JP2010264024A - Catheter for sampling blood or the like - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a catheter for sampling blood which has a distal end hardly collapsed even when the inside of the catheter has a negative pressure caused by sucking blood. <P>SOLUTION: The catheter 10 includes a cylindrical catheter body 11 and a connector 12 provided at the proximal end. The catheter body 11 includes a distal end portion 13 for suctioning blood, a proximal end portion 14 connected to the connector, and a body portion 15 which connects them and has a diameter gradually reduced toward the distal end. The distal end portion 13 has a notch 16 at the distal end and a marker portion 17 in the vicinity of the cut part. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a catheter for collecting blood or the like.

  Conventionally, a catheter for collecting blood, bone marrow, lymph, or the like, or for injecting a drug solution or the like into the body is known. These catheters are inserted into blood vessels, for example, and connect the outside of the body with the inside of the body. On the other hand, blood vessels have various shapes, and catheters adapted to the shapes are known.

Patent Document 1 discloses a catheter having a notch at the tip. Even when the tip of the catheter is in close contact with the inner wall surface of a blood vessel or the like, the inside and outside of the catheter can be communicated with each other through a notch.
Patent Document 2 discloses a catheter having a curved concave portion at the tip. This can also prevent clogging of the tip opening.

Japanese Patent Laying-Open No. 2005-169012 Utility Model Registration No. 3109974

However, blood is collected with a suction device such as a syringe connected to the proximal end side of the catheter, and the inside of the catheter is decompressed. Therefore, the flexible catheter may be deformed by the negative pressure. In particular, in blood collection at the intersection of the T-shaped blood vessels of the right adrenal gland, the catheter end is close to the blood vessel wall, so that a negative pressure is easily applied to the catheter during suction, and the catheter has a notch or the like on the distal end side. In this case, there is a risk of deformation starting from the base end portion of the notch having low strength and closing the distal end opening. In order to prevent this, it is conceivable to increase the strength of the distal end opening of the catheter, but in that case, there is a risk of damaging a blood vessel or the like at the distal end.
An object of the present invention is to provide a catheter for collecting blood or the like whose tip is not easily crushed even when the pressure inside the catheter becomes negative due to blood suction.

  The catheter for collecting blood or the like of the present invention comprises a linear catheter body having a distal end portion and a connector portion provided at the proximal end thereof, and the catheter body is a concave notch formed at the distal end portion. A marker part containing a radiopaque metal provided in the vicinity of the notch at a position close to the base end side from the notch. It is characterized by having.

(1) A catheter for collecting blood or the like according to the present invention comprises a linear catheter body having a distal end portion and a connector portion provided at a proximal end thereof, and the catheter body is formed in a concave shape formed at the distal end portion. Marker part which has one or more notch parts, and contains the radiopaque metal provided in the vicinity of the notch part at the position where the catheter body is closer to the proximal end side than the notch part Therefore, the strength of the portion of the catheter body where the marker portion is provided is high, and accordingly, the strength of the proximal end portion of the notch portion near the marker portion is also improved. Therefore, crushing at the proximal end portion of the notch portion is unlikely to occur during suction.

(2) When the shape of the notch is a substantially circular arc, the base end side portion of the notch has an arch shape and has high strength.
(3) When the number of the notches is two and they are provided so as to face each other with the axis of the catheter body as the center, it is possible to easily collect blood from a blood vessel branched in a T shape.

(4) When the marker portion is provided in a substantially annular shape as a schematic shape on the outer peripheral surface of the catheter body, the marker portion is provided in an annular shape, thereby further preventing crushing in the notch portion.
(5) When the marker portion is provided so that the side opening direction of the notch portion can be understood, when the catheter is inserted into the blood vessel while being seen through with X-ray or other radiation, The side opening of the notch can be adjusted to the blood flow, and blood can be collected without blocking the blood vessel.

It is a side view which shows a part of one Embodiment of the catheter of this invention. 2a is a side view showing a part of the catheter body of FIG. 1, and FIG. 2b is a partially enlarged view showing a part thereof. 2c is a schematic partial enlarged perspective view of the distal end portion of the catheter body of the catheter of FIG. FIG. 3 is a partially enlarged side view showing a part of the manufacturing process of the catheter body of FIG. 4a and 4b are schematic views when the catheter of the present invention is placed in a blood vessel. 5a, b, c, and d are partially enlarged side views showing a part of another embodiment of the catheter of the present invention.

  A catheter 10 in FIG. 1 includes a tubular catheter body 11 and a connector 12 provided at the proximal end thereof. The catheter body 11 includes a distal end portion 13, a proximal end portion 14, and a trunk portion 15.

  As shown in FIG. 2b, the distal end portion 13 of the catheter body 11 includes two notch portions 16 provided in the opening of the distal end, and a position near the proximal end side from the notch portion. And a marker portion 17 provided in the vicinity. In FIG. 2b, the distal end portion 13 is provided with a plurality of cutout portions 16, but the cutout portion 16 is provided even when the distal end opening of the catheter body approaches the vicinity of the blood vessel wall or is blocked by a foreign object or the like. Since one or more are provided, blood can be sucked from the opening of the notch. The catheter body 11 is molded from a synthetic resin such as nylon, urethane, or an elastomer thereof. Moreover, although it changes with blood vessels etc. which insert a catheter, the diameter and thickness of the front-end | tip part 13 can be designed in a well-known numerical range. In particular, when inserted into a blood vessel of the adrenal gland, the thickness can be 0.3 to 1.0 mm, and the thickness of the distal end portion 13 can be 0.05 to 0.30 mm.

  The two notches 16 are provided so as to face each other by 180 degrees around the axis of the catheter body as shown in FIG. 2c. Therefore, a straight line (not shown) that connects the two notches 16 substantially passes through the center of the cross section of the catheter body. Even if the tip of the catheter body is in contact with or just before contact with the side wall of the blood vessel, blood passes through the two notches 16 and flows into the catheter body, so that the catheter body sucks the blood vessel wall. The blood can be sucked without damaging the tissue. A suction device is connected to the proximal end side of the catheter body to perform suction, and the notch 16 that facilitates blood suction is formed in the right adrenal T-shaped blood vessel in the catheter 10 of FIG. In order to facilitate blood aspiration, two notches 16 are provided, and when used for other purposes, there may be three or four or more if there are a plurality.

The shape of the notch 16 is a substantially circular arc from the distal end of the catheter body 11. Therefore, the base end portion of the notch portion 16 does not have an acute apex portion, and kinks in the axial direction of the catheter body are unlikely to occur.
The radius of the arc of the notch 16 is appropriately set according to the application in order to form an opening that can obtain a desired suction amount, but blood sampling in a T-shaped blood vessel in the adrenal gland When used in the above, it is preferable that the radius of the arc of the notch 16 is 0.2 to 0.7 mm.

In FIG. 2B, the marker portion 17 is provided in an annular shape at a position slightly closer to the base end side (right side in the drawing) from the notch portion 16. The marker part 17 may be contained as a single metal or as a metal compound as long as it contains a radiopaque metal, or may be kneaded in a resin as a powder, It may be formed as a molded body. The marker portion 17 can be formed by a known method. For example, a coil, a ring, a tube, or a thin plate of metal or alloy such as Au, Pt, Ir—Pt, Pt—Ir, Pt—W, Pt—Ni, etc. Can be formed by embedding in the catheter body. The marker portion 17 is a resin obtained by kneading a metal compound containing a radiopaque metal such as W or a radiopaque metal such as BaSo ₄ or Bi ₂ O ₃ as a powder in the resin. It can also be formed as a compound material. Thus, since the marker portion 17 is formed with a portion including metal in the circumferential direction of the catheter body, the strength of the portion, the strength of the proximal end portion of the adjacent notch portion, that is, the strength of the entire distal end portion is increased. Increase. Therefore, when blood is collected by suction as described above, the distal end portion 13 is not easily deformed or crushed, and in particular, a cross section of a coil, ring, tube, or the like formed of a metal or alloy of a radiopaque metal is used. When a substantially circular molded body is used for the marker portion 17, it is easier to prevent the catheter body from being deformed or crushed by the function of maintaining the shape of the molded body itself.

  The marker portion 17 is tangent to the proximal end portion of the notch portion 16 so as to prevent deformation or crushing of the vicinity of the distal end of the catheter body due to suction depending on the size, thickness, and use of the distal end portion of the catheter body. It is appropriately provided at a distance from (imaginary line in FIG. 2b). For example, when the catheter 1 is used for a T-shaped blood vessel of the right adrenal gland, the distance between the marker portion 17 and the tangent (the imaginary line in FIG. 2b) of the proximal end portion of the cutout portion 16 is 0.2-2. It can be provided to be 0 mm.

  In addition, the width of the marker portion 17 is appropriately provided depending on the size and width of the diameter of the distal end portion of the catheter body, and can prevent deformation or collapse of the vicinity of the distal end of the catheter body due to suction. The width may be provided. For example, when the catheter 1 is used for a T-shaped blood vessel of the right adrenal gland, it can be provided with a width of 0.3 to 2.0 mm. The trunk portion 15 includes a plurality of slope portions 15a that reduce in diameter from the proximal end side toward the distal end side, and gradually decreases in diameter from the proximal end portion 14 toward the distal end portion 13. 15 may be one whose diameter is reduced in a tapered shape as a whole.

  The distal end portion of the catheter body 11 is not particularly limited as long as the marker portion is formed and the cutout portion is formed as a cutout shape. For example, first, the catheter body 11 is formed by extrusion molding or the like from the above-described synthetic resin, and then, as shown in FIG. 3, a metal or alloy ring of an X-ray-impermeable metal is placed at a predetermined position of the catheter body. A coil is embedded and formed. Thereafter, the notch portion may be formed by cutting or cutting the tip portion with a sharp blade, or the hole 18 is formed using a drill or the like, and the shape of the notch portion 16 is formed by a cutting jig. May be cut (imaginary line in FIG. 3) so that becomes an arc.

  A connector 12 is connected to the proximal end of the catheter body, and the connector 12 includes a connector body 21 and a cover 22 as shown in FIG. A suction tool such as a syringe can be connected to the connector 12 directly or indirectly. In addition, a catheter main body and a connector can be used by a well-known method using a synthetic resin.

  As shown in FIGS. 4A and 4B, the catheter 10 is used for collecting blood in a blood vessel Y that branches into a T-shape of the right adrenal gland, for example. While blood flows as shown by the arrow in FIG. 4a, the catheter 10 in which the two notches 16 are formed to face each other by 180 degrees about the axis is formed from the blood vessel corresponding to the T-shaped vertical straight portion to the distal end portion. Is inserted into the T-shaped intersection, and the blood flow in the blood vessel corresponding to the T-shaped horizontal straight line and the straight line connecting the two notches 16 are arranged and used in parallel. Thereby, the blood of the T-shaped part of the adrenal gland can be sucked and collected without damaging the tissue such as the blood vessel wall. At this time, as shown in FIG. 4b, since the marker portion 17 is provided in the vicinity of the notch portion 16 and slightly proximally from the notch portion, the marker portion 17 recognizes the distal end of the catheter 10. In addition, the strength of holding the lumen of the base end portion of the notch 16 is increased, and the distal end portion 13 can be prevented from being crushed or deformed when blood is sucked. In addition, the catheter 10 can easily check for reverse blood, particularly vein reverse blood. For example, when the catheter 10 is inserted into a T-shaped vein of the right adrenal gland from a T-shaped vertical straight portion and the tip of the catheter approaches a T-shaped intersection, the blood flow in the T-shaped horizontal straight portion Although negative pressure is generated in the lumen at the distal end of the catheter, the marker lumen can prevent the catheter lumen from being crushed. When the tip of the catheter reaches the vicinity of the blood vessel wall at the end of the T-shaped intersection, venous blood is cut into the catheter 10 in which the lumen is maintained by the blood flow of the T-shaped horizontal straight portion. Since it flows in from the notch part 16, the reverse blood of venous blood can be confirmed easily.

5A to 5D show patterns (patterns) of the marker portions 41a to 41d provided so that the side opening direction of the cutout portion can be understood.
The marker portion 41a shown in FIG. 5a includes a mark main body 42 provided in a substantially annular shape on the outer peripheral surface of the catheter main body, and two disconnecting portions 43 that cut the ring of the mark main body parallel to the axis of the catheter main body. The notches 16 are positioned on the extensions in the distal direction in the axial direction of the catheter from the disconnection 43. That is, the two disconnection portions 43 are formed in the same radial direction from the notch 16 and the catheter axis. Depending on the X-irradiation direction, the disconnection portion 43 may be provided at a position rotated 90 degrees from the notch with the axis of the catheter body as the axis.
Thus, since the pattern of the marker portion 17 is configured so that the disconnection portion corresponds to the notch, the direction of the blood vessel and the two disconnection portions 43 are confirmed while confirming with radiation even when the catheter is inserted into the body. By matching, the opening direction of the notch can be easily adjusted to the blood vessel direction to be a position suitable for suction. Moreover, the marker part 41b of FIG. 5b makes the disconnection part 43 thin. By narrowing the disconnection part 43, the area of the part containing the radiopaque metal is increased and the strength is increased. On the other hand, it becomes easy to confirm if the disconnection part 43 is widened.

  The marker part 41c of FIG. 5c is provided with a bridge 44 at the disconnection part. Since the pattern bridge 44 is provided with the disconnection portion and two between the disconnection portions, the strength of the marker portion 41c is relatively higher than the marker portions 41a and 41b provided with only the disconnection portion. However, if the bridge 44 can be distinguished from the mark main body 42 and a pattern is formed in the marker portion and the side surface opening direction of the cutout portion can be confirmed, the bridge 44 does not need to have a bridge shape and is not particularly limited.

  The marker part 41d of FIG. 5d consists of two linear mark main bodies 42 provided substantially parallel to the axis of the catheter main body. In this case, the overall strength of the marker portion is lowered, but crushing starting from the base end portion of the notch portion 16 can be efficiently prevented.

DESCRIPTION OF SYMBOLS 10 Catheter 11 Catheter main body 12 Connector 13 Tip part 14 Base end part 15 Body part 15a Slope part 16 Notch part 17 Marker part 18 Hole 21 Connector main body 22 Cover Y Blood vessel 41a, b, c, d, Marker part 42 Mark main body 43 Disconnection 44 Bridge

Claims (5)

A linear catheter body having a tip;
It consists of a connector part provided at the base end,
The catheter body has one or more concave notches formed at the distal end, and the catheter body is located near the notch at a position close to the proximal end from the notches. Having a marker part containing a radiopaque metal provided,
A catheter for blood collection. The catheter according to claim 1, wherein the shape of the notch is a substantially arc. The catheter according to claim 1, wherein the number of the notches is two and is provided so as to face each other about the axis of the catheter body. The catheter according to any one of claims 1 to 3, wherein the marker portion is provided in a substantially annular shape as a schematic shape on the outer peripheral surface of the catheter body. The catheter according to any one of claims 1 to 4, wherein the marker portion has a pattern in which a side opening direction of the cutout portion can be recognized.