JP2011139731A - Auxiliary device for blood sampling - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an auxiliary device for blood sampling which assists selection of a vein to be punctured and selection of a punctured region in the vein when samplng blood. <P>SOLUTION: The auxiliary device for blood sampling includes: a vein visually recognizing device irradiating the skin surface of the punctured region with near infrared light and preparing the vein pattern image from the reflection pattern of the irradiation light; a monitor; and a controller for inputting the vein pattern image as a vein pattern image before blood sampling, displaying the input vein pattern image on the monitor, allowing input of information relating to a blood sampling success part based on the blood sampling result of a patient in the displayed vein pattern image before blood sampling, combining the vein pattern image before blood sampling and the information relating to the blood sampling success and storing them as a vein pattern image after blood sampling into a storage device in association with a patient ID. The vein pattern image after blood sampling including the information relating to the blood sampling success part is read from the storage device on the basis of the patient ID, and the read vein pattern image after blood sampling is displayed on the monitor so as to recognize the blood sampling success part. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a blood collection assisting device for assisting puncture when a blood collection operator performs blood collection.

Conventionally, blood collection is frequently performed at medical sites for medical examinations and other examinations.
At the time of blood collection, blood is collected from the patient's vein. Therefore, it is necessary to puncture a vein with a blood collection needle. The puncture is performed by wrapping a tourniquet above the puncture site of the patient's body (for example, the middle of the elbow) (heart side) to make the vein angry and fixed, and the blood collection operator selects the vein to be punctured by visual inspection and palpation And do it.
However, selection of a vein to be punctured is very difficult and requires skill because the thickness of the blood vessel varies depending on the patient and the vein that can be seen well from the body surface is not necessarily thick. Some patients have difficulty in confirming the position of the blood vessel from the body surface by visual inspection and palpation even if they are skilled persons.
If the vein to be punctured is wrongly selected, there is a problem that the needle does not pierce the blood vessel or damages a fine vein to cause internal bleeding. And most of all, sticking the needle into the patient's body many times is problematic because it can cause pain to the patient over and over.
In order to solve such problems, various auxiliary devices for increasing the success rate of puncture have been proposed. For example, Patent Document 1 discloses that an image display device that displays a blood vessel fluoroscopic image of an operation site by infrared rays is fixed to the operator's head so that the operator can perform an image of the operation site by the naked eye and an infrared blood vessel fluoroscopy image. A blood vessel visualizing system for treatment that can perform a puncture procedure while simultaneously confirming the above is disclosed.

JP 2009-89876 A

The above-described conventional blood vessel visualizing apparatus displays the patient's blood vessel itself as an image, and therefore has an advantage that the selection of veins is much easier and more accurate than visual or palpation.
However, the above-described conventional blood vessel visualizing device only displays the patient's blood vessel itself as an image, and the operator himself decides which vein to select from the displayed veins based on his / her own experience. There must be.
The inventor pays attention to the fact that the conventional blood vessel visual recognition device simply displays a blood vessel image, further advances this, and assists in selecting a vein and a puncture site from the displayed image. It has been found that blood collection can be performed more easily and reliably if there is a device that can do this.
An object of the present invention is to provide a blood collection assisting device capable of assisting selection of a vein to be punctured and selection of a puncture site in the selected vein during blood collection.

  In order to achieve the above-described object, the blood collection assisting device according to the present invention irradiates the skin surface of the puncture site with near-infrared rays, detects the travel of the vein from the reflection pattern, and determines the puncture site based on the detection result. A vein viewing device capable of creating a vein running pattern image, a monitor, and a vein running pattern image created by the vein viewing device is input as a vein running pattern image before blood collection, displayed on the monitor, and displayed before blood collection In the running pattern image, information related to the successful blood collection site based on the actual blood collection result of the patient can be input, and the pre-blood collection vein running pattern image and the information related to the successful blood collection site are combined to obtain a blood collected vein running pattern image. A control device configured to be associated with a patient ID of a patient and stored in a storage device, the control device being a patient I Based on the information, the blood-collected vein running pattern image including information on the blood collection success site can be read from the storage device, and the read blood-collected vein running pattern image can be displayed on the monitor so that the blood collection success site can be known. It is characterized by being configured as described above.

  The blood collection assisting device according to the present invention irradiates the skin surface of the puncture site with near-infrared rays, detects vein travel from the reflection pattern, and creates a vein travel pattern image of the puncture site based on the detection result The vein travel pattern image created by the visual recognition device, the monitor, and the vein visual recognition device is input as a pre-blood collection vein travel pattern image and displayed on the monitor, and the displayed pre-blood collection vein travel pattern image is displayed on the patient's actual It is possible to input information related to the site of successful blood collection based on the blood collection results of the above, and store the pre-blood collection vein pattern image and the information related to the site of successful blood collection in association with the patient ID of the patient as a blood collection completed vein pattern image. A control device configured to be stored in the device, wherein the control device is placed on the site of successful blood collection based on a patient ID. Since the blood-collected vein running pattern image including the information to be read is read from the storage device, the read blood-collected vein running pattern image can be displayed on the monitor so that the site of successful blood collection can be known. In addition to displaying a blood vessel image, based on the past successful blood collection examples for the patient, selecting a vein more suitable for puncture and displaying a puncture site from the displayed blood vein pattern that has been collected. There is an effect that the selection can be assisted.

It is a schematic perspective view of the blood collection table provided with the blood collection assistance device concerning the present invention. It is a schematic block diagram which shows the structure of a blood collection assistance apparatus. The display screen of the monitor 3 displayed by the control apparatus 4 is shown. The display screen of the monitor 3 displayed by the control apparatus 4 is shown. The display screen of the monitor 3 displayed by the control apparatus 4 is shown. The display screen of the monitor 3 displayed by the control apparatus 4 is shown. The other Example of the display screen of the monitor 3 displayed by the control apparatus 4 is shown.

Hereinafter, an embodiment of a blood collection assisting device according to the present invention will be described with reference to an embodiment shown in the accompanying drawings.
FIG. 1 is a schematic perspective view of a blood collection table provided with a blood collection assistance device according to the present invention, and FIG. 2 is a schematic block diagram showing the configuration of the blood collection assistance device.
In FIG. 1, reference numeral 1 denotes a blood collection table. The blood collection table 1 is provided with a vein visualizing device 2 and a monitor 3 that constitute a part of the blood collection assisting device according to the present invention.
The vein visualizing device 2 irradiates the skin surface of the puncture site with near infrared rays, detects the vein travel from the reflection pattern, and displays the detected vein travel pattern image on the skin surface of the patient's puncture site with visible light. While projecting, it is comprised so that it may output to the control apparatus 4 mentioned later.
As shown in FIG. 2, the blood collection assisting device according to the present invention includes a control device 4 and a barcode reader 5 in addition to the vein visualizing device 2 and the monitor 3 described above. The control device 4 can be constituted by a personal computer, for example.
The control device 4 inputs the patient ID information of the patient to be collected, which is read by the barcode reader 5, and the “pre-blood collection vein pattern image” of the patient output from the vein visual recognition device 2, and inputs these information. In addition, information related to the actual blood collection result is associated and stored in the external or internal storage device or server 6 as a “blood collected vein running pattern image”, and “blood collected vein running” stored in the server 6 as necessary. The “pattern image” can be read out and displayed on the monitor 3.
Hereinafter, functions of the control device 4 will be described.
3 to 6 show an example of the display screen of the monitor 3 displayed by the control device 4.
3 to 6, an area indicated by reference numeral 10 is a patient information display area for displaying a patient ID, a name, and the like of a patient whose blood is to be collected. An area denoted by reference numeral 11 is a vein running pattern image for displaying a “pre-bleed vein running pattern image” output from the vein visual recognition device 2 or a “blood collected vein running pattern image” stored in the server 6 or the like. It is a display area.
When a blood collection operator reads a barcode printed on a blood collection instruction or a numbered ticket of a patient to be collected using the barcode reader 5, and the barcode information is sent to the control device 4, the control device 4 Then, information such as patient ID and patient name corresponding to the barcode information is read from the server 6 and displayed on the patient information display area 10 of the monitor 3 (see FIG. 3).
Further, the control device 4 inquires whether or not the “blood collected vein running pattern image” corresponding to the patient ID is recorded in the server 6, and the “blood collected vein running pattern image” is recorded in the server 6. Then, the same image is read from the server 6 and displayed on the vein travel pattern display area 11 of the monitor 3.
If the “blood collected vein running pattern image” corresponding to the patient ID is not recorded in the server 6, nothing is displayed in the vein running pattern display area 11. FIG. 3 shows an example in which the “blood collected vein running pattern image” corresponding to the patient ID is not recorded in the server 6.
Next, when the blood collection operator asks the patient to place the arm at a recognition position below the vein visual recognition device 2 and operates the vein visual recognition device 2, the vein visual recognition device 2 irradiates the skin surface of the puncture site with near infrared rays. Then, the travel of the vein is detected from the reflection pattern, and the detected vein travel pattern image is projected onto the skin surface of the puncture site of the patient with visible light. At this time, the vein visualizing device 2 outputs the vein travel pattern image detected simultaneously to the control device 4.
When the vein travel pattern image is input from the vein visual recognition device 2, the control device 4 displays the image on the vein travel pattern display area 11 of the monitor 3 as a “pre-blood collection vein travel pattern image” (see FIG. 4).
Next, the blood collection operator selects a vein to be punctured while referring to the vein running pattern image projected onto the puncture site of the patient by the arterial visual recognition device 2, and punctures the blood collection needle to collect blood.
After the blood collection is completed, for example, the blood collection operator clicks and selects the “success” button displayed in the vein travel pattern display area 11 of the monitor 3 using a mouse, and then displays “ Click on the site where the puncture was successful in the “Venous running pattern image before blood collection” to select it. Based on the operation of the blood collection operator, the control device 4 registers the site selected by the blood collection operator as a blood collection success site, and displays “◯” at the blood collection success site in the “pre-blood collection vein running pattern image”. (See FIG. 5).
If blood collection is not successful once, the blood collection operator inputs a blood collection failure site to the control device 4. In this case, for example, the blood collection operator uses the mouse to click and select the “failure” button displayed in the vein travel pattern display area 11 of the monitor 3, and then displays the “blood collection” displayed in the area 11. Click and select the site where the puncture failed in the “front vein travel pattern image”. Based on the operation of the blood collection operator, the control device 4 registers the site selected by the blood collection operator as a blood collection failure site, and displays “x” in the blood collection failure site in the “pre-blood sampling vein pattern image”. (See FIG. 5).
In addition, the blood collection operator selects a puncture site visually recognized by the vein visualizing device 2 from the puncture site name selection list box displayed in the vein travel pattern display area 11 of the monitor 3 using a mouse, for example. . In FIG. 5, “left midline” is selected as the puncture site. This “left median” means the median elbow of the left arm. In the list box, names of various puncture sites that may be punctured are registered in advance, such as “left midline” and “right midline” representing the right elbow midline.
When the blood collection operator registers the blood collection result and selects the puncture site name as described above and clicks “registration” in the operation buttons displayed on the lower side of the monitor 3, the control device 4 reads “blood collection”. The anterior vein running pattern image, “successful blood collection site”, “blood sampling failure site”, and “puncture site name” are stored in the server 6 in association with the patient ID as a “blood collected vein running pattern image”.
When blood is collected from the same patient at a later date, the control device 4 displays the “blood collected vein running pattern image” recorded in the server 6 in the vein running pattern display area 11 of the monitor 3 based on the patient ID. (See FIG. 6).
In FIG. 3 to FIG. 6, the “switch” button among the operation buttons displayed on the lower side of the monitor 3 is a button for switching the display content of the vein travel pattern display area 11. It is used to switch between the “venous running pattern image” and the “pre-blood collection vein running pattern image”, and when a plurality of “blood collected vein running pattern images” are stored.

In the above-described embodiment, the “blood collection vein pattern image” is recorded with a combination of “successful blood collection site”, “blood sampling failure site”, and “puncture site name” in each pre-voting vein travel pattern image. The information on the blood collection result combined with each pre-blood collection vein pattern image is not limited to the present embodiment. For example, in addition to the information described above, the date and time of blood collection and the information on the blood collection operator who performed the blood collection Can also be stored in combination.
Further, in the above-described embodiment, the control device 4 is configured to switch and display the “pre-bleed vein running pattern image” and the “blood collected vein running pattern image”, but this configuration is the present embodiment. For example, the controller 3 is provided with two vein running pattern display areas 11 on the monitor 3 so that the “pre-blood collection vein running pattern image” and the “blood collected vein running pattern image” are displayed side by side at the same time. 4 may be configured.
Furthermore, when a plurality of “blood collected vein running pattern images” are stored, the control device 4 may be preferably configured to display the latest “blood collected vein running pattern images” with priority. In addition, when a plurality of “blood collected vein running pattern images” are stored, the control device 4 is a part where blood collection is most likely to be successful from the “blood collection successful site” data of the plurality of “blood collected vein running pattern images”. The site may be displayed with a mark different from the “successful blood collection site” such as a double circle.
Furthermore, in the above-described embodiment, an example is given in which the control device 4 is configured to display the patient information display region 10, the arterial running pattern display region 11 and the operation buttons on the monitor 3. The configuration is not limited to this example, and in addition to the patient information display area 10, the arterial running pattern display area 11, and the operation buttons, for example, information on the number of waiting blood collections, information on patient blood collection, and the like are simultaneously displayed. The control device 4 may be configured to do this (see FIG. 7).
In the above-described embodiment, the server is described as an example of the storage device. However, the configuration of the storage device is not limited to the present embodiment, and for example, a hard disk in a personal computer constituting the control device. Of course, may be used as a storage device.
Furthermore, in the above-described embodiment, the description has been given by taking as an example that registration of a blood collection success site and blood collection failure site and other operations are performed using a mouse, but these operation means are described in this embodiment. Without limitation, for example, it may be configured to be able to be performed with a keyboard, or the monitor may be configured with a touch panel, and the blood collection success site and the blood sampling failure site may be registered via the touch panel. .

DESCRIPTION OF SYMBOLS 1 Blood collection table 2 Vein visual recognition apparatus 3 Monitor 4 Control apparatus 5 Bar code reader 6 Memory | storage device (or server)

10 Patient information display area 11 Vein travel pattern display area

Claims (5)

A vein visualizing device capable of irradiating the skin surface of the puncture site with near infrared rays, detecting the travel of the vein from the reflection pattern, and creating a vein travel pattern image of the puncture site based on the detection result;
A monitor,
The vein running pattern image created by the vein visual recognition device is input as a vein running pattern image before blood collection and displayed on the monitor,
In the displayed pre-bleed vein pattern image, it is possible to input information on the site of successful blood collection based on the actual blood collection result of the patient,
A control device configured to combine the pre-blood collection vein running pattern image and information related to the site of successful blood collection and store it in a storage device in association with the patient ID of the patient as a blood collection completed vein running pattern image;
The control device reads the blood collection vein running pattern image including information on the blood collection success site based on the patient ID from the storage device, and the read blood collection vein running pattern image so that the blood collection success site can be known. A blood collection assisting device configured to be displayed on a monitor. 2. The blood collection assist according to claim 1, wherein the control device is further configured to combine the blood collection failure site with the pre-blood collection vein running pattern image and store the blood collection as a blood collection completed vein running pattern image in the storage device. apparatus. The blood collection assisting device according to claim 1, wherein the control device is configured to store a plurality of blood collected vein running pattern images in a storage device over time for the same patient. . The said control apparatus is comprised so that it can switch and display on a monitor the vein running pattern image after blood collection, and the vein running pattern image before blood collection. The blood collection assisting device according to 1. The said control apparatus is comprised so that the vein running pattern image after blood collection and the vein running pattern image before blood collection can be simultaneously displayed on a monitor. The Claim 1 characterized by the above-mentioned. The blood collection assistance apparatus of description.