KR870001055B1 - Image observing apparatus - Google Patents

Abstract

This invention is concerned with the device which observes the pictures for the region filled with apaque liquid by using the image fiber, the fiber of illumination and the path of transparent liquid. As the image fiber is operated together with the fiber for illumination and path of transparent liquid, in order to equally operate with a conventional fiber scope, in order it is possible to diminish the external radius and to insert easily into the observed body, and to insert the slander pipe conduit.

Description

Image observation device

1 is a schematic diagram showing an example of a conventional fiberscooff in which an image fiber, an illumination fiber, and a transparent fluid passage are integrally combined.

2 is a cross-sectional view taken along line A-A of the fibersco-off of FIG.

3 is a view showing a case of observing the right heart of the human body by the apparatus of the present invention.

4 is a view showing a case of observing the left heart of the human body by the apparatus of the present invention.

5 is a view showing a case of observing the relative vein near the border with the right heart of the human body by the apparatus of the present invention

6 is a sectional view of the fibersco off with transparent ballun

7 is a view showing an expanded state of the ballun of the fibersco-off of FIG.

* Explanation of symbols for main parts of the drawings

18: transparent fluid passage 22: image fiber

23: lighting fiber

The present invention relates to an image observation apparatus using an image fiber, and more particularly, to an apparatus for performing image observation in an area filled with an opaque liquid using an image fiber, an illumination fiber, and a transparent fluid passage.

It is known to carry out image observation of an area filled with an opaque liquid using an image fiber. In order to observe the area filled with the opaque liquid, a means for excluding the opaque liquid and an illuminating means are required together with the image transmitting means. For example, Japanese Patent Application No. 57-219749 according to the inventor of the present invention, which uses fiberscooff as shown in FIG. 1, is used to image the blood vessels and the inner wall of a living body filled with blood. 59-111252). 2 is a cross-sectional view taken along line A-A of FIG. A fiber bundle 2 composed of an image fiber 3 for transmitting an image of the viewing area and an illumination fiber 4 for transmitting illumination light to the viewing area is accommodated inside the covering tube 6, and the covering tube ( A transparent fluid passage 5 is formed in the gap between 6) and the fiber bundle 2. The distal end of the image fiber 3 may be provided with an optical system for forming an observation object. At the time of observation, the fiberscooff 1 is inserted into the blood vessel to reach a predetermined observation area. Next, a transparent fluid such as physiological saline is ejected from the fiberscooff distal end to the observation area through the transparent fluid passage 5 to remove blood to form a transparent area, and at the same time, the light transmitted through the illumination fiber 4 Can be irradiated to the observation area, and the image of the observation area can be transmitted to the image observation portion (not shown) at the end of the image fiber through the image fiber 3 for image observation.

However, in the conventional cosmetic observation method, it is necessary that the transparent fluid passage has a cross-sectional area capable of passing a transparent fluid flow sufficient to satisfy the formation of the transparent area by excluding the opaque liquid of the observation area, and also for illumination. Fibers and image fibers must have the capacity to transmit a predetermined amount of illumination light and observation image, and it is difficult to reduce the outer diameter of the fiberscooff which is a combination of these transparent fluid channels, image fibers and illumination fibers to some extent. did.

Therefore, for example, when the inside of a blood vessel is to be observed, the blood vessel that can be observed by inserting the fiber scooff is limited to a part having a large thickness, and the range of observable objects is limited.

Therefore, it has been desired to develop a method for observing an area filled with an opaque liquid over a wide range of objects, including the case of insertion into the living blood vessel and observation.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional circumstances, and uses an image fiber, an illumination fiber, an opaque fluid passage, and an image that enables observation of an area filled with an opaque liquid over a wide range of objects including a narrow passage. It is an object to provide an observation device.

In the apparatus for observing the observation area filled with the transparent liquid according to the present invention using the image fiber, the illumination fiber and the transparent liquid passage, the three characters of the image fiber, the illumination fiber and the transparent fluid passage are non-integral and plural. Formed as separate structures, the plurality of components are inserted into the object to be observed to reach the same viewing area through different paths, and the image fiber, lighting fiber, and transparent fluid passage included in the plurality of structures in the viewing area are formed. Image observation is performed in cooperation.

As a result, each component to be inserted into the object can be easily inserted into the object because the outer diameter can be reduced compared to the conventional fiberscooff in which the image fiber, the illumination fiber and the transparent fluid passage are integrally combined. In addition, image observation of an area filled with an opaque liquid is possible over a wide range of objects including a narrow pipeline.

EMBODIMENT OF THE INVENTION Below, with reference to drawings, preferred embodiment of this invention is described. 3 shows a case of observing the right heart of the human body. A structure 17 in which the image fiber and the illumination fiber are integrally inserted from the inferior vena cava 16 toward the right atrium 15, while the transparent fluid passage 18 is directed through the relative vein 11 toward the right atrium 15. The structure 17 and the transparent fluid passage 18 reach a predetermined observation portion in the right atrium 15, where the transparent fluid is ejected through the transparent fluid passage 18 to remove blood to form a transparent region. . At the same time, the illumination light is emitted from the illumination fiber included in the structure 17, and the light from the observation target portion is received as an image fiber, and transmitted to an image observation device (not shown) installed at the other end of the image fiber to perform image observation of the observation portion. Do it.

In this embodiment, the insertion paths between the structure 17 and the transparent fluid passage 18 may be reversed and inserted from the relative vein 11 and the inferior vena cava 16, respectively. In the present embodiment, the transparent fluid passage 18 is used as an independent structure by combining the image fiber and the illumination fiber to form the structure 17, but the combination can be arbitrarily changed. For example, the image fiber and the transparent fluid path may be combined into one component, and the lighting fiber may be an independent component, or the lighting fiber and the transparent fluid path may be combined into one component and the image fiber may be an independent component. It is also possible.

4 shows the case of observing the left ventricle of the human body. A structure 17 integrating the image fiber and the illumination fiber is inserted from the brachial artery 19 toward the left ventricle 20, while the transparent fluid passage 18 is inserted from the femoral artery 21 toward the left ventricle 20. do. The structure 17 and the transparent fluid passage 18 reach a predetermined observation portion in the left ventricle, and image observation of the observation portion can be performed as in the case of the right atrial observation described above.

5 shows a case where the relative vein 11 near the boundary with the right heart atrium 15 of the human body is observed. In this case, the image fiber 22, the illumination fiber 23, and the transparent fluid passage 18 are used as independent structures. The image fiber 22 is inserted from the chuck side vein 24 of the arm toward the relative vein 11, the illumination fiber 23 is inserted from the neck vein 25 toward the relative vein 11, and the transparent fluid. The passage 18 is inserted from the inferior vena cava 16 through the right atrium 15 toward the relative vein 11. In this way, the image fiber 22, the illumination fiber 23, and the transparent fluid passage 18, which have reached the predetermined observation portion of the relative vein, can cooperate with each other in the same manner as described above to perform image observation of the observation portion.

In each of the above cases, each component to be inserted into the blood vessel is easier to insert because the outer diameter is smaller than that of the conventional fiberscooff, which is a combination of the image fiber, the illumination fiber, and the transparent fluid passage. Is also reduced.

Fig. 6 shows an axial cross-sectional view of the distal end portion of an example of a fiberscooff with a transparent ballun proposed in Japanese Utility Model Registration Application No. 57-188288 by the present inventor.

Denoted at 30 is an image fiber, 31 is a lens mounted at the tip of the image fiber, 32 is a transparent fluid passage, and 33 is a transparent ballun. In this figure, illustration of illumination fiberscooff is omitted. After the fiberscooff is inserted into the object to be observed and reaches the viewing area, the transparent fluid is ejected through the transparent fluid passage. As a result, as shown in FIG. 7, the transparent balun is expanded by the transparent fluid to form a transparent area, and through this transparent area, image observation of the observation area can be performed. By attaching this transparent ballun, the transparent fluid is not continuously ejected during the observation, and only a single ejection of a limited amount of the transparent substance can reliably and continuously exclude the opaque liquid in the observation area. At the same time, when the observation target is a human body, it is possible to prevent the adverse effects on the human body by the injection of a clear liquid.

Also in the apparatus used in the image observation method of the present invention, when the structure is used in which the image fiber and the transparent fluid passage are integrated, the transparent fluid outlet and the image fiber tip are placed at the tip of the structure as shown in FIG. By enveloping and attaching a transparent ballun, the above effects can be achieved. In this case, the illumination light is also projected from the outside of the transparent ballun by the illumination fiber.

Although some embodiments have been described above, the present invention is not limited to the above embodiments, and can be widely used in medical and industrial fields as an image observation method using the apparatus using an image fiber.

As described above, in the method for image observation of an observation area filled with an opaque liquid by using the image fiber, the illumination fiber and the transparent fluid passage according to the present invention, the three elements of the image fiber, the illumination fiber and the transparent fluid passage are not integrally combined. Instead, it is formed as three separate structures composed of each of the three characters alone, or formed as two separate structures of a structure in which any two of the three characters are combined with the other structure alone, and these structures are formed. It is inserted into the object to be reached through the different paths to reach the same observation area, and image observation is performed by cooperating the image fiber, the illumination fiber and the transparent fluid path included in the two or three components in the observation area. As a result, the outer diameter of each component can be reduced compared to the fiberscooff in which the image fiber, the illumination fiber, and the transparent fluid path are integrally combined, thereby making it easier to insert into the object to be observed and a thinner pipe. It is also possible to insert the inside. Therefore, it exhibits the same function as fiberscooff, which is a combination of a conventional image fiber, an illumination fiber, and a transparent fluid passage, and enables observation of an area filled with an opaque liquid over a wider range of objects including a narrow pipeline. The image observation method by the apparatus of this invention to be obtained is obtained.

Claims (6)

10. An image observation apparatus having an image fiber for transmitting an image of an observation area, an illumination fiber for transmitting irradiation light to an observation area, and a transparent fluid passage for forming a transparent area adjacent to the observation area. And at least one of the illumination fiber and the transparent fluid passage are separated from the other to form a plurality of structures. The image observation device according to claim 1, wherein the plurality of structures are a structure consisting of an image fiber and an illumination fiber, and a structure consisting only of a transparent fluid passage. The image observation device according to claim 1, wherein the plurality of structures are a structure consisting of an illumination fiber and a transparent fluid passage and a structure consisting of only an image fiber. The image observation device according to claim 1, wherein the plurality of structures are a structure consisting of an image fiber and a transparent fluid passage, and a structure consisting of only an illumination fiber. 5. An image observation apparatus according to claim 4, wherein a transparent ballun is placed at the front end of the structure composed of the image fiber and the transparent fluid passage and surrounds the front end of the image fiber. The image observation device according to claim 1, wherein the plurality of structures are a structure consisting of only an image fiber, a structure consisting only of an illumination fiber, and a structure consisting only of a transparent fluid passage.

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