JPS62155865A - Flexible wire body for body insert - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention This invention relates to a flexible linear body for insertion into the body. In addition,
In this specification, the term flexible linear body for insertion into the body is used as a general term for linear objects inserted into the body, such as catheters and guide wires. This includes objects and solid objects such as guide wires.

BACKGROUND ART Conventional techniques and their problems A known catheter is one in which a plurality of steel wires are embedded within the peripheral wall of a vinyl chloride tube whose surface is coated with fluororesin.

Also, stainless steel can be used as a guide wire! It is known that a thin stainless steel wire is wound into a coil around a core material made of 4, and the surface is coated with fluororesin. However, such conventional catheters and guide wires have a fixed shape and therefore have problems in operability. In other words, when inserting a catheter into a blood vessel that branches at multiple points, it is difficult to insert the catheter into the branched blood vessel if the catheter is straight, so the tip of the catheter should be slightly bent. However, even in this case, since the bending direction is constant, it is difficult to reliably insert the catheter into a blood vessel that branches in different directions at a plurality of branch points. The same problem exists when inserting a guidewire before inserting a catheter.

An object of the present invention is to solve the above problems and provide a flexible linear body for insertion into the body with high operability.

Means for Solving the Problems The flexible linear body for insertion into the body according to the present invention has a shape memory alloy embedded in a flexible wire made of synthetic resin, and the operating temperature of the shape memory alloy is within the human body. It is characterized by being slightly higher than body temperature.

The flexible wire includes a hollow tube-like material and a solid rod-like material, and for example, vinyl chloride resin is used.

Effect: By heating the shape memory alloy or leaving the linear body in the body or in the atmosphere, the temperature of the shape memory alloy becomes higher or lower than the operating temperature, and the shape memory disappears after the operating temperature. The shape of the alloy, that is, the linear body changes. Therefore, the shape of the linear body can be changed when it is inserted into the body, resulting in high operability.

Made of shape memory alloy! The lJ temperature should be higher than a person's body temperature, but if it is too high it may have a negative effect on internal tissues. Therefore, the operating temperature is preferably about 37 to 45°C.

Embodiment FIGS. 1 and 2 show an example of a catheter. This catheter (10) is equipped with a hollow flexible wire (11) made of a vinyl chloride tube whose surface is coated with fluororesin, and a plurality of wires (for example, 6) linear shape memory alloys (12) are embedded. The operating temperature of these alloys (12) is 42°C, and after this temperature, alloys (12)
By changing the shape of the catheter (10), the shape, particularly the orientation, of the front end (10a, ) of the catheter (10) changes. Note that Nitinol is known as an example of such a shape memory alloy.

Figures 3 and 4 show one example of a guidewire. This guide wire (20) is a solid flexible wire material (21) made of vinyl chloride whose surface is coated with fluororesin.
A linear shape memory alloy (22) is embedded in almost the entire length of the center of the line t1 (21).

The operating temperature of this alloy (22) is 42°C, and the shape of the alloy (22) changes after this temperature.
The shape, particularly the direction, of the front end (20a) of the guide wire (20) is variable.

When the catheter (10) described above is inserted into a blood vessel, for example, the temperature of the alloy (12) can be adjusted by heating the shape memory alloy (12) or leaving the catheter (10) in the body or in the atmosphere. The distal end (10a) of the catheter (10) is made higher or lower than the operating temperature.
) can be changed. Therefore, the operability of the catheter (10) is extremely high, and even when a blood vessel branches at multiple locations, the catheter can be easily and reliably inserted into a desired blood vessel.

Before inserting the catheter, insert the guide wire (20) above.
Similarly, when inserting a blood vessel, it can be easily and reliably inserted into a desired blood vessel. A conventional catheter can then be easily and reliably inserted along this guide wire (20).

Effects of the Invention According to the flexible linear body for insertion into the body of the present invention, a shape memory alloy is embedded in the flexible wire made of synthetic resin. ll temperature is slightly higher than human body temperature,
By heating the shape memory alloy or leaving the linear body in the body or in the atmosphere, the shape of the linear body can be changed, making it extremely easy to operate.

[Brief explanation of drawings]

FIG. 1 is a vertical cross-sectional view of a catheter showing an embodiment of the present invention, with the middle omitted. FIG. 2 is a cross-sectional view taken along line A-A in FIG. longitudinal section,
FIG. 4 is a sectional view of FIG. 3-8-Bl. (10)... Catheter, (11) (21)...
Flexible wire rod, (12) (22)...shape memory alloy. that's all

Claims (2)

[Claims] (1) A flexible wire for insertion into the body, characterized in that a shape memory alloy is embedded in a flexible wire made of synthetic resin, and the operating temperature of the shape memory alloy is slightly higher than human body temperature. (2) The flexible linear body for insertion into the body according to claim 1, wherein the operating temperature of the shape memory alloy is 37 to 45°C.