JP2004147984A - Adapter for ultrasonic probe for puncture, puncturing adapter for ultrasonic probe for diagnosis, ultrasonic probe for puncture, and ultrasonic probe for diagnosis - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an adapter for an ultrasonic probe for a puncture, a puncturing adapter for an ultrasonic probe for a diagnosis, the ultrasonic probe for the puncture, and the ultrasonic probe for the diagnosis, with which an operator can puncture a puncturing needle in an exact position. <P>SOLUTION: The puncturing adapter 1 for the ultrasonic probe has a plane part 1f and a plane part 1g both of which contact the surface of a living body together with a probe surface 10a the an ultrasonic probe 10. Therefore, the contact area to the living body increases, which can increase the stability of the ultrasonic probe 10 to the living body. A hole 1d which penetrates the plane part 1g is provided. Puncturing a puncturing needle N from the hole 1d makes it possible to keep a wide puncturing angle to the surface of the living body and makes the puncturing needle N puncture without deforming the surface of the living body. Therefore, the puncturing needle N does not warp or slip on the surface of the living body, and the operator can puncture the puncturing needle N in the exact position. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a puncture ultrasonic probe adapter, a diagnostic ultrasonic probe puncture adapter, a puncture ultrasonic probe to which these are detachably attached, and a diagnostic ultrasonic probe.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a puncture operation has been performed in which a puncture needle such as an injection needle is inserted into a living body to collect a tissue such as a tumor or to locally administer a drug. Such a puncture is generally performed by an ultrasonic diagnostic apparatus in order to avoid damage to blood vessels and the like which may cause major bleeding, or to puncture a target tissue such as a tumor. This is performed with reference to the created cross-sectional image.
[0003]
When puncturing is performed under a guide by an ultrasonic diagnostic apparatus in this manner, a probe surface that is a living body contact surface (an ultrasonic irradiation surface and an ultrasonic detection surface is also used) using an ultrasonic probe for puncturing. A method of inserting a puncture needle into a living body through a guide hole provided in a central portion of the puncture needle, and attaching a puncture adapter to an ultrasonic probe for diagnosis, and attaching a puncture needle supported by the puncture adapter. There is a method of piercing the living body from near the end of the probe surface which is the living body contact surface.
[0004]
By the way, since the puncture ultrasonic probe can insert the puncture needle into the living body from the center part of the probe surface, that is, the center part of the upper side in the cross-sectional image, the target tumor or the like is positioned in the center part of the cross-sectional image. When the puncture needle is positioned, the insertion angle of the puncture needle with respect to the surface of the living body can be increased, and the probe surface of the puncture ultrasonic probe has a large area, so that the stability to the living body is high. There are advantages. However, on the other hand, since data cannot be collected in a portion located immediately below the guide hole provided in the center portion of the probe surface, a missing portion of the image is generated near the center of the upper side of the cross-sectional image, and ultrasound other than puncturing is performed. There is a disadvantage that it is not suitable for inspection. Therefore, it is necessary to prepare an ultrasonic probe for diagnosis in order to perform a general ultrasonic inspection, which is uneconomical.
[0005]
Therefore, for such a reason, puncturing is often performed by attaching a puncturing adapter to a diagnostic ultrasonic probe in many cases (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP-A-11-216137
(Paragraphs [0025]-[0026], Fig. 5)
[0007]
[Problems to be solved by the invention]
FIG. 14 shows a form in which the puncture adapter is attached to an ultrasonic probe for diagnosis (hereinafter, referred to as an ultrasonic probe for simplicity). The ultrasonic probe for puncture and the ultrasonic probe for diagnosis are each classified into a convex type having a curved probe surface and a linear type having a planar probe surface. In the figure, a convex type is taken as an example.
[0008]
As shown in the figure, the puncture adapter 100 is detachably fixed to the side surface 13 b of the ultrasonic probe 13, and defines the position of the puncture needle N on the scan axis of the ultrasonic probe 13, The puncture needle N is configured to be always displayed on a cross-sectional image created by the ultrasonic diagnostic apparatus. The puncture adapter 100 is fixed at a position that does not come into contact with the surface of the living body P.
[0009]
In such a configuration, the puncture needle N is guided by the hole 100 a provided in the puncture adapter 100 and is inserted into the living body P from near the end of the probe surface 13 a of the ultrasonic probe 13.
[0010]
By the way, when performing such a puncture, it is necessary to press the probe surface 13a not less than a little against the surface of the living body P in order to stabilize the ultrasonic probe 13 against the living body P. Therefore, the surface of the living body P is deformed by the pressing force of the probe surface 13a. However, when the surface of the living body P is deformed as described above, when the puncture needle N is inserted from the end of the probe surface 13a of the ultrasonic probe 13 as shown in FIG. Since the insertion angle with respect to the surface of the living body P becomes small, there arises a problem that the puncture needle N warps or slides with the surface of the living body P, and cannot be inserted into an accurate position.
[0011]
Further, when the ultrasonic probe 13 to which the puncture adapter 100 is attached has a small probe surface area such as a high-frequency probe or a sector probe, it becomes difficult to stabilize the ultrasonic probe 13 with respect to the living body P. There is a problem that the puncture needle N cannot be inserted at an accurate position. Further, when the puncture needle N is inserted into a movable tumor or the like located directly below the surface of the living body P, the area of the probe surface 13a of the ultrasonic probe 13 is small. Is pressed against the surface of the living body P, the tumor easily shifts from the front position of the probe surface 13a, and there is a problem that the puncture needle N cannot be inserted accurately.
[0012]
The present invention has been made in view of the above problems, and an object thereof is to maintain a large insertion angle of a puncture needle with respect to a living body, and also to improve the stability of the ultrasonic probe with respect to the living body. In addition, the surgeon inserts the puncture needle into the correct position by preventing the tumor etc. from shifting from the front position of the probe surface when the ultrasonic probe is pressed against the surface of the living body when the ultrasonic probe is pressed. It is an object of the present invention to provide a puncture ultrasonic probe adapter, a diagnostic ultrasonic probe puncture adapter, a puncture ultrasonic probe, and a diagnostic ultrasonic probe that enable the user to perform the operation.
[0013]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, an adapter for a medical ultrasonic probe according to the invention according to claim 1 is provided with an opening surface for contacting a living body and irradiating a living body with ultrasonic waves for scanning. A medical ultrasound probe adapter used for a medical ultrasound probe including a side portion formed so as to stand up from the periphery of the medical device, and an attaching / detaching means configured to be attachable / detachable to / from the side portion; Opening surface expanding means having a surface extending in the same direction as the opening surface when attached to the ultrasonic probe.
[0014]
The medical ultrasonic probe adapter according to the second aspect of the present invention is the medical ultrasonic probe adapter according to the first aspect, wherein the attaching / detaching means and the opening surface expanding means are provided integrally. It is characterized by.
[0015]
A medical ultrasonic probe adapter according to a third aspect of the present invention is the medical ultrasonic probe adapter according to the first or second aspect, wherein the opening plane extending means is configured to scan the ultrasonic wave. Direction, a direction orthogonal to the ultrasonic scanning direction, or a combination thereof.
[0016]
In order to solve the above problems, a puncture adapter for a medical ultrasonic probe according to the invention according to claim 4 is provided with an opening surface for contacting a living body and irradiating the living body with ultrasonic waves for scanning. A side portion formed so as to rise from the periphery of the surface, and a puncture adapter for a medical ultrasonic probe used for a medical ultrasonic probe including: detachable means configured to be detachable from the side portion, When attached to the medical ultrasound probe, a defining means for defining a puncture needle on a scanning line of the ultrasound, and an opening surface extending means having a surface extending in the same direction as the opening surface, Features.
[0017]
A puncture adapter for a medical ultrasonic probe according to a fifth aspect of the present invention is the puncture adapter for a medical ultrasonic probe according to the fourth aspect, wherein the attachment / detachment unit, the defining unit, and the opening surface expanding unit are provided. It is characterized by being provided integrally.
[0018]
A puncture adapter for a medical ultrasonic probe according to a sixth aspect of the present invention is the puncture adapter for a medical ultrasonic probe according to the fourth or fifth aspect, wherein the opening surface expanding means includes the ultrasonic , A direction orthogonal to the ultrasonic scanning direction, or a combination thereof.
[0019]
A puncture adapter for a medical ultrasonic probe according to a seventh aspect of the present invention is the puncture adapter for a medical ultrasonic probe according to the fourth or fifth aspect, wherein the defining unit is configured to scan the ultrasonic wave. A hole that penetrates a surface extending in the same direction as the opening surface of the opening surface extending means provided in a direction, and configured to allow a puncture needle to be inserted therein.
[0020]
A puncture adapter for a medical ultrasonic probe according to an eighth aspect of the present invention is the puncture adapter for a medical ultrasonic probe according to the fourth or fifth aspect, wherein the defining means is configured to scan the ultrasonic wave. A groove that penetrates a surface extending in the same direction as the opening surface of the opening surface extending means provided in a direction and configured to allow insertion of a puncture needle.
[0021]
A puncture adapter for a medical ultrasonic probe according to a ninth aspect of the present invention is the puncture adapter for a medical ultrasonic probe according to the seventh aspect, wherein the plurality of holes are provided at predetermined angles. It is characterized by.
[0022]
A puncture adapter for a medical ultrasonic probe according to a tenth aspect of the present invention is the puncture adapter for a medical ultrasonic probe according to the eighth aspect, wherein a plurality of the grooves are provided at predetermined angles. It is characterized by.
[0023]
Further, a medical ultrasonic probe according to an eleventh aspect of the present invention is provided with the medical ultrasonic probe adapter according to any one of the first to third aspects.
[0024]
A medical ultrasonic probe according to a twelfth aspect of the present invention is characterized in that the medical ultrasonic probe adapter according to any one of the fourth to tenth aspects is attached.
[0025]
In order to solve the above problem, a puncture adapter for a medical ultrasonic probe according to the invention according to claim 13, wherein an opening surface for contacting a living body and irradiating the living body with ultrasonic waves to scan the living body, And a side portion formed so as to rise from the periphery of the surface, a medical ultrasonic probe adapter used for a medical ultrasonic probe including, having a cylindrical shape, the opening surface of the medical ultrasonic probe. An insertion hole to be inserted, while being in contact with the side surface portion, and an inner surface portion of the insertion port having an engaging portion detachably engaged with the side surface portion, when attached to the medical ultrasonic probe, A detachable member having a first end surface portion extending in the same direction as the opening surface in a direction orthogonal to the ultrasonic scanning direction, and a detachable member having the detachable member when attached to the medical ultrasonic probe. Super A second end surface portion provided in the wave scanning direction and extending in the same direction as the opening surface; and a puncture needle inserted through the second end surface portion to define the puncture needle on the ultrasonic scanning line. And a defining member having a hole configured so as to be capable of being provided.
[0026]
In order to solve the above problem, a puncture adapter for a medical ultrasonic probe according to the invention of claim 14 is configured to contact an organism and irradiate the interior of the organism with ultrasonic waves for scanning. A medical ultrasound probe adapter used for a medical ultrasound probe including a side portion formed so as to stand up from the periphery of the surface, forming a cylindrical shape, and inserting an opening surface of the medical ultrasound probe. An insertion hole to be abutted against the side surface portion, and an inner surface portion of the insertion port having an engaging portion detachably engaged with the side surface portion, and when attached to the medical ultrasonic probe, A detachable member having a first end surface portion extending in the same direction as the opening surface in a direction orthogonal to the ultrasonic scanning direction, and when attached to the medical ultrasonic probe, the detachable member has sound Provided in the scanning direction, wherein defining a puncture needle to the ultrasonic scanning line, characterized by comprising a defining member, a having a hole portion that is insertable configured puncture needle.
[0027]
In order to solve the above-mentioned problems, a puncture adapter for a medical ultrasonic probe according to the invention according to claim 15 is configured to contact an organism and irradiate the interior of the organism with ultrasonic waves for scanning. A medical ultrasound probe adapter used for a medical ultrasound probe including a side portion formed so as to stand up from the periphery of the surface, forming a cylindrical shape, and inserting an opening surface of the medical ultrasound probe. A detachable member having an insertion hole to be inserted, an inner surface portion of the insertion port having an engaging portion that is detachably engaged with the side surface portion while being in contact with the side surface portion, and attached to the medical ultrasonic probe. A second end face portion provided in the ultrasonic scanning direction of the attaching / detaching member and extending in the same direction as the opening surface, and penetrating the second end face portion, and moving the puncture needle with the ultrasonic wave. Specified on the scan line That, characterized by comprising a hole portion that is insertable configured puncture needle, a defining member having, a.
[0028]
In order to solve the above-mentioned problem, a medical ultrasonic probe according to a sixteenth aspect of the present invention is provided with the medical ultrasonic probe puncture adapter according to any one of the thirteenth to fifteenth aspects. And
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, various embodiments of the puncture ultrasonic probe adapter, the diagnostic ultrasonic probe puncture adapter, the puncture ultrasonic probe, and the diagnostic ultrasonic probe according to the present invention will be specifically described with reference to the drawings. explain. In describing these various embodiments, the terms “for puncture” and “for diagnosis” are omitted for simplicity. The same components are denoted by the same reference numerals in each drawing.
[0030]
[First Embodiment]
FIG. 1 is a perspective view illustrating an entire configuration of a puncture adapter for an ultrasonic probe according to the present embodiment. FIG. 3 shows a state in which the ultrasonic probe puncture adapter is attached to the ultrasonic probe.
[0031]
As shown in FIG. 1, the ultrasonic probe puncture adapter 1 includes a detachable portion 1 a having a cylindrical shape for detachably attaching the ultrasonic probe puncture adapter 1 to an ultrasonic probe 10, and a puncture needle N. Is defined on the scanning line of the ultrasonic wave by the ultrasonic probe 10. Further, the attaching / detaching portion 1a has an opening 1c for inserting the probe surface 10a of the ultrasonic probe 10, and a probe surface of the ultrasonic probe 10 when the probe surface 10a of the ultrasonic probe 10 is inserted into the opening 1c. 10a, a flat portion 1f extending in the same direction (however, a direction orthogonal to the scanning direction of the ultrasonic wave by the ultrasonic probe 10), and the defining member 1h has an ultrasonic wave in the opening 1c. When the probe surface 10a of the probe 10 is inserted, the flat portion 1g substantially coincides with the probe surface 10a of the ultrasonic probe 10 and has a spread in the same direction (however, an ultrasonic scanning direction). 1g penetrating through 1 g and defining the puncture needle N on the scanning line of the ultrasonic wave by the ultrasonic probe 10, and having a hole portion 1d configured to allow insertion of the puncture needle N. The puncture adapter 1 for an ultrasonic probe is obtained, for example, by molding a resin material, and the above-mentioned parts are integrally formed. Thus, when the ultrasonic probe puncture adapter 1 is attached to the ultrasonic probe 10, the positioning of each part is automatically performed (the details will be described later). The arrow A shown in FIG. 2 indicates the scanning direction of the ultrasonic waves emitted from the probe surface 10a of the ultrasonic probe 10, that is, the scanning direction.
[0032]
In such a configuration, when the probe surface 10a of the ultrasonic probe 10 is inserted into the opening 1c, the inner surface of the attaching / detaching portion 1a comes into contact with the side surface 10b of the ultrasonic probe 10, and the ultrasonic probe 10 The puncture adapter 1 is detachably fixed to the ultrasonic probe 10.
[0033]
More specifically, as shown in FIG. 2, for example, a concave portion 10ba is provided on a side surface portion 10b of the ultrasonic probe 10, while an inner surface portion 1aa of the attaching / detaching portion 1a of the ultrasonic probe puncture adapter 1 has: A convex portion 1ab that engages with the concave portion 10c is provided, and when the probe surface 10a of the ultrasonic probe 10 is inserted into the opening portion 1c, the concave portion 10ba and the convex portion 1ab are engaged with each other. The ultrasonic probe puncture adapter 1 is detachably fixed to the ultrasonic probe 10, and the probe surface 10a of the ultrasonic probe 10 and the plane portions 1f and 1g of the ultrasonic probe puncture adapter 1 substantially match. It is supposed to.
[0034]
As described above, in the present embodiment, by attaching the puncture adapter 1 for the ultrasonic probe to the ultrasonic probe 10, the flat portion 1f and the flat portion 1g of the puncture adapter 1 for the ultrasonic probe, and the ultrasonic probe 10 The probe surface 10a substantially coincides with the surface of the living body, and both of them come into contact with the surface of the living body. Therefore, the contact area with the living body is increased, and the stability of the ultrasonic probe 10 with respect to the living body can be improved. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0035]
Further, since the entire area of the contact surface with the living body is increased by the flat portion 1f and the flat portion 1g of the puncture adapter 1 for the ultrasonic probe, the puncture needle N is inserted into a movable tumor or the like directly below the surface of the living body. Even when the ultrasonic probe 10 is pressed, the local pressing force on the surface of the living body is reduced, and even when the ultrasonic probe 10 is pressed against the surface of the living body, the tumor is displaced from the front position of the probe surface 10a of the ultrasonic probe 10. Can be prevented. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0036]
Further, since the puncture needle N can be inserted through the hole 1d penetrating the flat portion 1g of the puncture adapter 1 for the ultrasonic probe, the puncture needle N can be inserted even when the ultrasonic probe 10 is pressed against the body surface. Is inserted into the surface of the living body, that is, the periphery of the hole 1d is not deformed by being pressed by the flat portion 1g, and the puncture needle N is inserted while maintaining a large insertion angle with respect to the surface of the living body. Can be pierced. Therefore, the surgeon can insert the puncture needle N at an accurate position without warping or sliding between the puncture needle N and the living body surface.
[0037]
The puncture adapter 1 for an ultrasonic probe has a plane substantially coincident with the probe surface 10a of the ultrasonic probe 10 in both the direction orthogonal to the ultrasonic scanning direction of the ultrasonic probe 10 and the ultrasonic scanning direction. Since it has the portion 1f and the flat portion 1g, especially when attached to an ultrasonic probe having a small probe surface area such as a high-frequency probe or a sector probe, the contact area with the living body is significantly increased. In addition, the stability of the ultrasonic probe to the living body can be significantly improved.
[0038]
In the present embodiment, only one hole 1d is provided. However, as shown in FIGS. 3 (a) and 3 (b), for example, a plurality of holes 1d having different inclination angles are provided. Individuals may be provided. Also, instead of the hole 1d, a groove 1e may be provided, for example, as shown in FIGS. 4 (a) and 4 (b). Also in such a case, a plurality of grooves 1e may be provided in which the inclination angle is changed for each predetermined angle. However, these grooves 1e have a depth that reaches the position on the scan axis of the ultrasonic probe 10, as shown in FIG.
[0039]
Further, in the present embodiment, the ultrasonic probe 10 has been described by taking as an example a linear type in which the probe surface 10a has a planar shape, but the ultrasonic probe is a convex type in which the probe surface has a curved shape. It may be.
[0040]
For example, as shown in FIG. 5, when the ultrasonic probe 11 is of a convex type in which the probe surface 11a has a curved shape, the ultrasonic probe puncture adapter 2 has an ultrasonic wave in the opening 2c. When the probe surface 11a of the probe 11 is inserted, the probe surface 10a of the ultrasonic probe 10 substantially coincides with the same direction (the direction orthogonal to the ultrasonic scanning direction by the ultrasonic probe 10, and the ultrasonic scanning). The curved surface portion 2f and the curved surface portion 2g having a spread in the direction (direction) are provided. The ultrasonic probe puncture adapter 2 is obtained, for example, by molding a resin material, and each part is integrally formed. Incidentally, the arrow A shown in the figure represents the scanning direction (scanning direction) of the ultrasonic waves emitted from the probe surface 11a of the ultrasonic probe 11.
[0041]
In such a configuration, when the probe surface 11a of the ultrasonic probe 11 is inserted into the opening 2c, the inner surface of the attaching / detaching portion 2a comes into contact with the side surface 11b of the ultrasonic probe 11, and the ultrasonic probe 11 The puncture adapter 2 is detachably fixed to the ultrasonic probe 11.
[0042]
More specifically, for example, as shown in FIG. 6, a concave portion 11ba is provided in the side surface portion 11b of the ultrasonic probe 11, while the inner surface portion 2aa of the attaching / detaching portion 2a of the puncture adapter 2 for the ultrasonic probe has A convex portion 2ab that engages with the concave portion 11ba is provided, and when the probe surface 11a of the ultrasonic probe 11 is inserted into the opening 2c, the concave portion 11ba and the convex portion 2ab are engaged, thereby The ultrasonic probe puncture adapter 2 is detachably fixed to the ultrasonic probe 11, and the probe surface 11a of the ultrasonic probe 11 and the plane portions 2f and 2g of the ultrasonic probe puncture adapter 2 substantially coincide with each other. It is supposed to.
[0043]
The ultrasonic probe puncture adapter 1 and the ultrasonic probe puncture adapter 2 according to the present embodiment are according to claims 4 to 10 of the present invention, and include a flat portion 1f, a flat portion 1g, and a curved portion. 2f and the curved surface portion 2g correspond to the "opening surface expanding means" of the present invention. In addition, the attaching / detaching portion 1a and the attaching / detaching portion 2a correspond to "attaching / detaching means" of the present invention. The hole 1d and the hole 2d correspond to the "defining means" of the present invention.
[0044]
Further, the ultrasonic probe 10 and the ultrasonic probe 11 in this embodiment are according to claim 12 of the present invention, and the probe surface 10a and the probe surface 11a correspond to the “opening surface” of the present invention.
[0045]
The ultrasonic probe puncture adapter 1 and the ultrasonic probe puncture adapter 2 according to the present embodiment are according to claim 13 of the present invention, and the detachable unit 1a and the detachable unit 2a Member ". The opening 1c and the opening 2c correspond to the “insertion hole” of the present invention. In addition, the protrusion 1ab and the protrusion 2ab correspond to the “engaging portion” of the present invention. Further, the flat portion 1f and the curved surface portion 2f correspond to the “first end face portion” of the present invention. Further, the flat portion 1g and the curved surface portion 2g correspond to the "second end surface portion" of the present invention.
[0046]
Further, the ultrasonic probe 10 and the ultrasonic probe 11 in the present embodiment correspond to claim 16 of the present invention.
[0047]
[Second embodiment]
FIG. 7 is a perspective view illustrating the entire configuration of the puncture adapter for an ultrasonic probe according to the present embodiment. FIG. 3 shows a state in which the ultrasonic probe puncture adapter is attached to the ultrasonic probe.
[0048]
As shown in the figure, the ultrasonic probe puncture adapter 3 is obtained by omitting the flat part 1f of the ultrasonic probe puncture adapter 1 in the first embodiment, and by using the ultrasonic probe in the first embodiment. Similarly to the probe puncture adapter 1, the detachable portion 3a having a cylindrical shape for detachably attaching the ultrasonic probe puncture adapter 3 to the ultrasonic probe 10 and the puncture needle N are connected to the ultrasonic probe 10 by the ultrasonic probe 10. And a defining member 3h for defining on the scanning line. Further, the attaching / detaching portion 3a has an opening 3c into which the probe surface 10a of the ultrasonic probe 10 is inserted, and the defining member 3h has an A flat portion 3g substantially coincident with the probe surface 10a of the ultrasonic probe 10 and extending in the same direction (however, the scanning direction of the ultrasonic wave by the ultrasonic probe 10), and a puncture needle N penetrating through the flat portion 3g. Is defined on the scanning line of the ultrasonic wave by the ultrasonic probe 10, and a hole 3d configured to allow the puncture needle N to be inserted. The puncture adapter 3 for an ultrasonic probe is obtained, for example, by molding a resin material, and the above-mentioned parts are integrally formed. Accordingly, when the ultrasonic probe puncture adapter 3 is attached to the ultrasonic probe 10, the positioning of each part is automatically performed. Incidentally, the arrow A shown in the figure represents the scanning direction (scanning direction) of the ultrasonic waves emitted from the probe surface 10a of the ultrasonic probe 10.
[0049]
In such a configuration, when the probe surface 10a of the ultrasonic probe 10 is inserted into the opening 3c, the inner surface of the attaching / detaching portion 3a comes into contact with the side surface 10b of the ultrasonic probe 10, and the ultrasonic probe 10 The puncture adapter 1 is detachably fixed to the ultrasonic probe 10.
[0050]
More specifically, similarly to the puncture adapter 1 for an ultrasonic probe in the first embodiment, a concave portion (not shown) is provided in the side surface portion 10b of the ultrasonic probe 10, while the puncture adapter 3 for the ultrasonic probe is provided. A not-shown convex portion that engages with the concave portion is provided on the inner surface portion of the detachable portion 3a. When the probe surface 10a of the ultrasonic probe 10 is inserted into the opening portion 3c, the concave portion and the convex portion are formed. By the engagement, the ultrasonic probe puncture adapter 3 is detachably fixed to the ultrasonic probe 10, and the probe surface 10 a of the ultrasonic probe 10 and the flat portion 3 g of the ultrasonic probe puncture adapter 3 Approximately match (see FIG. 2).
[0051]
As described above, in the present embodiment, by attaching the ultrasonic probe puncture adapter 3 to the ultrasonic probe 10, the flat portion 3g of the ultrasonic probe puncture adapter 3 and the probe surface 10a of the ultrasonic probe 10 Are substantially coincident with each other, and they both come into contact with the surface of the living body, so that the contact area with the living body is increased, and the stability of the ultrasonic probe 10 with respect to the living body can be improved. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0052]
In addition, since the entire area of the contact surface with the living body is increased by the flat portion 3g of the puncture adapter 3 for the ultrasonic probe, the puncture needle N is inserted into a movable tumor or the like directly below the surface of the living body. Even so, the local pressing force on the surface of the living body is reduced, and even when the ultrasonic probe 10 is pressed against the surface of the living body, it is possible to prevent the tumor from shifting from the front position of the probe surface 10a of the ultrasonic probe 10. it can. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0053]
Further, since the puncture needle N can be inserted through the hole 3d penetrating the flat portion 3g of the puncture adapter 3 for the ultrasonic probe, the puncture needle N can be inserted even when the ultrasonic probe 10 is pressed against the surface of the living body. Is inserted into the surface of the living body, that is, the peripheral portion of the hole 3d is not deformed by being pressed by the flat portion 3g, and the puncture needle N is inserted while maintaining a large insertion angle with respect to the surface of the living body. Can be pierced. Therefore, the surgeon can insert the puncture needle N at an accurate position without warping or sliding between the puncture needle N and the living body surface.
[0054]
In addition, since the puncture adapter 3 for an ultrasonic probe has a flat portion 1g that substantially matches the probe surface 10a of the ultrasonic probe 10 only in the scanning direction of the ultrasonic wave by the ultrasonic probe 10, This is suitable when the probe surface 10a of the ultrasonic probe 10 is pressed between the ribs (between the ribs).
[0055]
In the present embodiment, only one hole 3d is provided. However, similarly to the ultrasonic probe puncture adapter 1 in the first embodiment, the inclination angle is changed every predetermined angle. (See FIGS. 3A and 3B). Further, a groove may be provided instead of the hole 3d. Also in such a case, a plurality of grooves may be provided in which the inclination angle is changed every predetermined angle. However, these grooves have a depth that reaches the position on the scan axis of the ultrasonic probe 10 (see FIGS. 4A and 4B).
[0056]
Further, in the present embodiment, as the ultrasonic probe 10, a linear type in which the probe surface 10a has a planar shape has been described as an example, but as in the first embodiment, the ultrasonic probe is May be of a convex type having a curved surface shape.
[0057]
For example, as shown in FIG. 8, when the ultrasonic probe 11 is of a convex type in which the probe surface 11 a has a curved shape, the ultrasonic probe puncture adapter 4 includes a probe of the ultrasonic probe 11. A curved surface portion 4g that substantially matches the curved surface shape of the surface 11a is provided. In such a configuration, when the probe surface 11a of the ultrasonic probe 11 is inserted into the opening 4c, the inner surface of the attaching / detaching portion 4a contacts the side surface 11b of the ultrasonic probe 11, and the ultrasonic The probe puncture adapter 4 is detachably fixed to the ultrasonic probe 11.
[0058]
More specifically, similarly to the puncture adapter 2 for the ultrasonic probe in the first embodiment, a concave portion 11ba is provided in the side surface portion 11b of the ultrasonic probe 11, while the attaching / detaching of the puncture adapter 4 for the ultrasonic probe is performed. The inner surface of the portion 4a is provided with a convex portion (not shown) that engages with the concave portion 11ba. When the probe surface 11a of the ultrasonic probe 11 is inserted into the opening 4c, the concave portion 11ba and the convex portion are formed. Engages, the ultrasonic probe puncture adapter 4 is detachably fixed to the ultrasonic probe 11, and the probe surface 11a of the ultrasonic probe 11 and the curved surface portion 4g of the ultrasonic probe puncture adapter 4 Substantially coincide with each other (see FIG. 6).
[0059]
The ultrasonic probe puncture adapter 3 and the ultrasonic probe puncture adapter 4 in the present embodiment are according to claims 4 to 10 of the present invention, and the flat portion 3g and the curved surface portion 4g are This corresponds to the “opening surface expanding means” of the invention. In addition, the attaching / detaching section 3a and the attaching / detaching section 4a correspond to “attaching / detaching means” of the present invention. The hole 3d and the hole 4d correspond to the "defining means" of the present invention.
[0060]
Further, the ultrasonic probe 10 and the ultrasonic probe 11 in this embodiment are according to claim 12 of the present invention, and the probe surface 10a and the probe surface 11a correspond to the “opening surface” of the present invention.
[0061]
The ultrasonic probe puncture adapter 3 and the ultrasonic probe puncture adapter 4 according to the present embodiment relate to claim 15 of the present invention, and the detachable portion 3a and the detachable portion 4a Member ". The opening 3c and the opening 4c correspond to the "insertion hole" of the present invention. Further, the convex portion of the attaching / detaching portion 3a and the convex portion of the attaching / detaching portion 4a correspond to the “engaging portion” of the present invention. The flat portion 3g and the curved surface portion 4g correspond to the "second end surface portion" of the present invention.
[0062]
Further, the ultrasonic probe 10 and the ultrasonic probe 11 in the present embodiment correspond to claim 16 of the present invention.
[0063]
[Third Embodiment]
FIG. 9 is a perspective view illustrating the entire configuration of the puncture adapter for an ultrasonic probe according to the present embodiment. FIG. 3 shows a state in which the ultrasonic probe puncture adapter is attached to the ultrasonic probe.
[0064]
As shown in the figure, the ultrasonic probe puncture adapter 5 is obtained by omitting the flat portion 1g of the ultrasonic probe puncture adapter 1 in the first embodiment (replaced by the flat portion 5i). Similarly to the ultrasonic probe puncture adapter 1 in the first embodiment, a detachable portion 5a having a cylindrical shape for detachably attaching the ultrasonic probe puncture adapter 5 to the ultrasonic probe 10, and a puncture needle And a defining member 5h for defining N on the scanning line of the ultrasonic wave by the ultrasonic probe 10. Further, the detachable portion 5a has an opening 5c for inserting the probe surface 10a of the ultrasonic probe 10, and a probe surface 10a of the ultrasonic probe 10 when the probe surface 10a of the ultrasonic probe 10 is inserted into the opening 5c. And a flat portion 5f extending in the same direction (however, a direction orthogonal to the scanning direction of the ultrasonic wave by the ultrasonic probe 10), and the defining member 5h connects the puncture needle N to the ultrasonic probe. It has a hole 5d that can be inserted into the puncture needle N, which is defined on the scanning line of the ultrasonic wave by 10. The puncture adapter 5 for an ultrasonic probe is obtained by, for example, molding a resin material, and the above-mentioned parts are integrally formed. Thereby, when the ultrasonic probe puncture adapter 5 is attached to the ultrasonic probe 10, the positioning of each part is automatically performed. Incidentally, the arrow A shown in the figure represents the scanning direction (scanning direction) of the ultrasonic waves emitted from the probe surface 10a of the ultrasonic probe 10.
[0065]
In such a configuration, when the probe surface 10a of the ultrasonic probe 10 is inserted into the opening 5c, the inner surface of the attaching / detaching portion 5a comes into contact with the side surface 10b of the ultrasonic probe 10, and the ultrasonic probe 10 The puncture adapter 1 is detachably fixed to the ultrasonic probe 10.
[0066]
More specifically, similarly to the puncture adapter 1 for an ultrasonic probe in the first embodiment, a concave portion (not shown) is provided in the side surface portion 10b of the ultrasonic probe 10, while the puncture adapter 5 for the ultrasonic probe A not-shown convex portion that engages with the concave portion is provided on the inner surface portion of the detachable portion 5a. When the probe surface 10a of the ultrasonic probe 10 is inserted into the opening portion 5c, the concave portion and the convex portion are formed. By the engagement, the ultrasonic probe puncture adapter 5 is detachably fixed to the ultrasonic probe 10, and the probe surface 10 a of the ultrasonic probe 10 and the flat portion 5 f of the ultrasonic probe puncture adapter 5 are connected. Approximately match (see FIG. 2).
[0067]
As described above, in the present embodiment, by attaching the ultrasonic probe puncture adapter 5 to the ultrasonic probe 10, the flat portion 5f of the ultrasonic probe puncture adapter 5 and the probe surface 10a of the ultrasonic probe 10 Are substantially coincident with each other, and they both come into contact with the surface of the living body, so that the contact area with the living body is increased, and the stability of the ultrasonic probe 10 with respect to the living body can be improved. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0068]
Further, since the entire area of the contact surface with the living body is increased by the flat portion 5f of the puncture adapter 5 for the ultrasonic probe, the puncture needle N is inserted into a movable tumor or the like immediately below the surface of the living body. Even so, the local pressing force on the surface of the living body is reduced, and even when the ultrasonic probe 10 is pressed against the surface of the living body, it is possible to prevent the tumor from shifting from the front position of the probe surface 10a of the ultrasonic probe 10. it can. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0069]
Further, since the entire area of the contact surface with the living body is increased by the flat portion 5f of the puncture adapter 5 for the ultrasonic probe, even when the ultrasonic probe 10 is pressed against the surface of the living body, the puncture needle N is kept on the surface of the living body. The portion to be inserted is suppressed from being deformed, and the puncture needle N can be inserted while maintaining a large insertion angle with respect to the living body surface. Therefore, the surgeon can insert the puncture needle N at an accurate position without warping or sliding between the puncture needle N and the living body surface.
[0070]
By the way, in the present embodiment, only one hole 5d is provided. However, similarly to the ultrasonic probe puncture adapter 1 in the first embodiment, the inclination angle is changed every predetermined angle. (See FIGS. 3A and 3B). Further, a groove may be provided instead of the hole 5d. Also in such a case, a plurality of grooves may be provided in which the inclination angle is changed every predetermined angle. However, these grooves have a depth that reaches the position on the scan axis of the ultrasonic probe 10 (see FIGS. 4A and 4B).
[0071]
Further, in the present embodiment, as the ultrasonic probe 10, a linear type in which the probe surface 10a has a planar shape has been described as an example, but as in the first embodiment, the ultrasonic probe is May be of a convex type having a curved surface shape.
[0072]
For example, as shown in FIG. 10, when the ultrasonic probe 11 is of a convex type in which the probe surface 11 a has a curved shape, the ultrasonic probe puncture adapter 6 includes the probe of the ultrasonic probe 11. A curved surface portion 6f substantially matching the curved shape of the surface 11a is provided. Further, in such a configuration, when the probe surface 11a of the ultrasonic probe 11 is inserted into the opening 6c, the inner surface of the attaching / detaching portion 6a contacts the side surface 11b of the ultrasonic probe 11, and the ultrasonic The probe puncture adapter 6 is detachably fixed to the ultrasonic probe 11.
[0073]
More specifically, similarly to the puncture adapter 2 for the ultrasonic probe in the first embodiment, a concave portion (not shown) is provided in the side surface portion 11b of the ultrasonic probe 11, while the puncture adapter 6 for the ultrasonic probe 6 On the inner surface of the attachment / detachment portion 6a, a projection (not shown) that engages with the depression is provided. When the probe surface 11a of the ultrasonic probe 11 is inserted into the opening 6c, the depression and the projection are formed. By the engagement, the ultrasonic probe puncture adapter 6 is detachably fixed to the ultrasonic probe 11, and the probe surface 11a of the ultrasonic probe 11 and the curved surface portion 6f of the ultrasonic probe puncture adapter 6 Substantially coincide with each other (see FIG. 6).
[0074]
The ultrasonic probe puncture adapter 5 and the ultrasonic probe puncture adapter 6 according to the present embodiment relate to claims 4 to 6 of the present invention, and the flat portion 5f and the curved surface portion 6f are It corresponds to the "opening surface expanding means" of the invention. In addition, the attaching / detaching portion 5a and the attaching / detaching portion 6a correspond to "attaching / detaching means" of the present invention. The hole 5d and the hole 6d correspond to the "defining means" of the present invention.
[0075]
Further, the ultrasonic probe 10 and the ultrasonic probe 11 in this embodiment are according to claim 12 of the present invention, and the probe surface 10a and the probe surface 11a correspond to the “opening surface” of the present invention.
[0076]
The ultrasonic probe puncture adapter 5 and the ultrasonic probe puncture adapter 6 according to the present embodiment are according to claim 14 of the present invention, and the detachable portion 5a and the detachable portion 6a Member ". The opening 5c and the opening 6c correspond to the “insertion hole” of the present invention. In addition, the convex portion of the attaching / detaching portion 5a and the convex portion of the attaching / detaching portion 6a correspond to the “engaging portion” of the present invention. Further, the flat portion 5f and the curved surface portion 6f correspond to the "second end face portion" of the present invention.
[0077]
Further, the ultrasonic probe 10 and the ultrasonic probe 11 in the present embodiment correspond to claim 16 of the present invention.
[0078]
[Fourth embodiment]
FIG. 11 is a perspective view illustrating the entire configuration of the ultrasonic probe adapter according to the present embodiment. FIG. 3 shows a state in which the ultrasonic probe adapter is attached to the ultrasonic probe for puncture.
[0079]
As shown in the figure, the ultrasonic probe adapter 7 is the same as the ultrasonic probe puncture adapter 1 of the first embodiment except that the defining portion 1h is omitted. A puncture ultrasonic probe (see [Prior Art]) is provided in which a puncture adapter 100 is detachably attached to an ultrasonic probe for diagnosis. The ultrasonic probe adapter 7 includes an opening 7c into which the probe surface 12a of the puncture ultrasonic probe 12 is inserted, and a puncture probe when the probe surface 12a of the puncture ultrasonic probe 12 is inserted into the opening 7c. It has a cylindrical shape substantially coincident with the probe surface 12a of the ultrasonic probe 12 and having a flat portion 7f extending in the same direction (a direction orthogonal to the ultrasonic scanning direction of the ultrasonic probe 10). It comprises a detachable part 7a. The ultrasonic probe adapter 7 is obtained, for example, by molding a resin material, and the above-described components are integrally formed. Thus, when the ultrasonic probe puncture adapter 7 is attached to the ultrasonic probe 12, the positioning of each part is automatically performed. Incidentally, the arrow A shown in the figure represents the scanning direction (scanning direction) of the ultrasonic waves emitted from the probe surface 12a of the ultrasonic probe 12 for puncture.
[0080]
In such a configuration, when the probe surface 12a of the puncture ultrasonic probe 12 is inserted into the opening 7c, the inner surface of the attaching / detaching portion 7a contacts the side surface 12b of the puncture ultrasonic probe 12, and The ultrasonic probe adapter 7 is detachably fixed to the puncture ultrasonic probe 12.
[0081]
More specifically, similarly to the puncture adapter 1 for ultrasonic probe in the first embodiment, a concave portion (not shown) is provided in the side surface portion 12b of the ultrasonic probe 12 for puncture, while the adapter 7 for ultrasonic probe A not-shown protrusion engaging with the concave portion is provided on the inner surface of the attaching / detaching portion 7a, and when the probe surface 12a of the puncture ultrasonic probe 12 is inserted into the opening 7c, the concave portion By the engagement of the projections, the ultrasonic probe adapter 7 is detachably fixed to the puncture ultrasonic probe 12, and the probe surface 12a of the puncture ultrasonic probe 12 and the ultrasonic probe adapter 7 (See FIG. 2).
[0082]
As described above, in the present embodiment, by attaching the ultrasonic probe adapter 7 to the ultrasonic probe 12 for puncture, the flat portion 7f of the adapter 7 for ultrasonic probe and the probe of the ultrasonic probe 12 for puncture Since the surface 12a and the surface 12a substantially coincide with each other and come into contact with the surface of the living body, the contact area with the living body is increased, and the stability of the puncture ultrasonic probe 12 with respect to the living body can be improved. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0083]
Further, since the area of the entire contact surface with the living body is increased by the flat portion 7f of the ultrasonic probe adapter 7, the puncture needle N is inserted into a movable tumor or the like immediately below the surface of the living body. However, the local pressing force on the living body surface is reduced, and even when the puncturing ultrasonic probe 12 is pressed against the living body surface, the tumor is prevented from being displaced from the front position of the probe surface 12a of the puncturing ultrasonic probe 12. can do. Therefore, the surgeon can insert the puncture needle N at an accurate position.
[0084]
Further, since the entire area of the contact surface with the living body is increased by the flat portion 7f of the ultrasonic probe adapter 7, even when the puncture ultrasonic probe 12 is pressed against the surface of the living body, the puncture needle N can be placed on the surface of the living body. The puncture needle N can be punctured while maintaining a large puncture angle with respect to the living body surface. Therefore, the surgeon can insert the puncture needle N at an accurate position without warping or sliding between the puncture needle N and the living body surface.
[0085]
In the present embodiment, the puncture ultrasonic probe 12 has been described as an example of a linear type in which the probe surface 12a has a planar shape. However, as in the first embodiment, the puncture ultrasonic probe is used. May be of a convex type having a curved probe surface.
[0086]
For example, as shown in FIG. 12, when the puncture ultrasonic probe 13 is of a convex type in which the probe surface 13a has a curved shape, the puncture ultrasonic probe is attached to the ultrasonic probe adapter 8. A curved surface portion 8f substantially matching the curved surface shape of the thirteen probe surface 13a is provided. Further, in such a configuration, when the probe surface 13a of the puncture ultrasonic probe 13 is inserted into the opening 8c, the inner surface of the attaching / detaching portion 8a contacts the side surface 13b of the ultrasonic probe 13 and The ultrasonic probe adapter 8 is detachably fixed to the puncture ultrasonic probe 13.
[0087]
More specifically, similarly to the ultrasonic adapter 2 in the first embodiment, a concave portion (not shown) is provided in the side surface portion 13 b of the ultrasonic probe for puncture 13, while a detachable portion of the ultrasonic probe adapter 8 is provided. The inner surface of 8a is provided with a protrusion (not shown) that engages with the recess. When the probe surface 13a of the ultrasonic probe 13 for puncture is inserted into the opening 8c, the recess and the protrusion are formed. By engaging, the ultrasonic probe puncture adapter 8 is detachably fixed to the ultrasonic probe 13, and the probe surface 13 a of the ultrasonic probe 13 for puncture and the curved surface portion 8 f of the ultrasonic probe adapter 8 are engaged. Substantially coincide with each other (see FIG. 6).
[0088]
Note that the puncture ultrasonic probe adapter 7 and the puncture ultrasonic probe adapter 8 in the present embodiment are according to claims 1 to 3 of the present invention, and the flat portion 7f and the curved surface portion 8f are , Of the present invention. In addition, the attaching / detaching portion 7a and the attaching / detaching portion 8a correspond to "attaching / detaching means" of the present invention.
[0089]
The ultrasonic probe for puncture 12 and the ultrasonic probe for puncture 13 in the present embodiment are according to claim 11 of the present invention, and the probe surface 12a and the probe surface 13a are the “opening surfaces” of the present invention. Corresponding to
[0090]
The ultrasonic probe 10, the ultrasonic probe 11, the puncture ultrasonic probe 12, and the puncture ultrasonic probe 13 in the first to fourth embodiments described above are respectively a probe cable 10c and a probe. It is connected to an ultrasonic diagnostic apparatus (not shown) through a cable 11c, a probe cable 12c, and a probe cable 13c. On a screen created by this ultrasonic diagnostic apparatus, for example, as shown in FIG. Puncture marker 20b is displayed. Since the puncture marker 20b indicates the path through which the puncture needle N will be inserted, the surgeon avoids a blood vessel or the like that may cause major bleeding, or a tissue such as a target tumor. , The puncture needle N can be inserted accurately. Incidentally, the puncture marker 20b is provided in the holes 1d (grooves 1e) to 6d of the defining portions 1h to 6h and the hole 100a of the puncturing adapter 100, and the puncture needle N for the surface of the living body is provided by a sensor (not shown). Is detected, the path through which the puncture needle N is to be inserted is determined, and is automatically displayed on the screen 20.
[0091]
The puncture ultrasonic probe adapter, diagnostic ultrasonic probe puncture adapter, puncture ultrasonic probe, and diagnostic ultrasonic probe according to the present invention are described in the first to fourth embodiments. The puncture ultrasonic probe adapter, the diagnostic ultrasonic probe puncture adapter, the puncture ultrasonic probe, and the external shape of the diagnostic ultrasonic probe, Regarding the method of attaching the ultrasonic probe adapter and the diagnostic ultrasonic probe puncture adapter to the puncture ultrasonic probe and the diagnostic ultrasonic probe, other forms may be naturally adopted without departing from the scope of the present invention. It is possible.
[0092]
【The invention's effect】
As described above, according to the puncture ultrasonic probe adapter according to the present invention, when the conventional puncture adapter is attached to the puncture ultrasonic probe, further, for the puncture ultrasonic probe By attaching the adapter, the contact area with the surface of the living body can be increased, and the stability of the ultrasonic probe for puncture can be improved with respect to the living body. Even when the probe is inserted, the local pressing force on the living body is reduced, so that even when the puncture ultrasonic probe is pressed against the surface of the living body, the tumor is displaced from the front position of the probe surface of the ultrasonic probe. In addition, when the puncture ultrasonic probe is pressed against the living body surface, the degree of deformation of the living body surface can be reduced. Come, it is possible to suppress that the insertion angle of the puncture needle relative to the living body surface is reduced. Therefore, the surgeon can insert the puncture needle at an accurate position.
[0093]
Moreover, according to the ultrasonic probe for puncture according to the present invention, the above-described effects can be obtained by mounting the adapter for ultrasonic probe for puncture according to the present invention. Therefore, the surgeon can insert the puncture needle at an accurate position.
[0094]
As described above, according to the puncture adapter for diagnostic ultrasonic probe according to the present invention, by attaching the puncture adapter for diagnostic ultrasonic probe to the ultrasonic probe for diagnosis, By increasing the area, the stability of the diagnostic ultrasonic probe to the living body can be improved, and even when a puncture needle is inserted into a movable tumor or the like directly below the surface of the living body, Since the pressing force is locally reduced, even when the diagnostic ultrasonic probe is pressed against the surface of the living body, the tumor can be prevented from being displaced from the front position of the probe surface of the ultrasonic probe. When the ultrasonic probe is pressed against the surface of a living body, the degree of deformation of the surface of the living body can be reduced, and the insertion angle with respect to the surface of the living body can be kept large. Remains, it is possible to puncture the puncture needle. Therefore, the surgeon can insert the puncture needle at an accurate position. Further, by providing a hole or a groove for guiding the puncture needle on the living body contact surface of the puncture adapter for the diagnostic ultrasonic probe, when the diagnostic ultrasonic probe is pressed against the surface of the living body, the living body surface is deformed. Thus, the puncture needle can be inserted while the insertion angle with respect to the living body surface is kept large. Therefore, the surgeon can insert the puncture needle at an accurate position.
[0095]
Further, according to the diagnostic ultrasonic probe according to the present invention, the above effects can be obtained by mounting the puncture adapter for diagnostic ultrasonic probe according to the present invention. Therefore, the surgeon can insert the puncture needle at an accurate position.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an overall configuration of an embodiment of a puncture adapter for a diagnostic ultrasonic probe according to claims 4 to 10 and 13 of the present invention.
FIG. 2 is an explanatory view showing a method of attaching a puncture adapter for a diagnostic ultrasonic probe and a diagnostic ultrasonic probe shown in FIG. 1;
FIG. 3 is a front view and a plan view showing a form in which a plurality of holes are provided in the puncture adapter for a diagnostic ultrasonic probe shown in FIGS. 1 and 2;
FIG. 4 is a front view and a plan view showing a form in which a plurality of grooves are provided on the puncture adapter for a diagnostic ultrasonic probe shown in FIGS. 1 and 2;
FIG. 5 is a perspective view showing an overall configuration of another embodiment of the puncture adapter for a diagnostic ultrasonic probe shown in FIG. 1;
FIG. 6 is an explanatory view showing a method of attaching the puncture adapter for a diagnostic ultrasonic probe and the diagnostic ultrasonic probe shown in FIG. 5;
FIG. 7 is a perspective view showing an overall configuration of an embodiment of a puncture adapter for a diagnostic ultrasonic probe according to claims 4 to 10 and 12 of the present invention.
8 is a perspective view showing an overall configuration of another embodiment of the puncture adapter for a diagnostic ultrasonic probe shown in FIG. 7;
FIG. 9 is a perspective view showing an overall configuration of an embodiment of a puncture adapter for a diagnostic ultrasonic probe according to claims 4 to 10 and 14 of the present invention.
FIG. 10 is a perspective view showing an overall configuration of another embodiment of the puncture adapter for a diagnostic ultrasonic probe shown in FIG. 9;
FIG. 11 is a perspective view illustrating an entire configuration of an embodiment of the puncture ultrasonic probe adapter according to any one of claims 1 to 3 of the present invention.
FIG. 12 is a perspective view showing an overall configuration of another embodiment of the puncture ultrasonic probe adapter shown in FIG.
FIG. 13 is an explanatory diagram for explaining an entire configuration of a screen created in an ultrasonic diagnostic imaging apparatus to which a puncture ultrasonic probe and a diagnostic ultrasonic probe according to the present invention are connected.
FIG. 14 is a front view showing a state in which a conventional puncture adapter is attached to a conventional puncture ultrasonic probe.
15 explains that when the probe surface of the ultrasonic probe for puncture shown in FIG. 14 is pressed against the surface of a living body, the surface of the living body is deformed, and the puncture needle inserted into the body is warped or slipped. FIG.
[Explanation of symbols]
1 Puncture adapter for ultrasonic probe
1a Removable part
1c Opening
1d hole
1f flat part
1g flat part
1h regulation member
10 Ultrasonic probe
10a Probe surface
10b Side part
10c probe cable
N puncture needle

Claims (16)

A contact surface with the living body, an opening surface for irradiating the living body with ultrasonic waves for scanning, a side surface portion formed so as to rise from the periphery of the opening surface, and detachably configured, the ultrasonic scanning A puncturing ultrasonic probe adapter used for a puncturing ultrasonic probe, including a defining means for defining a puncture needle on a line,
Attaching / detaching means configured to be attachable / detachable to / from the side portion,
When attached to the ultrasonic probe for puncture,
An adapter for an ultrasonic probe for puncturing, comprising: an opening surface extending means having a surface extending in the same direction as the opening surface. 2. The puncture ultrasonic probe adapter according to claim 1, wherein said attaching / detaching means and said opening surface expanding means are integrally provided. The said opening surface expansion means is provided in any one of the scanning direction of the said ultrasonic wave, the direction orthogonal to the scanning direction of the said ultrasonic wave, or the direction which combined these. 3. The ultrasonic probe adapter for puncture according to 2. A diagnostic used for a diagnostic ultrasonic probe including an opening surface for contacting a living body and irradiating an ultrasonic wave into the living body for scanning, and a side surface portion formed so as to rise from the periphery of the opening surface. Puncture adapter for ultrasonic probe for
Attaching / detaching means configured to be attachable / detachable to / from the side portion,
When attached to the diagnostic ultrasound probe,
Defining means for defining a puncture needle on the scanning line of the ultrasonic wave,
A puncture adapter for a diagnostic ultrasonic probe, comprising: an opening surface extending means having a surface extending in the same direction as the opening surface. The puncture adapter for a diagnostic ultrasonic probe according to claim 4, wherein the attaching / detaching means, the defining means, and the opening surface expanding means are provided integrally. The said opening surface expansion means is provided in any one of the scanning direction of the said ultrasonic wave, the direction orthogonal to the scanning direction of the said ultrasonic wave, or the direction which combined these. 6. The puncture adapter for a diagnostic ultrasonic probe according to 5. The defining means is a hole configured to be able to insert a puncture needle, penetrating a surface extending in the same direction as the opening surface of the opening surface expanding means provided in the scanning direction of the ultrasonic wave. The puncture adapter for a diagnostic ultrasonic probe according to claim 4 or 5, wherein The defining means is a groove configured to be able to insert a puncture needle, penetrating a surface extending in the same direction as the opening surface of the opening surface extending means provided in the scanning direction of the ultrasonic wave. The puncture adapter for a diagnostic ultrasonic probe according to claim 4 or 5, wherein The puncture adapter for a diagnostic ultrasonic probe according to claim 7, wherein a plurality of the holes are provided at predetermined angles. 9. The puncture adapter for a diagnostic ultrasonic probe according to claim 8, wherein a plurality of the grooves are provided at predetermined angles. A puncture ultrasonic probe to which the puncture ultrasonic probe adapter according to any one of claims 1 to 3 is attached. A diagnostic ultrasonic probe to which the adapter for a diagnostic ultrasonic probe according to any one of claims 4 to 10 is attached. A diagnostic used for a diagnostic ultrasonic probe including an opening surface for contacting a living body and irradiating an ultrasonic wave into the living body for scanning, and a side surface portion formed so as to rise from the periphery of the opening surface. An ultrasonic probe adapter for
An insertion hole having a cylindrical shape, the insertion hole for inserting an opening surface of the diagnostic ultrasonic probe, and an engaging portion which comes into contact with the side surface portion and is detachably engaged with the side surface portion. An attaching / detaching member having an inner surface portion of a mouth and a first end surface portion which, when attached to the diagnostic ultrasonic probe, extends in the same direction as the opening surface in a direction perpendicular to the ultrasonic scanning direction. When,
A second end face portion provided in the ultrasonic scanning direction of the attaching / detaching member and extending in the same direction as the opening surface when attached to the diagnostic ultrasonic probe, and penetrating through the second end face portion; And defining a puncture needle on the scanning line of the ultrasonic wave, a defining member having a hole configured to allow insertion of the puncture needle,
A puncture adapter for a diagnostic ultrasonic probe, comprising: A diagnostic used for a diagnostic ultrasonic probe including an opening surface for contacting a living body and irradiating an ultrasonic wave into the living body for scanning, and a side surface portion formed so as to rise from the periphery of the opening surface. An ultrasonic probe adapter for
An insertion hole having a cylindrical shape, for inserting an opening surface of the diagnostic ultrasonic probe, and an insertion portion which comes into contact with the side surface portion and is detachably engaged with the side surface portion. And an attaching / detaching member having a first end surface portion that extends in the same direction as the opening surface in a direction orthogonal to a scanning direction of the ultrasonic wave when attached to the diagnostic ultrasonic probe. ,
A hole provided in the ultrasonic scanning direction of the detachable member when attached to the diagnostic ultrasonic probe and defining a puncture needle on a scanning line of the ultrasonic wave, configured to allow insertion of a puncture needle; A defining member having a portion,
A puncture adapter for a diagnostic ultrasonic probe, comprising: A diagnostic used for a diagnostic ultrasonic probe including an opening surface for contacting a living body and irradiating an ultrasonic wave into the living body for scanning, and a side surface portion formed so as to rise from the periphery of the opening surface. An ultrasonic probe adapter for
An insertion hole having a cylindrical shape, for inserting an opening surface of the diagnostic ultrasonic probe, and an insertion portion which comes into contact with the side surface portion and is detachably engaged with the side surface portion. A detachable member having an inner surface portion of
A second end face portion provided in the ultrasonic scanning direction of the attaching / detaching member and extending in the same direction as the opening surface when attached to the diagnostic ultrasonic probe, and penetrating through the second end face portion; And defining a puncture needle on the scanning line of the ultrasonic wave, a hole configured to allow insertion of the puncture needle, and a defining member having
A puncture adapter for a diagnostic ultrasonic probe, comprising: A diagnostic ultrasonic probe to which the puncture adapter for a diagnostic ultrasonic probe according to any one of claims 13 to 15 is attached.

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