JP6855028B1 - Intravenous injection kit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a needle to be inserted into a blood vessel of a patient without mistake. SOLUTION: The drip injection kit 1 in the present invention is provided with a needle 3 for inserting into a blood vessel K and an outer cylinder 2 for covering the needle 3. The drip injection kit 1 is further provided with a blood detection sensor 5 (detection means) for detecting the puncture state in which the needle 3 is punctured into the blood vessel K together with the outer cylinder 2. [Selection diagram] Fig. 2

Description

The present invention relates to a drip injection kit to be used when performing infusion.

Conventionally, a technique for detecting abnormalities such as leakage of a drug solution, needle removal, or tube disconnection has been known for the purpose of reducing the burden on the patient when infusing the patient in a hospital or the like (for example, a patent). See Reference 1.).

In the conventional technique, when a nurse or the like inserts a drip needle into a patient's blood vessel, the person's skill level is not high, so that the drip needle cannot be smoothly inserted into the blood vessel and the work is repeated many times. In some cases, the patient suffered from redoing the procedure.
And such a problem could not be solved even by using the technique of Patent Document 1 and the like.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an infusion kit capable of inserting a needle into a patient's blood vessel without mistake.

The drip injection kit according to the present invention includes a needle for puncturing a blood vessel, an outer cylinder covering the needle, and a detecting means for detecting a puncture state in which the needle is punctured into the blood vessel together with the outer cylinder. Eh, the needle is formed with a hollow portion that opens at the tip of the needle in the insertion direction, and the detection means is installed at the tip of the needle in the insertion direction so as to close the opening. ..

According to the present invention, it is possible to provide an infusion kit capable of inserting a needle into a patient's blood vessel without mistake.

It is an overall block diagram which shows the drip system in embodiment of this invention. It is a figure which shows the main part of the drip injection kit. It is a figure which shows the operation of setting a drip injection kit on a human body. It is a figure which shows the main part of the drip injection kit as a modification 1. It is a figure which shows the main part of the drip injection kit as a modification 2. It is a graph which shows an example of the signal change of the pressure sensor installed in the drip injection kit as the modification 3. It is a figure which shows the main part of the blood vessel injection kit as a modification 4.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. In each figure, the same or corresponding parts are designated by the same reference numerals, and the duplicated description thereof will be appropriately simplified or omitted.

First, FIG. 1 describes the overall configuration and operation of the drip system 50.
As shown in FIG. 1, the drip system 50 mainly includes a drip bag 20, a drip line 10, a drip injection kit 1, and the like.

The drip bag 20 contains a drip (infusion solution) for administration to the human body M (patient). When the drip in the drip bag 20 runs out, it is replaced with a new drip bag 20.

The drip line 10 is for transferring the drip in the drip bag 20 toward the drip injection kit 1. The drip line 10 is mainly composed of a drip tube 11, a clamp 12, a drip tube 13, and the like.
The drip tube 11 is a resin tube that relays the drip bag 20 and the drip injection kit 1, and the drip flows inside the tube.
The clamp 12 is formed so that the amount of crushing the drip tube 11 can be increased or decreased, and is for adjusting the speed of drip (drip dose per unit time) through the drip tube 11.
The drip tube 13 is for visually confirming the drip speed adjusted by the clamp 12. Specifically, the faster the speed of the drip falling into the drip tube 13, the faster the speed of the drip passing through the drip tube 11.

The drip injection kit 1 shown in FIG. 1 is an outer cylinder 2 (indwelling needle) after the needle 3 (inner cylinder, see FIG. 2) described later is removed, and is the drip line 10 (drip tube) described above. 11) is connected. The outer cylinder 2 is inserted into a blood vessel K (a vein, see FIG. 3) of the human body M.
With the drip system 50 configured in this way, the drip is administered to the human body M (patient).

Hereinafter, the configuration and operation of the drip injection kit 1, which is characteristic of the present embodiment, will be described in detail with reference to FIGS. 2, 3 and the like.
As shown in FIG. 2, the drip injection kit 1 is provided with a needle 3 (inner cylinder) for inserting into the blood vessel K (see FIG. 3) and an outer cylinder 2 (indwelling needle) for covering the needle 3. ing.

The needle 3 (inner cylinder) is made of a metal material, and the tip (the tip in the insertion direction, which is the left end in FIG. 2A) is sharply formed. Further, the needle 3 is held by the needle cap 8 (see FIG. 3). The needle 3 is for inserting the outer cylinder 2 into the blood vessel K, and is taken out from the blood vessel K (drip injection kit 1) after the outer cylinder 2 is inserted into the blood vessel K. As the needle 3, a needle 3 of about 16 to 27 G (gauge) can be used as in the known needle 3.

The outer cylinder 2 (indwelling needle) is made of a flexible resin material, and is formed in a tube shape so that the drip can flow. Further, the outer cylinder 2 is held by the outer cylinder cap 7 (see FIG. 3). The outer cylinder 2 is inserted into the blood vessel K together with the needle 3, and after the needle 3 is pulled out, it is connected to the drip tube 11 (see FIG. 1) via the cap 7 for the outer cylinder, and the human body M is infused during the drip administration. It is to be detained in. As the outer cylinder 2, a cylinder having an inner diameter of about 0.4 to 1.7 mm and an outer diameter of about 0.7 to 2.1 mm can be used as in the known one.

Here, as shown in FIGS. 2 and 3, the drip injection kit 1 in the present embodiment includes a detection means for detecting a puncture state in which the needle 3 (inner cylinder) is inserted into the blood vessel K together with the outer cylinder 2. The blood detection sensor 5 is provided.
Specifically, the blood detection sensor 5 (detection means) detects blood in the blood vessel K and is installed at the tip of the needle 3 in the insertion direction (the left end of FIG. 2A). There is. Since the tip position of the needle 3 substantially coincides with the tip position of the outer cylinder 2, the state in which the needle 3 is inserted into the blood vessel K together with the outer cylinder 2 by the blood detection sensor 5 installed at the tip position of the needle 3 It will be detected.

As such a blood detection sensor 5, a sensor that detects blood in the blood vessel K based on the flow rate (flow rate or vibration) of the blood in the blood vessel K can be used.
In that case, in the blood detection sensor 5, the needle 3 is not inserted into the human body M as shown in FIG. 3 (A), or the needle 3 is inserted into the skin S as shown in FIG. 3 (B). At this time, the needle 3 (and the outer cylinder 2) is not inserted into the blood vessel K (non-punctured state) by the off signal output at that time without detecting the blood flow. Then, as shown in FIG. 3C, the blood detection sensor 5 detects the blood flow when the needle 3 is inserted into the blood vessel K, and the needle 3 (and the outer cylinder) is output by the on-signal output at that time. It is grasped that 2) was inserted into the blood vessel K (puncture state).

The blood detection sensor 5 as the detection means is not limited to the one described above, and a blood detection sensor 5 that detects blood in the blood vessel K based on the color of the blood in the blood vessel K can also be used.
In that case, in the blood detection sensor 5, the needle 3 is not inserted into the human body M as shown in FIG. 3 (A), or the needle 3 is inserted into the skin S as shown in FIG. 3 (B). At that time, the needle 3 (and the outer cylinder 2) is not inserted into the blood vessel K (non-punctured state) by the off signal output at that time without detecting the blood color (red). .. Then, as shown in FIG. 3C, the blood detection sensor 5 detects the color (red) of blood when the needle 3 is inserted into the blood vessel K, and the needle 3 (and) is output by the on-signal output at that time. , It is grasped that the outer cylinder 2) has been inserted into the blood vessel K (puncture state).

Further, the blood detection sensor 5 as the detection means is not limited to the above-mentioned one, and one that detects the blood in the blood vessel K based on the temperature of the blood in the blood vessel K can also be used.
In that case, in the blood detection sensor 5, the needle 3 is not inserted into the human body M as shown in FIG. 3 (A), or the needle 3 is inserted into the skin S as shown in FIG. 3 (B). At this time, the needle 3 (and the outer cylinder 2) is not inserted into the blood vessel K (non-punctured state) by the off signal output at that time without detecting the blood temperature. Then, as shown in FIG. 3C, the blood detection sensor 5 detects the temperature of blood (change from the temperature of the skin S) when the needle 3 is inserted into the blood vessel K, and turns on the signal at that time. The output indicates that the needle 3 (and the outer cylinder 2) has been inserted into the blood vessel K (puncture state).

Further, the blood detection sensor 5 as the detection means is not limited to the above-mentioned one, and one that detects the blood in the blood vessel K based on the image of the blood in the blood vessel K can also be used.
In that case, in the blood detection sensor 5, the needle 3 is not inserted into the human body M as shown in FIG. 3 (A), or the needle 3 is inserted into the skin S as shown in FIG. 3 (B). At this time, the needle 3 (and the outer cylinder 2) is not inserted into the blood vessel K (non-punctured state) by the off signal output at that time without detecting the blood image. Then, as shown in FIG. 3C, the blood detection sensor 5 detects a blood image (image analysis result of flowing fluid) when the needle 3 is inserted into the blood vessel K, and outputs an on-signal at that time. It is grasped that the needle 3 (and the outer cylinder 2) has been inserted into the blood vessel K (puncture state).

Here, the blood detection sensor 5 (detection means) is preferably as small and thin as possible in the form of a sheet (film) so as not to interfere with the puncture of the needle 3 (and the outer cylinder 2).
Further, the blood detection sensor 5 (detection means) is preferably firmly joined to the needle 3 so as not to fall off from the tip of the needle 3 and be mixed into the blood vessel K. For the same purpose as this, a coating layer covering the entire outer circumference of the needle 3 including the blood detection sensor 5 can be formed on the needle 3.
Further, blood is detected at the opening of the hollow portion of the needle 3 described later so that air does not enter the blood vessel K via the hollow portion (the portion through which the cable 6 is inserted, see FIG. 2 (A)). It is preferable to arrange it so as to be closed by the sensor 5.
It is preferable that these things are similarly applied to the detection means (blood detection sensor) installed in the outer cylinder 5 in the modified example 1 described later and the pressure sensor as the detecting means in the modified example 3 described later.

Here, referring to FIG. 3, the drip injection kit 1 in the present embodiment is in a punctured state (a state in which the needle 3 and the outer cylinder 2 are inserted into the blood vessel K) by the blood detection sensor 5 (detection means). An indicator lamp 9 is provided as a notification means for notifying that (there is) has been detected.
Specifically, the needle cap 8 is provided with an indicator lamp 9 (notifying means) that is not lit when the puncture state is not detected by the blood detection sensor 5 and lights when the puncture state is detected by the blood detection sensor 5. Has been done. The indicator lamp 9 is wiredly connected to the blood detection sensor 5 via a cable 6 inserted through a hollow portion formed in the needle 3. With such a configuration, a worker such as a nurse who handles the drip injection kit 1 indicates that the needle 3 and the outer cylinder 2 have changed from the non-punctured state to the punctured state, and the indicator lamp 9 is changed from unlit to lit. Can be visually grasped.

As described above, the indicator lamp 9 in the present embodiment notifies based on the display that the puncture state has been detected by the blood detection sensor 5 (detection means).
However, the means for notifying based on the display is not limited to this, and may be a character, a symbol, an image, or the like.
Further, the notification means may be one that notifies that the puncture state is detected by the blood detection sensor 5 (detection means) based on a sound (for example, a buzzer or the like), or may be displayed as a sound. It may be notified based on.

Hereinafter, the procedure when the drip injection kit 1 is set on the human body M by a worker such as a nurse will be described with reference to FIGS. 3 (A) to 3 (D).
First, as shown in FIG. 3A, the drip injection kit 1 is moved toward the human body M (arm or the like) in the direction of the white arrow. Then, as shown in FIG. 3B, the needle 3 and the outer cylinder 2 of the drip injection kit 1 are inserted into the skin S of the human body M. Up to this point, the blood detection sensor 5 does not detect the state in which the needle 3 and the outer cylinder 2 are pierced into the blood vessel K, and the indicator lamp 9 is not lit. Therefore, the operator pierces the needle 3 and the outer cylinder 2. The insertion operation will proceed without interruption.
Then, as shown in FIG. 3C, when the needle 3 and the outer cylinder 2 are inserted into the blood vessel K, the blood detection sensor 5 detects the state in which the needle 3 and the outer cylinder 2 are inserted into the blood vessel K. Then, the indicator lamp 9 lights up. As a result, the operator recognizes that the needle 3 and the outer cylinder 2 have been successfully inserted into the blood vessel K, and ends the insertion operation.
Then, as shown in FIG. 3D, the needle 3 is pulled out from the drip injection kit 1 in the direction of the black arrow, and only the outer cylinder 2 is placed in the blood vessel K in a state of being stuck. After that, the drip tube 11 (see FIG. 1) is connected to the indwelled outer cylinder 2 (outer cylinder cap 7), and the drip is administered to the human body M.

As described above, since the drip injection kit 1 in the present embodiment is provided with the blood detection sensor 5 for detecting the state in which the needle 3 is inserted into the blood vessel K together with the outer cylinder 2, a nurse or the like can be used as a patient. When inserting the needle 3 and the outer cylinder 2 (drip needle) into the blood vessel K, the needle 2 and the outer cylinder 2 can be smoothly inserted into the blood vessel K in one operation regardless of the skill level of the person. it can. Therefore, it is possible to reduce the burden on the patient when inserting the needle 3 and the outer cylinder 2.

<Modification example 1>
As shown in FIG. 4, in the drip injection kit 1 of the modified example 1, the blood detection sensor 5 as a detection means is installed not at the needle 3 but at the tip of the outer cylinder 2 in the insertion direction.
Even in this configuration, the needle 3 and the outer cylinder 2 can be inserted into the patient's blood vessel K without any mistake.
In particular, in the first modification, since the blood detection sensor 5 (detection means) is installed in the outer cylinder 2, only the needle 3 is inserted into the blood vessel K, and the outer cylinder 2 is not inserted into the blood vessel K. It is possible to reliably prevent a problem of erroneously detecting such a state.
In addition, the blood detection sensor 5 installed in the outer cylinder 2 placed in the human body M at the time of infusion administration makes it possible to detect the state in which the outer cylinder 2 is detached from the blood vessel K. Specifically, when the outer cylinder 2 is removed from the blood vessel K by the patient, the blood detection sensor 5 detects the punctured state to the non-punctured state, and notifies the indicator lamp 9 (notifying means) of the state. .. As a result, the nurse or the like grasps the detachment of the outer cylinder 2 and performs the setting work of the drip injection kit 1 described above with reference to FIG. 3 again.

<Modification 2>
As shown in FIG. 5, in the drip injection kit 1 in the second modification, the notification means for notifying the detection result of the blood detection sensor 5 is configured to be able to communicate wirelessly with the blood detection sensor 5 instead of being wired. ..
Further, the notification device 15 as the notification means in the second modification is a liquid crystal panel 16 that notifies the puncture state by the blood detection sensor 5 by character display, a speaker 17 that notifies by voice, or a lighting display. An indicator lamp 9 for notifying is provided.
Even in this configuration, the needle 3 and the outer cylinder 2 can be inserted into the patient's blood vessel K without any mistake.
In particular, in the second modification, since the wireless notification device 15 is provided, the configuration of the main body of the drip injection kit 1 can be simplified.

<Modification example 3>
In the drip injection kit 1 in the third modification, a pressure sensor is installed instead of the blood detection sensor as a detection means for detecting the state in which the needle 3 and the outer cylinder 2 are inserted into the blood vessel K.
The pressure sensor 5 as the detection means is installed at the tip of the needle 3 or the outer cylinder 2 as in the case of FIG. 2 or FIG. Then, the pressure sensor 5 (detecting means) detects the above-mentioned puncture state based on the change in pressure when the needle 3 or the outer cylinder 2 is inserted into the blood vessel K.
Specifically, as described above with reference to FIG. 3, the needle 3 and the outer cylinder 2 are inserted into the blood vessel K after being inserted into the skin S. At this time, the pressure received by the needle 3 and the outer cylinder 2 changes depending on the pressure W1 when passing through the skin S and the pressure W2 when reaching the blood vessel K. Such a pressure change is difficult for a worker such as a nurse to grasp as a hand sensation, but as shown in FIG. 6, a clear pressure difference ΔW is provided by the highly sensitive pressure sensor 5 (detecting means). Can be grasped as. Although there are individual differences in the magnitude of such a pressure difference ΔW, there is no individual difference in the tendency for a large pressure difference ΔW to occur per unit time. Therefore, the pressure sensor 5 (detecting means) detects the puncture state of the blood vessel K. It becomes possible to do.
Even in this configuration, the needle 3 and the outer cylinder 2 can be inserted into the patient's blood vessel K without any mistake.

<Modification example 4>
The modified example 4 is not the drip injection kit 1 but the blood vessel injection kit 100.
As shown in FIG. 7, the blood vessel injection kit 100 does not have the outer cylinder 2 installed unlike the drip injection kit 1, but is provided with a needle 3 for puncturing the blood vessel K.
Such a vascular injection kit 100 can be used as a kit for performing wing-shaped infusion, as a kit for performing blood collection, or as a kit for performing vascular injection. ..
Then, as shown in FIG. 7, the blood vessel injection kit 100 has a blood detection sensor 5 (or a blood detection sensor 5 (or) as a detection means for detecting a puncture state in which the needle 3 is punctured into the blood vessel K at the tip of the needle 3 in the insertion direction. A pressure sensor) is provided. As the blood detection sensor 5 (or pressure sensor) as the detection means, the same one as described above with reference to FIGS. 2 (or 4 to 6) can be used. However, the blood detection sensor 5 (or pressure sensor) is configured so as not to prevent the infusion (or preparation) from flowing into the blood vessel K through the hollow portion formed in the needle 3.
With this configuration, the needle 3 can be inserted into the patient's blood vessel K without any mistake.

As described above, in the drip injection kit 1 according to the present embodiment, the needle 3 for inserting into the blood vessel K, the outer cylinder 2 covering the needle 3, and the needle 3 are inserted into the blood vessel K together with the outer cylinder 2. A blood detection sensor 5 (detection means) for detecting the puncture state is provided.
As a result, the needle 3 (and the outer cylinder 2) can be inserted into the blood vessel K of the patient without any mistake.

In the present embodiment and Modifications 1 to 4, the present invention has been applied to the human infusion kit 1 and the blood vessel injection kit 100, but the application of the present invention is not limited to this, and dogs and cats are not limited thereto. As a matter of course, the present invention can be applied to a drip injection kit or a blood vessel injection kit for animals such as.
Even in such a case, the same effects as those of the present embodiment and the modified examples 1 to 4 can be obtained.

It is clear that the present invention is not limited to the present embodiment, and the present embodiment may be appropriately modified in addition to the suggestions in the present embodiment within the scope of the technical idea of the present invention. is there. Further, the number, position, shape, etc. of the constituent members are not limited to the present embodiment, and can be a suitable number, position, shape, etc. for carrying out the present invention.

1 IV injection kit (Surflow),
2 Outer cylinder (indwelling needle, catheter),
3 needles (inner cylinder),
5 Blood detection sensor (detection means),
6 cables,
9 Indicator lamp (notification means),
50 IV system,
100 Vascular Injection Kit,
M human body, S skin, K blood vessels.

Japanese Unexamined Patent Publication No. 2005-278766

Claims (8)

A needle to pierce a blood vessel and
The outer cylinder that covers the needle and
A detection means for detecting a puncture state in which the needle is punctured into the blood vessel together with the outer cylinder.
Bei to give a,
The needle has a hollow portion that opens at the tip of the needle in the insertion direction.
The detection means is a drip injection kit characterized in that it is installed at the tip of the needle in the insertion direction so as to close the opening. The drip injection kit according to claim 1, wherein the detection means is connected to a cable inserted through the hollow portion. The infusion kit according to claim 1 or 2, wherein the detection means is a blood detection sensor that detects blood in a blood vessel. The drip injection kit according to claim 3, wherein the blood sensor detects blood in the blood vessel based on any of the flow, color, temperature, and image of the blood in the blood vessel. The drip according to claim 1 or 2, wherein the detection means is a pressure sensor that detects the puncture state based on a change in pressure when the needle is inserted into the blood vessel. Injection kit. The drip injection kit according to any one of claims 1 to 5, further comprising a notification means for notifying that the puncture state has been detected by the detection means. The drip injection kit according to claim 6, wherein the notification means notifies that the puncture state has been detected by the detection means based on at least one of a sound and a display. The drip injection kit according to any one of claims 1 to 7, wherein the needle is formed with a coating layer that covers the entire outer periphery of the needle including the notification means.

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