JP3275657B2 - Medical mouthpiece - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an in-vivo diagnostic apparatus for performing a predetermined diagnosis which is inserted into a body cavity to perform a predetermined diagnosis, such as an ultrasonic inspection apparatus of an in-body cavity type. Hold the patient's mouth open when inserting it into the
The present invention relates to a medical mouthpiece used for guiding an insertion portion so as not to be bitten by teeth.

[0002]

2. Description of the Related Art As an example of an in-vivo diagnostic apparatus, for example, an ultrasonic inspection apparatus has an insertion section for inserting into a body cavity connected to an operation section main body which is gripped and operated by an operator. It is configured to mount an ultrasonic transducer on the device. The insertion portion is inserted into the body cavity through the oral cavity of the patient, and a mouthpiece is used to guide the insertion of the insertion portion and prevent the patient from biting the insertion portion. The mouthpiece has a shape whose diameter is reduced from one end side toward the middle portion, and the other end portion has a shape expanding like a trumpet. In this mouthpiece, even at the smallest diameter portion, the opening inside the mouthpiece is sufficiently larger than the outer diameter of the insertion portion, thereby forming an insertion passage through which the insertion portion is inserted. The insertion passage of the insertion portion formed by the mouthpiece has a passage cross-sectional area larger than the outer diameter of the largest diameter portion in the insertion portion, even at its smallest diameter portion, so that the insertion portion can be smoothly and reliably inserted. It can be inserted.

[0003] In obtaining information on a tissue tomography in a body cavity by the ultrasonic examination apparatus, a so-called multi-plane type ultrasonic examination apparatus having an ultrasonic transducer at the tip of an insertion portion inserted into a body cavity or the like is used. One that performs electronic scanning is disclosed in, for example, JP-A-59-22534.

In this known ultrasonic inspection apparatus, as shown in FIG. 1, a rotating body 3 is mounted on a tip end body 2 of an insertion portion 1, and an ultrasonic vibration made of piezoelectric ceramic or the like is attached to the rotating body 3. An ultrasonic transducer 5 in which a large number of transducers 4 are arranged in a line is provided. When performing ultrasonic scanning, linear or sector electronic scanning is performed over a predetermined range in the body by sequentially driving a plurality of ultrasonic transducers 4 with a predetermined time delay. The rotating body 3 includes a pair of operation wires 6a, 6
b is connected, and if one operation wire, for example, the operation wire 6a is pulled and the other operation wire 6b is pushed out, the rotating body 3 will rotate in the direction indicated by the arrow in the figure. Thus, an ultrasonic tomographic image obtained by different scanning lines can be obtained.

[0005] By constructing the ultrasonic inspection apparatus as described above, for example, the ultrasonic transducer is arranged at a predetermined position in the esophagus so as to be directed toward the heart, and a predetermined position in the heart is determined. By obtaining an ultrasonic tomographic image of the cross section, and then performing ultrasonic scanning while sequentially rotating the rotating body R by a predetermined angle, ultrasonic tomographic images at various angles can be obtained. Then, based on these pieces of information, it is possible to grasp the whole image of the heart, and if voxel data conversion processing is performed by the image processing means, three-dimensional display becomes possible.

[0006]

By the way, as described above, in acquiring three-dimensional data, a plurality of ultrasonic images are used to determine whether the heart is in a predetermined state. It must be. For this,
An electrocardiograph is attached to a patient, and the ultrasonic transducer is operated at a predetermined timing between excitement waves, for example, with reference to an electrocardiogram waveform.
Therefore, it takes a considerably long time to acquire a number of ultrasonic images that can be displayed three-dimensionally.

If the distal end body moves or shifts during this operation, even if an ultrasonic image of the heart in the same state is acquired, the position of each of the obtained ultrasonic tomographic images shifts. Therefore, three-dimensional display cannot be performed. For this reason, it is necessary to hold the distal end body of the insertion section fixedly during the ultrasonic inspection. However, since no means is provided for fixing the insertion portion in the body cavity, the operator must grasp and hold the insertion portion by hand during the ultrasonic examination. In addition, during this time, the operator needs to perform an operation of rotating the rotating body by a predetermined angle, and various operations are performed in addition to these operations.
It is very difficult for the operator to perform all the operations alone, and there is a problem that another person must assist.

The present invention has been made in view of the above points, and an object of the present invention is to enable an insertion portion to be fixedly held at a predetermined position while being guided into a body cavity. Is to do.

[0009]

In order to achieve the above-mentioned object, the present invention has a mouthpiece body which is formed in a substantially cylindrical shape and has an insertion passage through which an insertion portion of a diagnostic device for a body cavity is inserted. The mouthpiece body is provided with at least one notch, and an elastic ring is provided on an outer surface of the mouthpiece body.
And insert the elastic ring through the notch
Facing the passage, this elastic ring
The opening is not smaller than the outer diameter of the insertion section,
When the elastic ring is inserted into the insertion passage,
It is characterized in that it is configured to elastically contact the outer surface of the hour insertion portion .

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The insertion passage in the mouthpiece main body is larger than the outer diameter of the insertion portion, and particularly when the distal end main body of the insertion portion has a large diameter as shown in FIG. In this case, there is a considerable difference between the insertion path and the outer diameter of the insertion portion because the distal end body passes through the main body. Therefore,
A notch is provided in the insertion passage, and an elastic ring is attached to the notch to elastically limit the passage opening so as to be smaller than the outer diameter of the insertion portion. Since this restriction is performed elastically, when a certain amount of force is applied to the insertion portion in the direction of pushing and pulling, the insertion portion can be moved in the direction of insertion and removal from the body cavity. On the other hand, if no force is applied to the insertion portion, the insertion portion can be held so as not to be displaced.

Therefore, the patient is caused to hold the mouthpiece while the distal end portion of the insertion portion is passed through the mouthpiece in advance. Then, the insertion portion is inserted to a predetermined position. Although there is some resistance, the insertion can be performed. If the insertion force on the insertion part is released when the tip of the insertion part is guided to the site to be inspected,
It can be stably held at that position. Accordingly, since the operation for fixing the distal end portion main body of the insertion portion is released, the operator can concentrate on operations such as rotation of the rotating body.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. First, the configuration of the mouthpiece is shown in FIGS. In the figure, reference numeral 10 denotes a mouthpiece main body, and the mouthpiece main body 10 has such a strength that it is not deformed or damaged even if it is bitten by a patient's teeth,
It is made of a heat-resistant resin because it is autoclaved (heat-sterilized) and the like, and has a substantially cylindrical shape as a whole. That is, the diameter is reduced from the one end 10a toward the middle, and the diameter is increased from the smallest diameter portion, and the other end 10b is spread like a trumpet. The inside of the mouthpiece body 10 is an insertion passage 11 through which the insertion section 1 of the ultrasonic diagnostic apparatus shown in FIG. This insertion passage 11
The ultrasonic transducer 5 is attached to the rotating body 3 in the insertion section 1.
Is large enough to allow the distal end body 2 to be inserted without resistance.

Here, the insertion passage 11 has a substantially elliptical shape, and is attached to the mouth of the patient such that the insertion passage 11 is horizontally long. The cutouts 12 are formed at the left and right sides of the wall of the mouthpiece body 10 forming the insertion passage 11 near the part where the patient's teeth are directly contacted. , 12 are provided. The elastic ring 1
3 is fitted with a predetermined tension.
Therefore, the notch 12 allows the elastic ring 13 to
Configure cutouts to allow access to the inside
I do. As shown in FIG. 5 , the elastic ring 13 has a flat rectangular shape in cross section, and is mounted with the flat surface facing inward. As shown in FIG. 6, an elastic ring 13 'having a V-shaped cross section can be used, and in this case, the V-shaped expanded side faces inward and is attached to the cut portion 12. Is done.

When the elastic ring 13 is attached to the cut portion 12, the elastic ring 13 comes into the insertion passage 11 from the cut portions 12 on both the left and right sides. Thereby, the passage opening of the insertion passage 11 is restricted by the elastic ring 13. Therefore, the interval D ₁ between the cut portions 12, 12 facing the inside of the insertion passage 11 of the elastic ring 13 is set to be smaller than the outer diameter D _{2 of} the insertion portion 1. When guided, the elastic ring 1
3 will expand. Thus, when a certain amount of force is applied to the insertion portion 1, the insertion / removal can be performed into and out of the mouthpiece main body 10. To be fixed.

The mouthpiece is constructed as described above. The distal end main body 2 of the insertion portion 1 is inserted through the insertion passage 11 of the mouthpiece main body 10 and the elastic ring 1
3 is mounted in the cut 12 of the mouthpiece body 10. Thereby, the passage opening of the insertion passage 11 is elastically regulated by the elastic ring 13. In this state, the mouthpiece main body 10 is held by the patient, and the operator manually operates the insertion part 1 to push the insertion part 1 into the body cavity, such as a position closest to the heart in the esophagus. Insert into the site where sonography is to be performed. Although the insertion passage 11 has a restricted passage opening, the restriction is elastic by the elastic ring 13, so there is some resistance when inserted into the body cavity, but the insertion portion 1 can be inserted and removed. It is.

When the distal end body 2 of the insertion portion 1 is guided to a predetermined position, the distal end main body 2 is moved without permission even if the hand is released from the insertion portion 1 because it is held by the elastic ring 13. And is stably held at a predetermined site. In this state, the ultrasonic transducer 5 is operated to perform ultrasonic scanning on a predetermined scan line on the heart to be inspected, thereby obtaining an ultrasonic tomographic image of the heart. Next, from this state, the rotating body 3 is rotated by a predetermined angle by pushing and pulling the operation wires 6a and 6b. Of course, even when the rotating body 3 is rotated, unless the force is applied to the insertion portion 1 in the direction of pushing and pulling, the position of the tip end body 2 does not shift, so that the rotation angle of the rotating body 3 An ultrasonic tomographic image on the corresponding scanning line is obtained.

By repeating the above operation, FIG.
As shown in ( _1), ultrasonic tomographic images P1 to _{Pn at} predetermined angles around a predetermined position O in the heart H can be acquired. Then, if the data on these ultrasonic tomographic images P _{1 to} P _n is subjected to image processing, a three-dimensional display of the heart can be performed. Of course, these ultrasonic tomographic images P _{1 to} P _n are obtained when the expanding and contracting heart is in the same state.
For this purpose, a considerable amount of time is required to obtain the required number of ultrasonic tomographic images P _{1 to} P _n. It is not necessary to hold the insertion portion 1 fixedly unless the force is applied. Thus, since one hand of the surgeon is released, the released hand can be used to perform other operations required to perform an ultrasound examination.

Incidentally, in order to improve the fixability of the distal end portion main body 2, it is necessary to increase the holding force of the elastic ring 13 on the insertion portion 1 as much as possible. However,
If the holding force is strong, the resistance of the insertion portion 1 to the mouthpiece body 10 when it is put in and out is increased. In consideration of the above points, as shown in FIGS.
If the guide tube 20 is provided so as to be interposed between the mouthpiece main body 10 and the insertion portion 1, even when the holding force of the elastic ring 13 is increased, the The application of the clamping force can be prevented.

That is, the guide cylinder 20 is composed of a pair of semicircular cylindrical pieces 20a, 20a, and when the two cylindrical pieces 20a are joined, the inner diameter is larger than the outer diameter of the insertion portion 1. The outer diameter has a dimension that can be inserted into the insertion passage 11 in the mouthpiece body 10. And, in both cylinder pieces 20a,
A notch 21 through which the elastic ring 13 can pass is formed, and a flange portion 22 for rotating operation is continuously provided on one end side.

With the insertion portion 1 inserted therein, the tube pieces 20a, 20a are joined and held by, for example, a rubber ring 23 or the like so as not to be separated from each other.
0 is held in the insertion portion 1 in a fitted state.
Then, the guide tube 20 is inserted through the mouthpiece main body 10, and the cut 21 is arranged at a portion of the elastic ring 13 attached to the mouthpiece main body 10. In this state,
When the guide tube 20 is rotated by gripping the flange portion 22 by hand and the elastic ring 13 is positioned within the cut 21, the insertion portion 11 is clamped by the elastic ring 13 as shown in FIG. 9. It becomes a clamping state. on the other hand,
When the wall between the cuts 21 and 21 faces the elastic ring 13, the elastic ring 13 is expanded as shown in FIG.
The insertion portion 11 can be smoothly inserted into and removed from the mouthpiece main body 10 because it is in a non-contact state.

When the guide tube 20 is used, when the insertion portion 1 is guided to a predetermined position in a body cavity, the insertion portion 1 can be easily inserted without resistance by setting the state shown in FIG. When the distal end main body 2 is inserted to a predetermined position, the guide tube 20 is rotated to the state shown in FIG. 9, whereby the insertion portion 1 is clamped and fixed by the elastic ring 13. Therefore, even if the tightening force by the elastic ring 13 is increased, there is no problem in taking the insertion part in and out. In addition, if the guide tube 20 minimizes the gap generated between the guide tube 20 and the inner surface of the mouthpiece main body 10, when the patient grips the mouthpiece main body 10 and bites it, it is deformed. It can also exhibit the function of preventing this.

In the above-described embodiment, the description has been made on the assumption that the ultrasonic examination of the heart is performed from the esophageal wall using an ultrasonic examination apparatus in which the distal end body 2 is thicker than the insertion section 1. The piece is used not only for the ultrasonic inspection device, but also for inserting other endocavity diagnostic devices, such as an endoscope, into the body cavity as long as the insertion portion needs to be fixed at a predetermined position in the body cavity. be able to. Further, the position where the cut portion is provided in the mouthpiece main body is not limited. However, if the cutout portion is at or near the site where the patient's teeth touch, the mouthpiece main body becomes stable when the insertion portion is pushed or pulled out. . Of course, the formation position of the cut portion is not limited to the position shown in the figure, and may be on the far side or the near side. In addition, the elastic ring is exposed to the outside at the upper and lower positions in the mouthpiece body, that is, at the site where the patient's teeth touch, but cuts are formed at the left and right sites to expose the elastic ring to the outside. May be. Furthermore, only one cut portion may be provided. In this case, the insertion portion is fixed so as to be pressed against the inner wall of the mouthpiece body by the elastic ring located at the cut portion.

[0023]

As described above, according to the present invention, the notch is provided in the mouthpiece body, the elastic ring is provided in the notch, and the width of the insertion passage is smaller than the outer diameter of the insertion portion. As described above, the passage opening is elastically restricted, so that the insertion portion can be fixedly held at a predetermined position in a state where the insertion portion is guided into the body cavity. And so on.

[Brief description of the drawings]

FIG. 1 is an external view of an insertion section of a multi-plane ultrasonic inspection apparatus as an example of a body cavity diagnostic apparatus inserted into a mouthpiece.

FIG. 2 is an external view showing an example of a mouthpiece main body in a state where an elastic ring is separated.

FIG. 3 is a sectional view taken along line XX of FIG. 2 in a state where an insertion portion is inserted.

FIG. 4 is a sectional view taken along line YY of FIG. 3 in a state where an insertion portion is inserted.

FIG. 5 is a sectional view taken along the line ZZ of FIG. 3 in a state where the insertion portion is inserted.

FIG. 6 is a sectional view similar to FIG. 4, showing a modification of the elastic ring.

FIG. 7 is an explanatory diagram showing the operation of ultrasonic scanning.

FIG. 8 is an explanatory diagram of a configuration of a guide cylinder that guides an insertion portion with a mouthpiece main body.

FIG. 9 is an operation explanatory view showing a state in which the insertion portion is clamped by an elastic ring in a state where the guide cylinder is incorporated in the mouthpiece main body.

FIG. 10 is an operation explanatory view showing a state in which the guide cylinder is incorporated in the mouthpiece main body and the elastic ring does not clamp the insertion portion.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Insertion part 2 Front-end | tip main body 10 Mouthpiece main body 11 Insertion path 12 Notch part 13,13 'Elastic ring 20 Guide cylinder 21 Notch

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hisashi Nakamura 1385-1 Shimoishigami, Otawara-shi, Tochigi Nishi Plant, Toshigi (72) Inventor Yasutaka Nagai 1385-1 Shimoishigami, Otawara-shi, Tochigi Toshiba, Inc. (56) References JP-A-61-255629 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) A61B 1/00-1/32

Claims (5)

(57) [Claims] 1. A formed in a substantially tubular shape, has a mouthpiece body provided with an insertion path for inserting the insertion portion of the body cavity diagnostic apparatus, provided with a notch at least one location in the mouthpiece body, the mouse Attach an elastic ring to the outer surface of the piece body,
The elastic ring faces the insertion passage from the notch.
Then, the opening of the insertion passage is
Not less than the outer diameter of the insertion portion, when the insertion portion is inserted into the insertion passage, the elasticity
A mouthpiece for medical use, characterized in that the ring is always in elastic contact with the outer surface of the insertion section . 2. The medical mouthpiece according to claim 1, wherein the elastic ring has a rectangular or V-shaped cross section. 3. The notch of the mouthpiece body is provided with a notch.
The elastic ring is provided on both the left and right sides,
It faces into the insertion passage from the notch, and this insertion passage
The distance between the elastic rings at the position is smaller than the diameter of the insertion portion.
The medical treatment according to claim 1, characterized in that the medical treatment is performed.
For mouthpiece. 4. The insertion passage has a substantially elliptical shape and is horizontally long.
It is installed on the left and right sides of the
The cutout is the smallest diameter of the mouthpiece body.
Part or in the vicinity thereof.
The medical mouthpiece according to claim 3. The method according to claim 5, wherein the mouthpiece body, an insertion guide member for expansion so that the wider than the outer diameter of the elastic ring insertion portion when inserting the insertion portion into the insertion path
Insertion is possible and the elastic ring
A notch that allows the passage of
By rotating the material, the elastic ring
A state in which it is located inside the
Expand the elastic ring so that it does not contact the insertion part
2. The medical mouthpiece according to claim 1, wherein the medical mouthpiece is displaceable.