JP2599216B2 - Endoscopic catheter - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an endoscopic catheter for observing or treating the inside of a blood vessel or the digestive tract, and more particularly, to freely changing the direction of a catheter tip. The present invention relates to a device having a bendable mechanism and a reduced diameter.

2. Description of the Related Art In recent years, medical endoscope catheters (hereinafter abbreviated as endoscopes) have made remarkable developments, and have played a major role in the diagnosis and treatment of diseases particularly in the gastrointestinal tract and intravascular space. It has become to.

Especially when performing the observation or treatment by inserting the endoscope into a tubule such as a blood vessel or a pancreatic duct, the thinness of the endoscope used and the bending mechanism of the catheter tip so as not to impair the thinness Is required.

Conventionally, as a bending mechanism of a distal end portion provided in the endoscope, for example, a bending mechanism shown in FIGS. 7 and 8 is known. In this bending mechanism, the four wires 3 connected near the head 2 at the distal end of the endoscope body 1 are formed as a pair, and each pair is wound around two drums 4 at right angles to each other. By rotating the nose 5 at hand attached to the drum 4, one side of a pair of wires 3 wound around the drum 4 is pulled, the other side is loosened, and the tip is bent.

The bent portion is pivoted as shown in FIG.
A large number of articulation rings 7 are arranged side by side with the wire 3 interposed therebetween, and the wire 3 is formed through a hole 8 provided in each articulation ring 7. When tension is applied to one side of one set of wires 3, pivoting is performed by the tension. The node ring 7 is inclined by a certain angle with respect to the axis of the endoscope body around the center 6, and the endoscope body 1 is bent along the inclination.

[Problem to be Solved by the Invention] However, in the above-described conventional bending mechanism, since a large number of articulation rings 7 are connected via the pivots 6, the structure is complicated and the whole becomes large in diameter. However, since it is necessary to have an outer diameter of at least φ5 mm, it is difficult to provide this bending mechanism in an ultra-fine endoscope catheter (φ1.0 mm or less) used for intravascular and pancreatic ducts. Was.

The present invention has been made in view of the above circumstances, and has an endoscope having a mechanism capable of easily controlling the direction of the distal end of a catheter by an external operation and having an extremely small diameter so that it can be used for intravascular and pancreatic ducts. It is intended to provide a catheter.

[Means for Solving the Problem] The problem is an endoscope catheter in which at least an image fiber having a restoring force and a light guide are arranged in a catheter tube, and a part of the endoscope catheter is fixed to the image fiber. A plurality of guide rings externally fitted, a traction line secured to the distal end of the image fiber, and extending along the image fiber through the inside of the plurality of guide rings to a rear end of the image fiber; This problem can be solved by providing a configuration in which a distal end bending means is provided on the rear end side of the fiber and includes a pulling knob for entering and leaving the pulling line.

"Operation" In the endoscope catheter of the present invention, a plurality of guide rings partially fixed and externally fitted to the image fiber, fixed to the tip of the image fiber, and along the image fiber A tow line extending through the inside of the plurality of guide rings to the rear end of the image fiber; and a torsion knob provided on the rear end side of the image fiber and having a tow knob for entering and exiting the tow line. Since the tip of the image fiber is bent by pulling the pulling knob, the bent portion is restored in the direct viewing direction by the restoring force of the fiber itself by releasing the pulling, so that the fiber tip is bent. Then, the mechanism for restoring this is simplified, and the endoscope can be made smaller in diameter.

"Embodiment" Figs. 1 to 3 are views showing an embodiment of the present invention, in which reference numeral 10 denotes an endoscope catheter.

The endoscope catheter 10, the image fiber 11,
It comprises a number of light guide fibers 12 and a catheter tube 13 covering these two types of fibers.

Since the catheter tube 13 is used by being inserted into a body such as a blood vessel or a pancreatic duct, the catheter tube 13 is formed of a material that is highly safe for a living body such as a fluororesin, urethane, or silicone. Rich and bendable. Two kinds of fibers, an image fiber 11 and a light guide fiber 12, are inserted into the catheter tube 13.

The body 14 of the image fiber 11 is provided with a tip bending mechanism. The fiber constituting the image fiber main body 14 is a fiber in which a large number of quartz fibers are bundled and fused and integrated, and the surface thereof is covered with a thin plastic tube 15. An objective lens 16 is provided at the tip of the fiber. An observation monitor TV 17 is connected to the rear end of the image fiber main body 14.

The tip bending mechanism is made of plastic, for example, 3
It comprises one guide ring 18, a traction line 19, a holding thread 20, and a traction knob 21. The three guide rings 18 are separated from each other in the vicinity of the distal end of the image fiber main body 14, and a part of the three guide rings 18 is fixed to the image fiber main body 14 so as to be fitted to the outside. Further, one end of the traction line 19 is fixed to the distal end of the image fiber main body 14, extends through the three guide rings 18 along the image fiber main body 14, and extends to the rear end of the image fiber main body 14. The traction line 19 is connected to the guide ring 18 of the image fiber body 14.
Is held by the holding thread 20 in such a manner as to be slidable on the side peripheral surface on the rear end side from the bonding portion of the. The other end of the towing line 19 is provided with a towing knob 21 for pulling the line toward the rear end or releasing the pulling. The light guide fiber 12 guides the light from the light source 22 provided at the rear end to the front end side by using a number of fibers, and irradiates the light to the observation portion.

As described above, the endoscope catheter 10 of the present embodiment is
An image fiber 11 provided with a distal-end bending mechanism and a light guide fiber 12 are covered with a catheter tube 13 to be integrated.

To observe the inside of a blood vessel and the like using the endoscope catheter 10 according to this embodiment, first, the light source 22 of the endoscope catheter 10 and the monitor TV 17 are turned on. Thereafter, the endoscope catheter 10 is gradually inserted into the blood vessel from the distal end, and the inside of the blood vessel is observed. At this time, when the distal end of the endoscope catheter 10 is bent, as shown in FIG. 2, one end is attached to the other end of the traction line 19 fixed to the distal end of the endoscope catheter 10. When the retraction knob 21 is pulled in the direction of the arrow, as shown in FIG.
Is bent. Further, thereafter, by opening the traction 21, the bent portion is restored in the direct viewing direction by the restoring force of the fiber itself.

The endoscope catheter 10 according to this embodiment includes three plastic guide rings on the image fiber body 14.
18, a pulling line 19, and a simple tip bending mechanism composed of a holding thread 20 are provided, and the rigidity of the image fiber 11 itself is used for restoring the fiber after bending. The special mechanism is not required, and the diameter of the endoscope catheter 10 can be reduced.

In addition, since the distal end bending mechanism of the endoscope catheter according to the present embodiment is simpler than the distal end bending mechanism of the conventional example, the manufacturing cost of the endoscope catheter 10 can be reduced, and The weight of the mirror can be reduced.

In this embodiment, a circular guide ring is used, but the shape of the guide ring may be any shape as long as the traction line can be moved. For example, FIG. As shown in FIG. 5, a guide ring having a groove portion through which a traction line can be inserted may be used.

In this embodiment, the image fiber and a large number of light guide fibers are bundled and covered with a synthetic resin tube to form a catheter. Alternatively, as shown in FIG. A catheter may be provided by providing a plurality of lumens 23 and inserting the image fiber 11 and the light guide fiber 12 into these lumens.

When providing a catheter tube having a plurality of lumens as described above, in addition to the lumen for the image fiber and the lumen for the light guide fiber, a catheter having various functions including a lumen for drug ejection, a lumen for a balloon, and the like. Can be configured.

"Effects of the Invention" As described above, in the endoscope catheter of the present invention, the image fiber, a plurality of guide rings,
A simple tip bending mechanism composed of towing lines is provided,
Moreover, since the rigidity of the image fiber itself is used for restoring the fiber after bending, a special mechanism for restoring the fiber is not required, and the diameter of the endoscope catheter can be reduced. Thus, it is possible to obtain an ultra-fine diameter endoscope catheter that can be applied to other applications.

[Brief description of the drawings]

1 to 3 are views showing an embodiment of the present invention. FIG. 1 is a schematic view of an endoscope catheter, and FIGS. 2 and 3 are endoscopes shown in FIG. FIGS. 4 and 5 are views for explaining an image fiber provided in the catheter and a method of bending the distal end portion thereof. FIGS. 4 and 5 are views showing a modification of the guide ring in the endoscope catheter shown in FIG. FIG. 6 is a schematic view showing another example of the present invention, and FIG.
FIG. 8 and FIG. 8 are sectional views showing a bending mechanism of a conventional endoscope. 10… Endoscope catheter, 11… Image fiber, 12… Light guide fiber, 18… Guide ring, 19… Train line, 21 …… Twn knob.

 ──────────────────────────────────────────────────続 き Continuation of front page (72) Inventor Kazuo Sanada 1440 Mutsuzaki, Sakura-shi, Chiba Pref. Fujikura Electric Cable Co., Ltd. Sakura Plant (56) References JP-A-1-73312 (JP, A)

Claims (1)

(57) [Claims] 1. An endoscope catheter having an image fiber having at least a restoring force and a light guide disposed in a catheter tube, wherein the image fiber has
A plurality of partially fixed and fitted guide rings, and a traction fixed to a leading end of the image fiber and extending along the image fiber through the inside of the plurality of guide rings to a rear end of the image fiber. An endoscope catheter provided with a distal end bending means comprising a wire and a pulling knob provided on a rear end side of the image fiber to enter and exit the pulling line.