needle. The housing or the body is configured so that the operator can hold and use with one hand. The core needle or stylet is coupled to the housing so as to extend from the housing. The guide needle, coaxial needle, or sheath has a passage through which the core needle passes. The tip of the core needle protrudes from the tip of the guide needle so that it can be inserted into the tissue. The core needle is inserted into the guide needle and inserted into the tissue, and then separated from the guide needle. The biopsy needle is inserted into the tissue through the passage of the guide needle to collect a tissue sample. The contents disclosed in the above patent documents are incorporated herein by reference.

In the biopsy needle guide device as described above, the housing and the hub of the guide needle are coupled in a screw manner so as to be separated. The operator holds the hub with one hand to separate the core needle from the guide needle while the core needle is pierced into the tissue, and the other hand rotates the housing to separate the hub and the housing, and then pulls the housing to the guide needle passage. The core needle must be removed from the. In this way, since the operator must separate the core needle using both hands, the use of the needle guide device is very cumbersome and inconvenient.

In particular, recently, many tissue examinations are performed under ultrasound guidance, and since one hand holds the ultrasound probe, it is very cumbersome to insert the guide needle and use the biopsy needle with the other hand. motion). Therefore, there is a need for a needle guide device that can easily separate the guide needle and the core needle.

An object of the present invention is to provide a new needle guide device for biopsy that can meet the above requirements.

According to an aspect of the present invention, a needle guide device for biopsy is provided. The biopsy needle guide device according to the present invention includes: a housing having a bore formed in the center, an inlet formed at the front to be connected to the bore, and a slide hole formed at one of the outer surfaces; A core needle coupled to the housing so as to extend toward the front of the housing and having a tip formed to be inserted into the tissue at the tip end; It is accommodated in the bore of the housing through the inlet so that it can be separated, and the bore through which the core needle passes is formed in the center, and the hub has a snap fit at the top, and the passage through which the core needle passes is connected to the bore of the hub. A guide needle assembly having a guide needle formed therein; A slide button having a locking hole through which the snap fit can be locked, and coupled to the slide hole so as to move between the locking position and the unlocking position of the snap-fit; It includes a spring mounted in the bore of the housing so as to impart an elastic force in a direction pushing the hub out of the bore of the housing.

The needle guide device for biopsy according to the present invention is configured such that a snap-fit of the guide needle assembly is locked or unlocked by a slide button operated in a one-touch type. The guide needle and core needle can be easily separated. Therefore, the convenience of use of the operator is improved, and thus there is a useful effect that can greatly increase the efficiency of the biopsy. In particular, since a practitioner can separate the core needle by operating the slide button with the same hand in a one-touch manner while holding the housing with one hand, there is a very useful effect that can improve the speed and accuracy by making the hand movement more free.

1 is a perspective view showing a needle guide device for biopsy according to the present invention.
2 is a perspective view showing a protective tube separated from the needle guide device according to the present invention.
3 is a plan view showing a needle guide device according to the present invention.
4 is a perspective view showing a state in which a housing and a hub of a guide needle assembly are separated by an operation of a slide button in the needle guide device according to the present invention.
5 is a perspective view showing a housing, a guide needle assembly, and a spring separated from the needle guide device according to the present invention.
6 is a perspective view showing a housing, a guide needle assembly, a slide button, and a spring separated from the needle guide device according to the present invention.
7 is a cross-sectional view showing a needle guide device according to the present invention.
8 is a longitudinal sectional view showing a locked state of a slide button in the needle guide device according to the present invention.
9 is a longitudinal cross-sectional view showing an unlocked state of a slide button in the needle guide device according to the present invention.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments associated with the accompanying drawings.

Hereinafter, preferred embodiments of a needle guide device for biopsy according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to FIGS. 1 to 7, the needle guide device 10 for biopsy according to the present invention includes a housing 20. The housing 20 or the body is made of plastic so that the operator can hold and use with one hand. The housing 20 includes a bore 22 formed in the center, an inlet 24 formed in front of the housing 20 to be connected to the bore 22, and a slide hole formed on the upper surface. hole: 26).

The slide hole 26 or the guide hole is formed on the upper surface of the housing 20 along a direction perpendicular to the axial direction. The slide hole 26 is shown and described as being formed on the upper surface of the housing 20, but this is illustrative, and the slide hole 26 is one of the outer surface, for example, the housing 20 adjacent to the bore 22 It may be formed on one side or the bottom of the side. A locator plate 28 is integrally formed with the housing 20 along the axial direction of the housing 20 above the slide hole 26. A boss (30) protrudes from the bottom of the bore (22). A plurality of stoppers 32 are formed on the outer surface adjacent to the front end of the boss 30.

The needle guide device 10 for biopsy according to the present invention includes a core needle 40 coupled to the housing 20 so as to extend long to the front of the housing 20. The elongated core needle 40 or the rear end of the stylet is coupled to the center of the boss 30. A tip 42 is formed at the tip of the core needle 40 so that it can be inserted into the tissue.

The biopsy needle guide device 10 according to the present invention includes a guide needle assembly 50 that is detachably coupled to the housing 20. The guide needle assembly 50 is composed of a hub (Hub: 60) and a guide needle (70). The hub 60 is accommodated to be detachable in the bore 22 of the housing 20 and is made of plastic. The hub 60 includes a bore 62 formed in the center, a sleeve 64 protruding forward to be connected to the bore 62, and a snap fit 66 formed at the top.

The core needle 40 extends in front of the hub 60 through the bore 62 and the sleeve 64 of the hub 60. The snap fit 66 or the snap hook is fitted into the slide hole 26 through the bore 62 of the housing 20. The snap fit 66 is shown and described as being formed on the upper side of the hub 60, but this is an example, and the snap fit 66 is formed on one outer surface of the hub 60, for example, one side or the bottom surface It could be.

The rear end of the guide needle 70 is coupled to the sleeve 64. The guide needle 70 has a passage 72 or a bore through which the core needle 40 is inserted. The tip 42 protrudes from the tip of the guide needle 70. The scale 74 is formed on the outer surface of the guide needle 70 along the longitudinal direction. The operator can know the depth into which the guide needle 70 has entered the tissue through the scale 74. The indicator (80) is further coupled to the outer surface of the guide needle (70) so that it can move along the guide needle (70). The indicator 80 is formed in a sleeve or cylinder shape.

As shown in FIG. 1, the protection tube 82 is fitted on the outer surface of the guide needle 70 to receive and protect the core needle 40 and the guide needle 70. The bore guide needle 70 is fitted in the bore 84 of the protective tube 82 to be detachable. The protective tube 82 is made of a transparent and flexible synthetic resin material.

1 to 9, the needle guide device 10 for biopsy according to the present invention includes a slide button 90 coupled to the slide hole 26 so as to lock the snap fit 66. ). The slide button 90 is made of plastic. The slide button 90 has a substantially plate shape coupled to the slide hole 26 so that it can move between the locking position P1 and the unlocking position P2 of the snap fit 66. shape). The slide button 90 is elastically supported by the locator plate 28 and is constrained in the slide hole 26.

As clearly shown in FIGS. 6, 8 and 9, the slide button 90 includes a locking hole 92, a pair of first snap fits 94a, 94b, and a pair of second It has snap fits 96a and 96b. The locking hole 92 is formed in the center of the slide button 90 so that the snap fit 66 can be locked. The first snap fits 94a and 94b are formed on the upper surface of the slide button 90 so as to be adjacent to both sides of the locking hole 92 and spaced apart from each other. Each of the first snap fits 94a and 94b is caught on both sides of the locator plate 28 and restrains the slide button 90 from being separated from the locking position P1. In some embodiments, each of the first snap fits 94a and 94b is positioned on both sides of the locator plate 28 to constrain the slide button 90 from being separated from the locking position P1. It may also consist of a projection The positioning protrusions allow the slide button 90 to move by elastic deformation.

The second snap fits 96a and 96b are formed on the upper surface of the slide button 90 with an interval from each of the first snap fits 94a and 94b. Each of the second snap fits 96a and 96b is caught on both sides of the locator plate 28 and restrains the slide button 90 from being separated from the unlocking position P2. In some embodiments, any one of the second snap fits 96a and 96b, for example, the second snap fit 96b may be configured as a stopper integrally formed with the slide button 90. . The stopper is hooked on one side of the locator plate 28 and restrains the unlocking position P2 of the slide button 90. The slide button 90 is moved in one direction along the slide hole 26 by a stopper.

The slide button 90 further includes a guide groove 98 formed to connect the locking hole 92 and the tip end. The snap fit 66 is guided toward the locking hole 92 along the guide groove 98 and is locked to the locking hole 92. The slide button 90 includes a first button portion 100 and a second button portion 102. Each of the first and second button portions 100 and 102 is formed on both side surfaces of the slide button 90. When either of the first and second button portions 100 and 102 is pressed, the slide button 90 is operated from the locked position P1 to the unlocked position P2 along the slide hole 26.

4 to 7, the biopsy needle guide device 10 according to the present invention pushes the guide needle assembly 50 out of the bore 22 of the housing 20 when the snap fit 66 is unlocked. Including a spring (110). The spring 110 is composed of a coil spring 112 fitted to the boss 30 so as to impart an elastic force in a direction pushing the hub 60 out of the bore 62. The coil spring 112 is prevented from being separated from the boss 30 by being caught by the stoppers 32. The coil spring 112 may be composed of a coil spring plate, a torsion spring, an elastic body, or the like, capable of imparting an elastic force in a direction pushing the hub 60 out of the bore 62.

Hereinafter, the operation of the needle guide device for biopsy according to the present invention having such a configuration will be described.

5 to 7, when the hub 60 is inserted into the bore 22 of the housing 20 while the core needle 40 is inserted into the passage 72 of the guide needle 70, the hub 60 The rear end of) is fitted into the bore 22 while pushing and compressing the coil spring 112. The snap fit 66 is locked to the locking hole 92 along the guide groove 98 past the tip of the slide button 90 located at the locking position P1 by elastic deformation.

2, 3 and 8, each of the first and second snap fits 94a, 94b, 96a, and 96b is a locator plate 28 when the slide button 90 is inserted into the slide hole 26. It is supported by and elastically deformed to allow entry of the slide button 90. As shown in FIG. 8, each of the first and second snap fits 94a and 94b is restored after the slide button 90 is inserted into the slide hole 26 and is positioned on both sides of the locator plate 28. The locking position P1 of the slide button 90 is restrained so that the slide button 90 is not separated from the slide hole 26 while being caught.

1 and 2, after separating the protective tube 82 from the guide needle 70, the operator follows the guide needle 70 as shown by arrow "A" in FIG. The indicator 80 is moved. The operator can know the depth at which the guide needle 70, that is, the core needle 40, has entered the tissue through the scale 74 indicated by the indicator 80.

2, 3, and 9, when the practitioner pierces the tip 42 of the core needle 40 into the tissue and reaches the tissue sample, any one of the first and second button portions 100 and 102 , For example, by pressing the first button portion 100, the slide button 90 is operated from the locked position P1 to the unlocked position P2 as indicated by the arrow "B". As the slide button 90 is operated from the locking position P1 to the unlocking position P2, the snap fit 66 is released from the locking hole 92 by elastic deformation and is unlocked. As shown in Fig. 9, the second snap fit (96a) is locked to one side of the locator plate (28) and the slide button (90) is unlocked so that the slide button (90) is not separated from the slide hole (26). The position P2 is constrained.

Subsequently, when the snap fit 66 is unlocked, the coil spring 112 is restored by the elastic force as indicated by the arrow “C” in FIG. 4 and the housing 20 is pushed against the hub 60, The hub 60 is separated from the bore 62. When the hub 60 is separated from the bore 62, the operator can easily separate the core needle 40 from the passage 72 of the guide needle 70 by pulling the housing 20 with one hand. After the guide needle 70 and the core needle 40 are separated, the operator may insert the needle of the biopsy apparatus through the passage 72 of the core needle 40 to collect a tissue sample. As described above, since the needle guide device 10 according to the present invention can easily separate the housing 20 in which the guide needle 70 and the core needle 40 are coupled in a one-touch type, It can increase efficiency.

The above-described embodiments are merely describing preferred embodiments of the present invention, and the scope of the present invention is not limited to the described embodiments, and those skilled in the art within the scope of the technical spirit and claims of the present invention Various changes, modifications, or substitutions may be made by this, and such embodiments are to be understood as being within the scope of the present invention.

10: needle guide device 20: housing
22: bore 26: slide hole
28: locator plate 30: boss
40: core needle 50: guide needle assembly
60: hub 66: snap fit
70: guide needle 72: passage
74: scale 80: indicator
90: slide button 92: locking hole
94: first snap fit 96: second snap fit
98: guide groove 110: spring

Claims (6)

A housing having a bore formed in the center, an inlet formed in front to be connected to the bore, and a slide hole formed on one side of an outer surface to be connected to the bore;
A core needle coupled to the housing so as to extend toward the front of the housing, and having a tip formed to be inserted into the tissue at a tip end;
Through the inlet, it is received so as to be separated into the bore of the housing, and the bore through which the core needle passes is formed in the center and a snap fit is formed at the top, and the hub is coupled to the bore of the hub, and the core needle passes A guide needle assembly having a guide needle having a central passage formed therein;
A slide button having a locking hole through which the snap fit can be locked, and coupled to the slide hole so as to move between a locking position and an unlocking position of the snap fit;
A needle guide device for biopsy comprising a spring mounted in the bore of the housing so as to impart an elastic force in a direction pushing the hub out of the bore of the housing. The method of claim 1,
The slide hole is formed in a direction perpendicular to the axial direction on the upper surface of the housing, and is integrally formed with the housing along the axial direction of the housing above the slide hole to support the slide button. Needle guide device for biopsy further comprising a locator plate. The method of claim 2,
The slide button,
A pair of first snap-fits formed at intervals to be adjacent to both sides of the locking hole, and being caught on both sides of the locator plate and constraining the slide button so as not to be separated from the locking position;
Biopsy having a pair of second snap fits formed at intervals from each of the pair of first snap fits and having a pair of second snap fits that are caught on both sides of the locator plate and constrain the slide button from being released from the unlocking position Device for needle guide. The method according to any one of claims 1 to 3,
A needle guide device for biopsy, further comprising a guide groove formed on a lower surface of the slide button to guide the snap fit to the locking hole. The method according to any one of claims 1 to 3,
The spring is made of a coil spring, and a boss to which the coil spring is fitted is further formed in the bore of the housing, and a plurality of stoppers are formed to restrain the coil spring on an outer surface adjacent to the tip of the boss. A needle guide device for biopsy further comprising a. The method according to any one of claims 1 to 3,
A scale formed on the outer surface of the guide needle in the longitudinal direction, an indicator coupled to the outer surface of the guide needle so as to move along the outer surface of the guide needle, and the core needle and the guide needle are accommodated and protected. A needle guide device for biopsy further comprising a protective tube that is fitted to be detached from the outer surface of the guide needle so that it can be separated.

Images