JP4483599B2 - Biosensing system - Google Patents

Description

  The present invention relates to a biosensing system that analyzes a biological sample using an analyzer.

  First, a conventional biosensing system will be described. FIG. 3 shows a schematic configuration diagram of a conventional biosensing system. In FIG. 3, when the disposable biosensor 2 is inserted into the biosensor slot 3, the analyzer 1 measures the concentration of the detection target substance in the liquid sample added to the biosensor 2.

The analyzer 1 further includes a control button 4 and a display 5 for displaying measurement results and measurement status, and is configured to be connectable with a ROM key 6. The ROM key 6 stores information related to the properties of the biosensor 2 and algorithms necessary for measurement by the biosensor 2. If the ROM key 6 is replaced, it is not necessary to redesign the analyzer 1 and change the algorithm even if a biosensor 2 having a different property due to a change in the detection target substance is used (for example, see Patent Document 1). .
Japanese Patent No. 2702286

  However, in the conventional configuration, since the connection terminal provided in the analyzer for inserting the ROM key is exposed to the outside, it is easily contaminated when handling a liquid sample, and the connection is troubled by rust or the like. Cheap. In addition, it is difficult to reduce the size of the analyzer to secure a portion into which the ROM key is inserted. Further, when replacing the biosensor, the ROM key is exchanged while being in contact with the analyzer. When blood is used, if the blood is contaminated, there is a possibility of infection from the contaminated blood.

  Also, since one ROM key is always required for each analyzer, a plurality of ROM keys are required when two or more analyzers are used simultaneously. For this reason, it is necessary to purchase a ROM key together with the biosensor, and the unit price of the biosensor is expensive. When a device such as a printer is used by adding a device to be used, it is necessary to add a connection terminal to the analyzer, and the analyzer must be redesigned.

  The present invention solves these problems, and an object of the present invention is to provide a biosensing system with high reliability, small size, and high expandability.

In order to solve the conventional problems, the analyzer includes an analyzer that analyzes a biological sample added to a biosensor, and a control box that is configured differently from the analyzer, and the analyzer is wirelessly connected to the control box. A transmission / reception device that enables communication, and the control box includes a transmission / reception device that enables wireless communication with the plurality of analysis devices. From the control box, parameter information of the biosensor, The measurement method of the detection target substance and the calculation processing information are transmitted to the plurality of analysis devices, and the plurality of analysis devices perform measurement based on the received information.

  According to the biosensing system of the present invention, a control box is provided as a control means for controlling the analyzer by wireless communication, separately from the analyzer, and the processing data and control algorithm input to the control box are analyzed by wireless communication. Since it can be input to the apparatus, a highly reliable, small and highly scalable biosensing system can be provided.

  Hereinafter, embodiments of the biosensing system of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a perspective view showing an example of the biosensing system of the present invention.

  In FIG. 1, the biosensors 2a and 2b react with the detection target substance of the sample to be measured, and show an electrochemical reaction and a color reaction. This reaction state is measured using the analyzers 1a and 1b, and the concentration of the detection target substance is measured. The biosensors 2a and 2b have different measurement methods and arithmetic processes depending on the type of detection target substance. Even in the biosensors 2a and 2b that measure the same target substance, the converted value of the concentration differs because the parameter information differs depending on the sensor production lot.

  Two of the analyzers 1a and 1b to which the biosensors 2a and 2b are attached are provided with infrared communication function units 7a and 7b, and the biosensors 2a and 2b are connected via the infrared communication function units 7a and 7b. The parameter information, the measurement method of the detection target substance, and the calculation processing information are sent to the analyzers 1a and 1b. When the analyzers 1a and 1b receive the parameter information of the biosensors 2a and 2b, the measurement method of the detection target substance, and the calculation processing information, the analyzers 1a and 1b are configured to hold the information.

The biosensing system includes a control box 8 having a configuration different from that of the analyzers 1a and 1b. The control box 8 includes an infrared communication function unit 7c similar to the analyzers 1a and 1b. The parameter information of the biosensors 2a and 2b input to the control box 8 in advance, the measurement method and calculation processing information of the detection target substance. Is simultaneously transmitted from the control box 8 to the two analyzers 1a and 1b via the infrared communication function unit 7c, so that the analyzers 1a and 1b can receive and measure the information.

  Therefore, since the infrared communication unit 7 is small and can be sealed, the analyzers 1a and 1b can be prevented from being contaminated by the liquid sample, and the analyzers 1a and 1b can be downsized. In addition, since analysis can be performed simultaneously using the two analyzers of the analyzers 1a and 1b, efficient analysis is possible. In this embodiment, two analyzers are used, but two or more analyzers may be used. In the present embodiment, infrared communication is used as a communication method. However, the same effect can be obtained even if another communication method is used.

  A ROM key 6 a and a commercially available card memory 9 can be connected to the control box 8. One ROM key 6a and several tens of biosensors 2a and 2b are simultaneously packaged and supplied to the user. The ROM key 6a is inputted with the parameter information of the biosensors 2a and 2b, the measurement method of the detection target substance and the calculation processing information. By inserting the ROM key 6a into the control box 8, the information is automatically sent to the control box 8 Since the information is transferred to the analyzers 1a and 1b, it is not necessary to replace the ROM key 6a and input information to the analyzers 1a and 1b, and simultaneous measurement using two or more analyzers is possible. Become. Further, since the ROM key can be exchanged without directly touching the analyzer, there is no risk of infection when handling a liquid sample such as blood.

  The analyzers 1a and 1b are programmed to automatically send measurement data and analyzer information to the control box 8 via the infrared communication function units 7a and 7b after the measurement. These pieces of information can be input to a commercially available card memory 9 and stored and information can be carried.

  In addition, since the control box 8 is provided with a display 5a so that information to be transmitted and received can be confirmed, it can be managed collectively only by the control box 8 in a system for performing a medical diagnosis. It is not necessary to operate the analyzers 1a and 1b, and an effective diagnosis can be performed using the control box 8.

  Further, the control box 8 includes an input button 10, and an ID number for identifying a patient is necessary in a system for performing a medical diagnosis. By providing the input button 10, an ID number can be input and an effective diagnosis system is provided. It becomes.

  The control box 8 identifies the analyzer by the management number of the meter sent from each analyzer 1a, 1b, and the control box 8 manages information necessary for each analyzer 1a, 1b by this management number. In this configuration, two or more analyzers can be used to simultaneously measure different detection target substances, and the measurement can be performed efficiently.

  FIG. 2 is a perspective view of a control box of the biosensing system according to the second embodiment of the present invention. In FIG. 2, by providing the control box 8 with the input / output terminal 11, the printer 12 can be connected. In a system for performing medical diagnosis, the output measurement result can be attached to the medical record as medical evidence. By providing the control box 10 instead of the analysis device, when two or more analysis devices are used, it is not necessary to replace the printer 12 according to each main body, which is very efficient.

  Similarly, by providing the control box 8 with the input / output terminal 11, the scanner 13 can be connected, and in the system for medical diagnosis, the input of the patient ID number by the barcode and the confirmation of the parameter information by the biosensor management number can be performed. A biosensing system that is possible and reliable.

  In addition, the expansion functions of these printers, scanners, etc. are attached to the control box, and the analyzer has a simple configuration with only measurement and transmission / reception functions. Since it is not necessary to change the analyzer that is already used only by changing, it is easy to add an extended function.

  The biosensing system according to the present invention transmits the biosensor parameter information, the measurement method of the detection target substance, and the operation processing information to the analyzer by wireless communication from the control box. Therefore, the analyzer is reliable, small, and expandable. Is useful when using a plurality of analyzers.

The perspective view of the biosensing system in Example 1 of this invention The perspective view of the control box of the biosensing system in Example 2 of this invention Schematic configuration diagram of a conventional biosensing system

Explanation of symbols

1, 1a, 1b Analyzer 2, 2a, 2b Biosensor 3 Biosensor slot 4 Control button 5, 5a Display 6, 6a ROM key 7a, 7b, 7c Infrared communication function section 8 Control box 9 Commercially available card memory 10 Input Button 11 Input / output terminal 12 Printer 13 Scanner

Claims (6)

An analyzer for analyzing a biological sample added to a biosensor, and a control box having a configuration different from that of the analyzer, the analyzer having a transmission / reception device that enables wireless communication with the control box The control box includes a transmission / reception device that enables wireless communication with the plurality of analysis devices. From the control box, the biosensor parameter information, the detection target substance measurement method, and the arithmetic processing Information is transmitted to the plurality of analysis devices, and the plurality of analysis devices perform measurement based on the received information. 2. The function of automatically storing in the analyzer the parameter information of the biosensor, the measurement method of the detection target substance, and the calculation processing information transmitted from the control box to the analyzer. The biosensing system described. The biosensing system according to claim 1, wherein the biosensing system has a function of automatically transmitting measurement data and meter information of the analyzer to the control box after measurement from the analyzer . The control box identifies each piece of analysis device information transmitted from a plurality of the analysis devices, and transmits to the specific analysis device by limiting the parameter information of the biosensor, the measurement method of the detection target substance, and the processing information. The biosensing system according to claim 1. Biosensing system of claim 1, prior Symbol analyzer without comprising, characterized in that it comprises input and output terminals of the scanner or printer only in the control box. The biosensing system according to claim 1, wherein a pluggable memory key supplied simultaneously with the biosensor is connectable to the control box .

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