KR101541855B1 - Biopsy needle - Google Patents

Abstract

The present disclosure relates to a biopsy needle for transmitting a living body and collecting a tissue, comprising: a sheath; And an inner stylet penetrating through the sheath, wherein a space for storing tissue is formed at the distal end of the inner stylet.

Description

Biopsy needle {BIOPSY NEEDLE}

Disclosure relates generally to needle-like devices used for tissue biopsy, and more particularly to coaxial needles used for tissue biopsy and end structures of core biopsy needles used for tissue biopsy.

Typically, when a nodule or mass in a human body is suspected of being a cancer, the disease is confirmed through tissue sampling called a tissue biopsy and pathological examination of the collected tissue. The histological biopsy can be divided into two types: a method of collecting the tissue through surgery and a minimally invasive method using the latest image guiding equipment. Since the surgical biopsy has a large incision site, In recent years, a biopsy method based on a minimally invasive method has become popular because of its long, painful, complicated, and even more risky of death. An image - guided biopsy can be divided into two types: an aspiration biopsy to obtain cells only and a core biopsy to obtain more tissue.

Prior art relating to aspiration biopsy includes a number of patents including U.S. Patent Nos. 3,938,505, 4,314,565, 5,199,441, 5,469,860, 6,872,185, and the like. Prior art relating to core biopsy includes a number of patents including U.S. Patent Nos. 3,477,423, 4,600,014, 5,161,542, 5,236,334, 7,914,463. Aspiration biopsy can be performed when there is a pathologist at the biopsy site, when the likelihood of cancer is very high, if no immunologic or genetic testing is required, if the tumor is accompanied by extensive necrosis, In the case of using a core biopsy, it is necessary to diagnose cancer biopsy more precisely, to obtain genetic information of cancer, to have a benign tumor, or to diagnose a pathologist. . The biopsy needle for biopsy has a core biopsy needle and an aspiration biopsy needle, depending on the biopsy method.

Figure 1 shows an example of a core biopsy needle structure. One example of the core biopsy needle structure described in FIG. 1 is described in U.S. Patent No. 5,236,334, but the terminology and designations have been changed for convenience of explanation. The core biopsy needle consists of an inner stylet (10) and a sheath (20). The inner stylet 10 is composed of a hub 11, a body 12, a notch 13 and a distal end 14. The notch 13 is located between the distal end 14 and the body 12 and is a space in which the cut tissue is stored. The distal end (14) has a pointed shape for the function of passing through the living body. The sheath 20 is composed of a hub 21 and a cannula 22.

Figure 2 shows an example of a method of using a core biopsy needle. One example of a method of using the core biopsy needle described in FIG. 2 is described in U.S. Patent No. 5,161,542, but the terms and symbols have been changed for convenience of explanation. First, insert the inner stylet and sheath into the tissue (30) where harvesting is required (see 40). The notch 13 is then inserted into the tissue 30 using the distal end 14 of the inner stylet (see 41). The cannula 22 of the sheath is then inserted into the tissue 30 (see 42) to cut the tissue entering the notch 13. Thereafter, the core biopsy needle is pulled out from the living body with the cut tissue in the notch 13, and the tissue contained in the notch 13 is used for the examination.

Figure 3 shows an example of a needle biopsy needle structure. An example of the aspiration biopsy needle structure described in Fig. 3 is commonly used and is known as a Chiba needle. The chiba needles are composed of a sheath 50 and an inner stylet 60. The sheath 50 is constituted by a hub 51 and a cannula 52. The inner stylet 60 is constituted by a hub 61, a body 62 and a distal end 63. The major difference from the inner stylet 10 in the core biopsy needle is that it does not have a notch 13, which is a space for collecting the tissue and storing it.

Figure 4 shows an example of a method of using an aspiration biopsy needle. First, the inner stylet 60 and the sheath 50 are joined (refer to 81), and then inserted into the tissue 30 to be harvested (see 82). Thereafter, the inner stylet 60 is separated from the sheath 50 (see 82). The syringe 70 is then coupled to the hub 51 of the sheath 50 (see 83). Thereafter, a portion of the tissue 30 is collected using the suction force of the syringe. Various methods other than the injector 70 can be used as a method of using the suction force. A vacuum machine may also be used. Since the inner diameter of the sheath 50 is smaller in order to improve the suction force, the outer diameter of the sheath 50 of the suction biopsy needle is generally smaller than the outer diameter of the core 20 of the core biopsy needle.

FIG. 5 shows a coaxial needle that can be utilized when performing a core biopsy. The coaxial needle is composed of a sheath 90 and an inner stylet 100. The sheath 90 is composed of a cannula 91 and a hub 92. The inner stylet 100 is composed of a body 110, a hub 120, and a distal end 130. The distal end 130 has a pointed shape to pass through the tissue. The coaxial needle 200 is inserted into the living body through the sheath 90 and the inner stylet 100 to be inserted into the vicinity of the tissue requiring harvesting, and then the inner stylet 100 is pulled out and the inner stylet 100 The core biopsy needle is inserted and used. For the sake of clarity, it is preferable that the inner stylet 100 protrudes much from the sheath 90 in the combined shape 200, but the protrusion is less. When the core biopsy is required several times for the same tissue, the co-axial needle is pulled out of the living body while the co-axial needle is inserted into the living body, and the sheath 90 is used as a passage for inserting the core biopsy needle into the living body . This eliminates the need to insert the core biopsy needle every time in the patient. The coaxial needle can also be used as a passageway when inserting an aspiration biopsy needle into a living body.

The core biopsy and aspiration biopsy are usually performed by any one means when biopsy is performed, as described above. However, there is a case where a core biopsy and an aspiration biopsy are simultaneously required for the same tissue. In this case, conventional biopsy and aspiration biopsy were performed separately, or by inserting an aspiration biopsy needle into a passageway made of coaxial needle used for core biopsy. In the latter case, however, the size of the outer diameter of the sheath (50) of the aspiration biopsy needle is smaller than the outer diameter of the core (20) of the core biopsy needle There is a risk that a gap is formed between the inner surface of the cannula 91 of the coaxial needle and the outer surface of the cannula 52 of the aspiration biopsy needle so that the air may flow thereinto.

Figure 8 shows the problems that can occur when performing a core biopsy. 8 is described in U.S. Patent No. 4,708,147, but the terms and symbols have been changed for convenience of explanation. In the case of a core biopsy, there is a gap between the distal end 14 of the inner stylet 10 and the notch 13 for storing the cut tissue so that the cut tissue can be stored in the notch 13 14 may deviate from the tissue 30. In this case, there is a risk that the distal end 14 may damage the blood vessel 90 or the organ passing through the tissue. In particular, recently, the size of tissues that need to be harvested tends to become smaller, and the risk is increasing. Therefore, there is a demand for improving the shape of the end portion of the inner stylet of the core biopsy needle which can solve this problem.

This will be described later in the Specification for Enforcement of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

According to one aspect of the present disclosure, in a coaxial needle, a sheath; Inner sheath; And an inner stylet. The coaxial needle according to any one of claims 1 to 3,

According to another aspect of the present disclosure, there is provided a core biopsy needle for penetrating a living body and collecting a tissue, And a space is formed in the distal end portion of the inner stylet so as to store tissue.

This will be described later in the Specification for Enforcement of the Invention.

1 is a view showing an example of a core biopsy needle structure,
2 is a view showing an example of a method of using a core biopsy needle,
3 is a view showing an example of a suction biopsy needle structure,
4 is a view showing an example of a method of using a suction biopsy needle,
5 is a view showing a coaxial needle used in the case of performing a core biopsy,
6 is a view showing an example of a coaxial needle according to the present disclosure,
7 is a view showing an example of using a coaxial needle according to the present disclosure,
8 is a view showing a problem that may occur when performing a core biopsy,
Figure 9 is a side view of an example of a core biopsy needle according to the present disclosure,
10 is an oblique view of an example of a core biopsy needle according to the present disclosure,
11 is a plan view of an example of a core biopsy needle according to the present disclosure,
12 is a view showing an example of using a core biopsy needle according to the present disclosure,
13 is a side view of a tissue storage space of a core biopsy needle according to the present disclosure;

The present disclosure will now be described in detail with reference to the accompanying drawings.

6 is a view showing an example of a coaxial needle according to the present disclosure; The coaxial needle according to the present disclosure comprises an inner sheath 200, a sheath 300, and an inner stylet 400. There is an innermost stent 400 which has a sheath 300 at its outermost side and penetrates the interior of the sheath 300 and an inner stall 400 which penetrates the interior of the inner sheath 200. The inner sheath 200 and the sheath 300 are constituted by the cannulas 210 and 310 and the hubs 220 and 320. The inner stylet 400 includes a body 410, a hub 420, and a distal end 430. The distal portion 430 has a pointed shape to pass through the living body. Since the inner diameter of the cannula 210 of the inner sheath 200 is used as a biopsy passage of the aspirated biopsy needle, it is preferable that the size of the outer diameter of the aspiration biopsy needle is dependent on the size. To this end, the outer surface of the cannula 52 of the aspiration biopsy needle preferably contacts the inner surface of the cannula 210 of the inner sheath 200. Thus, it is possible to prevent air from being introduced into the living body when the suction biopsy needle is inserted into the inner sheath 200. Since the inner diameter of the cannula 310 of the sheath 300 is used as a biopsy passage of the core biopsy needle, it is preferable that the inner diameter of the cannula 310 is dependent on the outer diameter of the core biopsy needle. The ends of the body portions 210 and 310 of the sheath 300 and the inner sheath 200 opposite to the hubs 220 and 320 of the inner stylet 400 penetrate through the body, It does not have to be a pointed shape. However, it is preferable to have a pointed shape in order to aid in penetrating the living body.

Figure 7 shows the progression of a core biopsy and an aspiration biopsy for the same tissue according to this disclosure. First, the co-axial needle is inserted to the vicinity of the tissue 30 that needs to be harvested (see 500). Thereafter, the inner stylet 400 of the coaxial needle is pulled out (see 510). Thereafter, an aspiration biopsy needle is inserted into the site where the inner stethoscope 400 is missing (see 520). Fig. 7 shows the sheath 50 of the suction biopsy needle described in Fig. A method of performing an aspiration biopsy using an aspiration biopsy needle is as described in Fig. Thereafter, the aspiration biopsy needle and the inner sheath 200 are removed, and the core biopsy needle is inserted into the site where the inner sheath 200 is missing (see 530). Fig. 7 shows the sheath 20 and the inner stylet 10 of the core biopsy needle described in Fig. The core biopsy method is the same as that described in Fig.

FIGS. 9, 10, and 11 illustrate side, plan, and oblique views of an example of an inner stylet for use with a core biopsy needle according to the present disclosure. The inner stylet 100 according to the present disclosure has a distal end 110, a notch 120, and a body 130 as conventionally used. However, the distal end portion 110 is provided with a space 140 for storing the cut tissue. It is also contemplated that when viewing the inner stylet from a side view (FIG. 9) to prevent the cut tissue in the tissue storage space 140 of the notch 120 or the distal end 110 from entering the living body again, 111 are preferably located above the center line 141. The center line 141 is a line passing through the upper line 140 passing through the upper surface of the body 130 and the middle line of the lower line 142 passing through the bottom surface when the inner stylet 100 is viewed from the side (FIG. 9). More preferably, the end point 111 of the distal end 110 is aligned with the upper line 140 so that the open mouth of the sheath can be closed when the inner stylet 100 enters the sheath. The shape of the distal end portion 110 when the inner stylet 100 is viewed in a plane (FIG. 11) is preferably a streamlined shape so that the distal end 110 of the inner stylet 100 easily passes through the resistance of the tissue Do.

12 is a view showing an example of using a core biopsy needle according to the present disclosure. When the size of the tissue 30 requiring a biopsy is small, only the distal end 110 is inserted into the tissue, the tissue in the space 140 formed at the distal end is cut by moving the sheath 300, The organization can be secured.

Figure 13 is a diagram showing lateral reinforcement of a notch of a core biopsy needle according to the present disclosure. In FIG. 9, the side is open to allow more tissue to enter the notch 120. However, in this case, when the supporting portion of the portion connecting the distal end portion 110 and the body 130 is weak and the tissue is rigid, the connecting portion may be bent and the direction in which the distal end portion 110 advances may be distorted. To solve this problem, a side wall 400 with a hole in the side surface may be formed so that the tissue can easily enter the notch 120. The tissue can enter into the notch 120 through a hole in the side wall 400.

Various embodiments of the present disclosure will be described below.

(1) In a coaxial needle, sheath; Inner sheath through the sheath; And an inner stylet passing through the inner sheath.

(2) The coaxial needle according to (1), wherein the inner stylet has a pointed end.

(3) The coaxial needle as claimed in claim 1, wherein the inner surface of the cannula of the inner sheath contacts the outer surface of the cannula of the suction biopsy needle.

(4) A method of using a coaxial needle, wherein an inner stylet is removed from a coaxial needle according to the present disclosure, and then an aspiration biopsy needle is inserted into the inner sheath.

(5) A core biopsy needle inserted into a living body for collecting tissue, wherein the cis; And an inner stylet penetrating through the sheath, wherein a space capable of storing tissue at the distal end of the inner stylet is formed.

(6) A core biopsy needle characterized in that the end point of the distal end is located between the center line and the upper line when the inner stylet is viewed from the side.

(7) A core biopsy needle characterized in that the end point of the distal end coincides with the upper end when the inner stylet is viewed from the side.

(8) A core biopsy needle characterized in that the distal end portion has a streamlined shape when the inner stylet is viewed in a plane.

(9) A core biopsy needle having a side wall surrounding the notch of the inner stylet.

(10) A core biopsy needle characterized in that the side wall has a hole into which tissue can enter.

According to the biopsy needle according to the present disclosure, it is possible to provide a new type of coaxial needle used for tissue biopsy.

When using the core biopsy needle according to the present disclosure, the distal end of the inner stylet also serves as a tissue retaining notch, thus reducing the risk of the distal end deviating from the tissue and damaging the vessel or organ for tissue collection at the notch.

30: tissue 200: inner system 300: sheath 400: inner stylet
110: distal end of inner stylet 140: cut tissue storage space formed at the inner stylet distal end

Claims (6)

A core biopsy needle inserted into a living body for collecting tissue,
Cis; And
An inner stylet piercing through the sheath;
Wherein an upper space is formed in the distal end of the inner stylet so as to store a tissue cut out therefrom. The method according to claim 1,
Wherein an end point of the distal end is located between a center line and an upper line when the inner stylet is viewed from the side. The method according to claim 1,
Characterized in that the end point of the distal end coincides with the upper line when the inner stylet is viewed from the side. The method according to claim 1,
Wherein the inner stylet has a streamlined end when viewed in plan. The method according to claim 1,
And a side wall surrounding the notch of the inner stylet. The method of claim 5,
Wherein the side wall has a hole into which the tissue can be inserted.

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