JP7040910B2 - Ultrasonic probe - Google Patents

Description

The present invention relates to an ultrasonic probe.

Conventionally, an ultrasonic probe used for ultrasonic echo measurement by a doctor or a practitioner (hereinafter, simply referred to as a "practitioner") has been known (see, for example, Patent Document 1). With the widespread use of such ultrasonic probes, practitioners perform ultrasonic echo measurement by bringing the ultrasonic probe into contact with the skin of a subject (hereinafter, simply referred to as "subject") who requires ultrasonic echo measurement. be able to.

Japanese Unexamined Patent Publication No. 06-269450

By the way, many of the conventional ultrasonic probes used by practitioners have a substantially linear shape of the tip surface that emits ultrasonic waves. Specifically, as shown in FIG. 1, in the conventional ultrasonic probe 1, the shape of the tip surface 2 that radiates ultrasonic waves is substantially linear (approximately rectangular shape) extending to the left and right (direction indicated by arrow A). Is formed in. When performing ultrasonic echo measurement using such a conventional ultrasonic probe 1, the practitioner sandwiches both sides of the ultrasonic probe 1 between his / her thumb and the remaining four fingers as shown in FIG. Grasp the probe 1. Then, as shown in FIG. 2, the tip surface 2 of the grasped ultrasonic probe 1 is brought into contact with the skin of the subject, and the tip surface 2 is moved along the skin according to the measurement position (see arrow B). At the same time, the practitioner needs to suitably fix the angle between the subject's skin and the tip surface 2 in order to perform ultrasonic echo measurement more accurately. Therefore, as shown in FIG. 2, the practitioner rotates the ultrasonic probe 1 around the tip surface 2 (that is, super) in accordance with the measurement position in order to appropriately maintain the contact angle of the tip surface 2 with respect to the skin. The inclination of the ultrasonic probe 1 is changed) (see arrow C).

As described above, in the conventional ultrasonic probe 1, when measuring the ultrasonic echo, the practitioner moves the ultrasonic probe 1 in the direction indicated by the arrow B shown in FIG. 2 or the direction indicated by the arrow C shown in FIG. One hand had to concentrate on moving and immobilizing the ultrasonic probe, as it had to be tilted to. Therefore, while performing ultrasonic echo measurement using the ultrasonic probe 1, for example, when performing a procedure such as injection, insertion of a puncture needle, insertion / operation of a catheter, or acupuncture or moxibustion. The procedure had to be performed with only the other hand. Therefore, in the conventional ultrasonic probe 1, the hand of the person who operates the ultrasonic probe 1 cannot be effectively used.

On the other hand, in order to effectively use the hand of the person who operates the ultrasonic probe 1, as shown in FIG. 3, a conventional ultrasonic probe 1 to which a guide 3 for an injection needle or a puncture needle is attached has been devised. However, in the guided ultrasonic probe as shown in FIG. 3, when the inclination of the ultrasonic probe 1 is changed, the inclination of the guide 3 also changes, so that the injection needle and the puncture needle are accurately measured while performing ultrasonic echo measurement. It was difficult to make a proper alignment. As described above, with the conventional ultrasonic probe, it is difficult to perform the procedure using the finger of one hand that grips the ultrasonic probe.

The present invention has been made in view of such a situation, and it is possible for a practitioner to perform a procedure using the fingers of the hand holding the ultrasonic probe while holding the ultrasonic probe with one hand. It is an object of the present invention to provide an ultrasonic probe.

In order to achieve the above object, the ultrasonic probe according to one aspect of the present invention is
An ultrasonic probe used by practitioners for ultrasonic echo measurements,
A base with an ultrasonic radiating part and an ultrasonic receiving part on the bottom,
The handle part that is gripped by the thumb and index finger of one hand of the practitioner,
A flange portion provided above the handle portion is provided.
The handle portion is
It extends upward from the base and has a structure for determining the positions of the thumb and index finger. Formed at an angle,
In a situation where the handle portion is gripped by the practitioner's thumb and index finger, the thumb and index finger are formed to have an outer diameter that allows contact with each other.
The flange portion is characterized in that the handle portion is formed at a position where it comes into contact with the base of the finger in a situation where the handle portion is gripped by the practitioner's thumb and index finger.

According to the present invention, it is possible to provide an ultrasonic probe that enables a practitioner to perform a procedure using the fingers of the hand holding the ultrasonic probe while grasping the ultrasonic probe with one hand. ..

The figure for demonstrating the conventional ultrasonic probe. The figure for demonstrating the conventional ultrasonic probe. The figure for demonstrating the conventional guided ultrasonic probe. The left side view of the ultrasonic probe according to this embodiment. Top view of the ultrasonic probe according to this embodiment. Front view of the ultrasonic probe according to this embodiment. The rear view of the ultrasonic probe according to this embodiment. Bottom view when grasping the ultrasonic probe according to this embodiment. Top view when gripping the ultrasonic probe according to this embodiment. The figure for demonstrating an example of providing an ultrasonic wave transmitting element in a needle type treatment tool.

Hereinafter, embodiments of the present invention will be described with reference to FIGS. 4- and 9.
FIG. 4 is a left side view of the ultrasonic probe 10 according to the embodiment of the present invention, FIG. 5 is a top view of the ultrasonic probe 10, and FIG. 6 is a front view of the ultrasonic probe 10. 7 is a rear view of the ultrasonic probe 10, FIG. 8 is a bottom view when the practitioner grips the ultrasonic probe 10, and FIG. 9 is a bottom view when the practitioner grips the ultrasonic probe 10. It is a top view of.

As shown in FIGS. 4 to 7, the ultrasonic probe 10 according to the present embodiment includes a base portion 11, a handle portion 12, a flange portion 13, and an annular portion 14.

The base portion 11 is provided with an ultrasonic radiating section and an ultrasonic receiving section on the bottom surface thereof. As a result, ultrasonic echo measurement becomes possible by bringing the bottom surface of the base portion 11 into contact with the skin of the subject. The method of forming the ultrasonic wave emitting portion and the ultrasonic wave receiving portion on the bottom surface of the base portion 11 may be any method, and is formed by, for example, MEMS (Micro Electro Electro Mechanical Systems).

The handle portion 12 extends upward from the base portion 11 and is formed in a substantially columnar shape. Further, the handle portion 12 is formed so as to be inclined to the right as shown in FIG. 4, and is also inclined to the front side (lower side in the upper surface view shown in FIG. 5 or left side in the front view shown in FIG. 6). It is formed.

By the way, when gripping the ultrasonic probe 10 according to the present embodiment, the palm of the left hand is placed on the upper surface of the base portion 11 and the handle portion 12 is wrapped with the thumb and index finger (FIG. 9 described later). reference). Specifically, the handle portion 12 shown in FIG. 4 has the bases of the thumb and index finger in contact with the left side of the handle portion 12 shown in FIG. 4 so that the fingertips are located on the right side of the handle portion 12 shown in FIG. Along the surface of the front side (lower side of the handle portion 12 shown in FIG. 5), the thumb of the left hand is brought into contact with the back side of the handle portion 12 shown in FIG. 4 (upper side of the handle portion 12 shown in FIG. 5). Along the surface, bring the index finger of the left hand into contact.

Therefore, the handle portion 12 is formed so as to be inclined in the direction toward the fingertip side (right direction shown in FIG. 4) and in the direction toward the thumb side (front side shown in FIG. 4) in the situation where the handle portion 12 is gripped by the practitioner's thumb and index finger. (Or the lower direction shown in FIG. 5). As a result, the operability and stability of the ultrasonic probe 1 are improved when the practitioner grips the handle portion 12 with the thumb and the index finger. Specifically, the grip force of the handle portion 12 is increased by tilting the handle portion 12 toward the thumb side, and the operability of the fingertip is improved by tilting the handle portion 12 toward the fingertip side. The operability of the fingertip will be described later.

Further, the outer diameter of the handle portion 12 formed in a substantially columnar shape is set to such a length that the fingertip can be freely moved when the handle portion 12 is gripped by the thumb and the index finger. That is, the outer diameter of the handle portion 12 is set to a length at which the fingertips of the thumb and the index finger can come into contact with each other when the handle portion 12 is gripped so as to wrap the handle portion 12 with the thumb and the index finger. Further, as described above, the handle portion 12 is formed so as to be inclined toward the fingertip side. Therefore, the fingertips of the thumb and index finger that grip the handle portion 12 can be easily moved to the skin side (lower side of FIG. 4) of the subject, and it becomes easy to perform the procedure on the subject using the fingertips.

The flange portion 13 is located on the upper end surface of the handle portion 12 at a position where the handle portion 12 comes into contact with the base of the thumb and index finger when the handle portion 12 is gripped by the practitioner's thumb and index finger (the upper end surface of the handle portion 12 shown in FIG. 4). It is installed at the position on the left side). This prevents the thumb and index finger from coming off the handle portion 12 when the practitioner grips the handle portion 12.

The flange portion 13 is not only provided at a position of the upper end surface of the handle portion 12 that abuts on the base of the thumb and index finger, but also on the upper end surface of the handle portion 12 so as to abut on the entire thumb and index finger. It may be formed on the entire surface of the. Further, the flange portion 13 may have any shape as long as it can prevent these fingers from coming off the handle portion 12 when the handle portion 12 is gripped by the thumb and the index finger. You may.

The annular portion 14 is formed continuously with the bottom surface of the base portion 11 and has the same thickness as the base portion 11. Specifically, as shown in FIG. 4, the annular portion 14 is formed so as to extend to the right side of the base portion 11. As a result, when the ultrasonic probe 10 is brought into contact with the skin of the subject, not only the bottom surface of the base portion 11 for transmitting and receiving ultrasonic waves but also the bottom surface of the annular portion 14 is in contact with each other, so that the stability of the ultrasonic probe 10 is improved. improves. The right side of the base portion 11 shown in FIG. 4 is the side on which the fingertips of the thumb and index finger are located when the ultrasonic probe 1 is gripped by the practitioner's thumb and index finger. Therefore, the practitioner's thumb and index finger are located on the annular portion 14. Here, as shown in FIG. 5, a space portion 140 is formed in the annular portion 14. Therefore, the fingertips of the thumb and index finger of the practitioner are located in the space portion 140, and the practitioner can freely move the fingertips of the thumb and index finger.

The above-mentioned ultrasonic probe 10 is connected to the main body of an ultrasonic echo measuring device (not shown) by wire or wirelessly. As a result, the ultrasonic echo data measured by the ultrasonic probe 10 is transmitted to the ultrasonic echo measuring device main body. Further, the setting related to the ultrasonic echo measurement (for example, adjustment of echo intensity, wavelength, etc.) may be provided in the ultrasonic echo measuring device main body, but it is preferably provided in the ultrasonic probe 10. Specifically, a setting unit such as a switch or a dial for setting the ultrasonic echo measurement may be provided on the flange portion 13. By doing so, the practitioner can make various settings by operating the ultrasonic probe 10 at hand at the time of ultrasonic echo measurement, so that convenience can be improved.

Next, a method of gripping the ultrasonic probe 10 will be described with reference to FIGS. 8 and 9.
As shown in FIGS. 8 and 9, the practitioner puts the palm of the left hand on the upper surface of the base portion 11 of the ultrasonic probe 10 and wraps the handle portion 12 with the thumb and index finger of the left hand. 10 is gripped. At this time, as described above, the handle portion 12 is formed so as to be tilted toward the thumb side and the fingertip side of the left hand. As a result, when the practitioner grips the handle portion 12 with the thumb and index finger, the operability and stability of the ultrasonic probe 10 are improved, and the positioning and tilting (pitch direction, roll direction, yaw direction) of the ultrasonic probe 10 are improved. It becomes easy to make fine adjustments of the direction). In addition, it becomes easy to perform the procedure using the fingertips of the thumb and index finger that grip the handle portion 12.

As described above, the bottom surface of the base portion 11 and the bottom surface of the annular portion 14 are continuously formed (see FIG. 8). This also makes it possible to improve the stability of the inclination in the pitch direction when operating the ultrasonic probe 10.

Further, as described above, the outer diameter of the handle portion 12 is set to a length at which the fingertips of the thumb and the index finger can come into contact with each other when the handle portion 12 is gripped so as to wrap the handle portion 12 with the thumb and the index finger. Therefore, as shown in FIGS. 8 and 9, when the handle portion 12 is gripped by the thumb and the index finger, the fingertips of the thumb and the index finger can be positioned on the space portion 140 of the annular portion 14. Therefore, the practitioner can freely move the fingertips of the thumb and index finger, and using the thumb and index finger of the hand holding the ultrasonic probe 10, needles such as injection needles, puncture needles, catheters, and acupuncture needles. It is possible to perform procedures such as guiding the type treatment tool. Further, since the annular portion 14 does not interfere with other needle-type treatment tools such as an injection needle, a puncture needle, a catheter, and an acupuncture needle, it is easier to perform a procedure using a hand holding the ultrasonic probe 10. It can be carried out. Further, since the handle portion 12 is formed so as to be tilted toward the fingertip side, the fingertips of the thumb and index finger holding the handle portion 12 can be easily moved to the skin side of the subject via the space portion 140, and the fingertips are used. It becomes easy to perform the procedure on the target person.

As described above, according to the ultrasonic probe 10 of the present embodiment, the injection needle, the puncture needle, the catheter, the needle for acupuncture and moxibustion, etc. are performed while operating the ultrasonic probe 10 and observing the monitor of the ultrasonic echo measuring device main body. The position of the needle-type surgical instrument can be grasped relative to the patient's treatment site, and the position of the needle-type surgical instrument can be accurately guided using the thumb and index finger of the hand holding the ultrasonic probe 10. However, it is possible to perform a highly accurate procedure. Therefore, for example, various difficult procedures such as infusion of a subject who has difficulty in inserting a needle into a vein, catheter treatment that must reach the target site accurately and safely, and acupuncture and moxibustion are performed relatively. It can be easily done. As described above, according to the ultrasonic probe 10 of the present embodiment, the practitioner performs the procedure using the fingers of the hand holding the ultrasonic probe 10 while grasping the ultrasonic probe 10 with one hand. Is possible.

An ultrasonic transmitting element may be provided on a needle-type treatment tool such as an injection needle, a puncture needle, a catheter, or a needle for acupuncture, and transmission data from the ultrasonic transmitting element may be transmitted to the main body of the ultrasonic echo measuring device. .. In this case, the needle-type surgical tool emits ultrasonic waves, and its presence and position are clearly displayed on the monitor of the ultrasonic echo measuring device main body, so that various difficult procedures can be performed more easily. It becomes possible.

FIG. 10 is a diagram showing an example in which an ultrasonic wave transmitting element is provided on a needle-type treatment tool. As shown in FIG. 10, the syringe 21 which is an example of the needle-type treatment tool is provided with the ultrasonic wave transmitting element 20. Specifically, the ultrasonic transmitting element 20 is attached to the base side (injection tube side) of the injection needle 22 of the syringe 21, so that the position of the injection needle 22 becomes clear and is hindered by the ultrasonic transmitting element 20. The tip of the injection needle 22 can be inserted into the skin of the subject without any problem. Further, by using the syringe 21 provided with the ultrasonic transmitting element 20 together with the ultrasonic probe 10 of the present embodiment, the injection needle 22 can be inserted into the skin of the subject through the space 140 of the annular portion 14. Therefore, it is possible to perform a highly difficult procedure together with the operation of the ultrasonic probe 10.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within the range in which the object of the present invention can be achieved are included in the present invention. Is.

For example, in the above embodiment, the ultrasonic probe 10 does not have to include the annular portion 14. Even in this way, the outer diameter of the handle portion 12 is set to a length at which the fingertips of the thumb and the index finger can come into contact with each other when the handle portion 12 is gripped so as to wrap the handle portion 12 with the thumb and the index finger. Since is tilted toward the fingertip side, the fingertips of the thumb and index finger can be freely moved to perform a procedure such as guiding a needle-type surgical tool. Therefore, it is possible to easily perform a procedure such as guiding a needle-type surgical tool by using the thumb and index finger of the hand holding the ultrasonic probe 10.

Further, for example, in the above-described embodiment, the ultrasonic probe 10 has been described as being gripped by the left hand, but may be gripped by the right hand. In this case, the handle portion 12 may be formed so as to be inclined toward the fingertip side and the thumb side of the right hand in a situation where the handle portion 12 is gripped by the thumb and index finger of the practitioner's right hand.

Further, for example, in the above-described embodiment, the shape of the handle portion 12 is formed in a substantially columnar shape, but the shape is not limited to this. Specifically, it is sufficient that the outer diameter of the handle portion 12 is set so that when the practitioner grips the handle portion 12 with the thumb and the index finger, the fingertips of the thumb and the index finger can come into contact with each other. The shape of the portion 12 may be, for example, a substantially hexagonal columnar shape.

Further, for example, in the above-described embodiment, the material and the like of each component of the ultrasonic probe 10 are not mentioned, but any material may be used, for example, the material is formed of a non-slip silicon resin. You may. Further, the materials of the respective components may be different or the same, and these may be formed individually or integrally.

In other words, the ultrasonic probe to which the present invention is applied can take various embodiments having the following configurations.
That is, the ultrasonic probe to which the present invention is applied (for example, the ultrasonic probe 10) is
An ultrasonic probe used by practitioners for ultrasonic echo measurements,
A base portion (for example, a base portion 11) having an ultrasonic radiation unit and an ultrasonic reception unit on the bottom surface, and
A handle portion (for example, the handle portion 12) gripped by the thumb and index finger of one hand of the practitioner,
A flange portion (for example, a flange portion 13) provided above the handle portion is provided.
The handle portion is
It extends upward from the base portion and is formed so as to be tilted toward the thumb side and the fingertip side in a situation where the handle portion is gripped by the practitioner's thumb and index finger.
In a situation where the handle portion is gripped by the practitioner's thumb and index finger, the thumb and index finger are formed to have an outer diameter that allows contact with each other.
It suffices if the flange portion is formed at a position where the handle portion abuts on the base of the finger in a situation where the handle portion is gripped by the practitioner's thumb and index finger.
This makes it possible to improve the operability of the ultrasonic probe and perform the procedure using the fingertips of the hand holding the ultrasonic probe.

Further, the ultrasonic probe to which the present invention is applied may further include the following configurations.
That is, an annular portion (for example, the annular portion 14) having a space portion (for example, the space portion 140) is further provided in the center.
The annular portion extends to the fingertip side of the base portion so that the practitioner's fingertip is positioned in the space portion in a situation where the handle portion is gripped by the practitioner's thumb and index finger. You may.
According to this, the stability of the ultrasonic probe can be improved by the annular portion, and the procedure can be performed by using the fingertip of the hand holding the ultrasonic probe by the spatial portion of the annular portion.

Further, the ultrasonic probe to which the present invention is applied may further include the following configurations.
That is, the flange portion may be provided with a setting portion for setting the ultrasonic echo measurement.
According to this, since the setting unit is provided on the ultrasonic probe at hand, the convenience of ultrasonic echo measurement can be improved.

Further, the needle-type surgical tool used together with the ultrasonic probe to which the present invention is applied may include an ultrasonic transmitting element.
According to this, since the existing position of the needle-type surgical tool can be clearly grasped, it is easy to perform a highly difficult procedure as a procedure using the needle-type surgical tool while grasping the ultrasonic probe. Become.
The needle-type surgical tool provided with the above-mentioned ultrasonic wave transmitting element is not limited to the ultrasonic probe to which the present invention is applied, and may be used together with another ultrasonic probe, or may be used alone. It may be one. For example, even if the needle-type surgical tool provided with the above-mentioned ultrasonic wave transmitting element is used together with another ultrasonic probe (for example, a conventional ultrasonic probe), the position of the needle-type surgical tool can be clearly grasped, so that the conventional method can be used. The needle-type surgical tool can be operated more easily than this.

1 ... Conventional ultrasonic probe, 2 ... Tip surface, 3 ... Guide, 10 ... Ultrasonic probe, 11 ... Base part, 12 ... Handle part, 13 ... Flange part, 14 ... annular part, 140 ... space part, 20 ... ultrasonic transmitter element, 21 ... syringe, 22 ... injection needle

Claims (4)

An ultrasonic probe used by practitioners for ultrasonic echo measurements,
A base with an ultrasonic radiating part and an ultrasonic receiving part on the bottom,
The handle part that is gripped by the thumb and index finger of one hand of the practitioner,
A flange portion provided above the handle portion is provided.
The handle portion is
It extends upward from the base and has a structure for determining the positions of the thumb and index finger. Formed at an angle,
In a situation where the handle portion is gripped by the practitioner's thumb and index finger, the thumb and index finger are formed to have an outer diameter that allows contact with each other.
The flange portion is an ultrasonic probe characterized in that the handle portion is formed at a position where it comes into contact with the base of the finger in a situation where the handle portion is gripped by the practitioner's thumb and index finger. Further equipped with an annular part having a space part in the center,
The annular portion is characterized in that, in a situation where the handle portion is gripped by the practitioner's thumb and index finger, the annular portion extends to the fingertip side of the base portion so that the practitioner's fingertip is located in the space portion. The ultrasonic probe according to claim 1. The ultrasonic probe according to claim 1 or 2, wherein the flange portion is provided with a setting portion for setting ultrasonic echo measurement. A needle-type surgical tool used together with the ultrasonic probe according to claim 1 to 3.
A needle-type treatment tool characterized by being equipped with an ultrasonic wave transmitting element.

Images