CN1973768A

CN1973768A - Non-invasive blood sugar instrument for closed-loop insulin injection

Info

Publication number: CN1973768A
Application number: CNA2005101260098A
Authority: CN
Inventors: 杨庆德; 蔡新霞; 田青; 刘春秀; 姜利英; 刘红敏; 刘剑
Original assignee: Institute of Electronics of CAS
Current assignee: Institute of Electronics of CAS
Priority date: 2005-11-28
Filing date: 2005-11-28
Publication date: 2007-06-06
Anticipated expiration: 2025-11-28
Also published as: CN100446724C

Abstract

The non-invasion blood sugar instrument for closed-loop insulin injection has built-in radio communication module, electrochemical electrode to extract hypoderis tissue fluid for non-invasion blood sugar detection, and insulin pump coupled through RF communication for insulin injection. The blood sugar instrument extracts hypoderis tissue fluid through the skin continuously and non-invasively with its constant sampling circuit combined with the electrochemical biosensor to, detects the glucose concentration in the tissue fluid and the blood sugar concentration by means of electrochemical process, transmits the blood sugar information and the time information through the RF communication module to the insulin pump for insulin injection and the closed-loop control of blood sugar level. The present invention can alleviate the pain of diabetics and raise his life quality greatly.

Description

The non-invasive blood sugar instrument that is used for closed-loop insulin injection

Technical field

The present invention relates to the biochemistry detection field, is a kind of non-invasive blood sugar instrument that is used for closed-loop insulin injection.

Background technology

Diabetes are a kind of common endocrine metabolism disease, and are very high at global sickness rate at present.Manual injection's insulin is present more effective Therapeutic Method.But use insulin pump to carry out the calibrated shot of insulin, must predict the intravital blood sugar concentration of patient in advance.And blood glucose meter in the market mostly is an intrusive mood, promptly gets blood from tip or vein, detects by electrochemical method or optical means then.This intrusive mood blood sugar test must detect 7 times even more every day, and is so not only loaded down with trivial details but also can increase the chance of patient infection's other diseases, thus the blood sugar detection apparatus of needing a kind of non-intrusion type badly to the intravital blood glucose of diabetics carry out continuously, non-invasive monitoring.And the continuous monitoring of blood glucose only arranged, for frequent, need the quantitative injection of insulin still not enough because from the blood glucose value to the injection of insulin, need loaded down with trivial details calculating.Like this, a kind of notion of closed-loop insulin injection just is suggested: blood glucose value that blood glucose meter is surveyed is passed to insulin pump in wired or wireless mode, insulin pump carries out certain calculation according to blood glucose value and draws injection of insulin dosage, forms a closed-loop insulin injection system.

Summary of the invention

The objective of the invention is to control wirelessly insulin pump, with noninvasive mode to the intravital blood glucose of diabetics carry out continuously, non-invasive monitoring, make insulin pump carry out certain calculation and draw injection of insulin dosage according to blood glucose value, inject, form a closed-loop insulin injection system, with solve blood glucose continuously, noinvasive detects and the detection problem of faint electrochemical signals.

For achieving the above object, technical solution of the present invention provides a kind of non-invasive blood sugar instrument that is used for closed-loop insulin injection, and its combined with electrochemical electrode extracts subcutis liquid, realizes that Woundless blood sugar detects, and, instruct injection of insulin by wireless radiofrequency communication and insulin pump coupling.

Described blood glucose meter comprises CPU, memory element, and button, display module, the constant current supply sample circuit, signal amplifies and Acquisition Circuit, warning circuit, inner real-time clock and RS232 communication interface; Wherein, CPU includes mould/number conversion circuit, D/A switch circuit and inner real-time clock, its connection is also controlled display module, memory element, constant current supply sample circuit, signal amplification and Acquisition Circuit, warning circuit, and communicate by RS232 interface and computer; It is characterized in that CPU also is electrically connected with wireless communication module, and by wireless communication module, with the insulin pump wireless connections; And the other end of the constant current supply other end, mould/number conversion circuit and D/A switch circuit is electrically connected with two electrochemica biological sensors respectively.

Described blood glucose meter, its described OLED can be carried out menu mode operation in conjunction with four operation push-buttons, four buttons be respectively return key, on move key, move down key, acknowledgement key, make the operation of blood glucose meter become easy to be understandable; OLED has the self-luminous characteristic, does not need backlight, greatly reduces the power consumption of blood glucose meter.

Described blood glucose meter, its described constant current supply sample circuit, be that a passive constant current chip is connected with an operational amplifier, and at operational amplifier both sides difference resistance in parallel, the adjustable constant current supply of 0～10mA can be provided, permeate by counter ion in conjunction with corresponding electrochemica biological sensor electrode, extract subcutis liquid.

Described blood glucose meter, its described CPU adopts the single-chip microcomputer that includes 24 high accuracy D/A switch circuit, and therefore the highest resolution to electrochemical signals is 1/16777216 of a range, and this can satisfy the requirement of blood glucose Detection of Weak Signals fully.

Described blood glucose meter, its described memory element, for single-chip microcomputer built-in, wherein flash read only memory (flash ROM) has stronger memory function, can store the blood glucose historical data more than 1000, built-in RAM is the 4K byte, can satisfy the requirement that single-chip microcomputer carries out certain Digital Signal Processing.

Described blood glucose meter, its described conversion of signals and amplifying circuit, be resistance R 1 and R2 in the side of operational amplifier two serial connections in parallel, one end of resistance R 1 links to each other with the outfan of operational amplifier, one end of resistance R 2 and the in-phase end ground connection of operational amplifier, the link of two resistance R 1 and R2 links to each other with the end of oppisite phase of operational amplifier by sampling resistor Rf; Relation between output voltage and the current signal is:

Vout＝-i×Rf(1+R1/R2+R1/Rf)

By following formula as can be known, under sampling resistor Rf is unlikely to excessive situation, adjust the ratio of resistance R 1 and the resistance value of R2, can realize the detection of little current signal, blood glucose meter can be recorded receive the low current signal of peace level.

Described blood glucose meter, it is described to be electrically connected with two electrochemica biological sensors, and the counter electrode of each pick off is multiplexed with sampling electrode, and single-chip microcomputer is realized the time-sharing multiplex of pick off counter ion infiltration sampling and Electrochemical Detection by the control multiplexer.

Described blood glucose meter, its described warning circuit, built-in buzzer is reported to the police when the blood glucose appearance is unusual.

Described blood glucose meter, its described wireless communication module is the wireless radiofrequency communication module, but also wireless access radio sensing network and long distance monitoring terminal.

Described blood glucose meter, its described power supply adopts the low power dissipation design of optimizing, as reducing operating frequency, reduce running voltage, select low energy-consumption electronic device for use, adjusting the mode of operation of OLED etc., under situation, can realize the blood glucose continuous monitoring more than 12 hours with a joint AAA 1.5V dry cell power supply.

Described blood glucose meter, its described constant current supply sampling hockets with Electrochemical Detection, with one of them pick off is example: in first 3 minutes, the counter electrode C1 of this pick off is as the anode of constant current supply, collaborative with another pick off counter electrode C2, human body skin subcutaneous tissue liquid is carried out counter ion infiltration sampling, subsequently 7 minutes, three electrode work of this pick off detect the glucose in institute's extracting interstitial fluid; Second the counter electrode C1 of this pick off takes a sample as negative electrode in 3 minutes, and in subsequently 7 minutes, three electrode work of another pick off detect the glucose in institute's extracting interstitial fluid, so repeatedly circulation.

The non-invasive blood sugar instrument that is used for closed-loop insulin injection of the present invention, solved blood glucose continuously, noinvasive detects and the detection problem of faint electrochemical signals, realized the closed loop control of diabetics blood sugar level, greatly the misery that alleviates diabetics of degree improves its quality of life.

Description of drawings:

Fig. 1 is the schematic diagram of adjustable constant current supply among the present invention;

Fig. 2 is the testing circuit of faint electrochemical source of current signal; Fig. 2 .a is improved sample detecting circuit, and Fig. 2 .b is traditional sample detecting circuit;

Fig. 3 is the handoff procedure sketch map of constant current supply sampling among the present invention with Electrochemical Detection;

Fig. 4 is the switching principle figure of constant current supply sampling among the present invention with Electrochemical Detection;

The electrochemica biological sensor sketch map of Fig. 5 for being used in combination with non-invasive blood sugar instrument among the present invention;

Fig. 6 is used for the non-invasive blood sugar instrument composition frame chart of closed-loop insulin injection for the present invention.

The specific embodiment

The present invention discloses a kind of non-invasive blood sugar instrument that is used for closed-loop insulin injection, as shown in Figure 6, built-in wireless communication module comprises CPU, memory element, button, display module, the constant current supply sample circuit, signal amplifies and Acquisition Circuit, warning circuit, inner real-time clock and RS232 communication interface etc.Wherein, CPU includes mould/number conversion circuit, D/A switch circuit and inner real-time clock, its connection is also controlled display module, memory element, constant current supply sample circuit, signal amplification and Acquisition Circuit, warning circuit, and communicate by RS232 interface and computer; It is characterized in that CPU also is electrically connected with wireless communication module, and by wireless communication module, with the insulin pump wireless connections; And the other end of the constant current supply other end, mould/number conversion circuit and D/A switch circuit is electrically connected with two electrochemica biological sensors respectively.

CPU is by wireless communication module, with the insulin pump wireless connections, but also wireless access radio sensing network and long distance monitoring terminal.

Human body skin is continuous, noinvasive ground extracts subcutaneous tissue liquid but constant current supply sample circuit combined with electrochemical biosensor of the present invention sees through, detect the contained concentration of glucose of subcutaneous tissue liquid by electrochemical method, and then acquisition blood sugar concentration, and blood glucose information and temporal information sent to insulin pump by the wireless radiofrequency communication module, instruct injection of insulin, realize the closed loop control of diabetics blood sugar level, greatly the misery that alleviates diabetics of degree improves its quality of life.This instrument realizes the menu mode operation by four buttons and OLED, has user interface close friend, characteristics easy and simple to handle.This blood glucose meter leaves three needle interfaces in addition, can carry out the RS232 serial communication with computer, both can upgrade to blood glucose meter software easily, can upload to and preserves on the PC or handle being stored in detecting information in the blood glucose meter again.

Constant current supply of the present invention realizes that by circuit shown in Figure 1 this circuit is that a passive constant current chip is connected with an operational amplifier (OPA), and at an operational amplifier both sides difference resistance R 3 in parallel, R4, realizes the adjustable constant current supply of 0～10mA.

Passive constant current chip is the passive electric current source chip of a REF200, as long as its series connection place in circuit can be provided constant current supply and a mirror current source of two-way 100 μ A.The embodiment of the invention is used one tunnel 100 μ A constant current supply, because " empty short " of operational amplifier and " empty disconnected " characteristic, the voltage at resistance R 3 and R4 two ends is identical, thereby the ratio that flows through the electric current of two resistance is the inverse of the ratio of resistance value, thereby as long as adjusts the impedance ratio of two resistance just can obtain to apply any size on object (Object) constant current.

For the electrode that carries out electro chemical analysis with the ampere method, faint current signal must be converted into the voltage signal of easy measurement, the present invention adopts circuit shown in Fig. 2 a to realize the conversion and the amplification of current signal, resistance R 1 and R2 in the side of operational amplifier (OPA) two serial connections in parallel, one end of resistance R 1 links to each other with the outfan of operational amplifier, one end of resistance R 2 and the plus earth of operational amplifier, the link of two resistance R 1 and R2 links to each other with the negative pole of operational amplifier by resistance R _ f.Shown in Fig. 2 a, the relation between output voltage and the current signal is:

Vout＝-i×Rf(1+R1/R2+R1/Rf)

By following formula as can be known, guaranteeing that sampling resistor Rf is unlikely under the excessive situation, as long as, promptly can realize the detection of little current signal by adjusting the ratio of R1 and the resistance value of R2.And the resistance that (Fig. 2 b) must must increase Rf in traditional current-voltage conversion circuit realizes that small-signal detects, if but Rf is excessive, and the influence of the input bias current of operational amplifier is increased, can make the response time of sample circuit elongated simultaneously.This detects small-signal all is disadvantageous.

The present invention adopts three analog switches to realize the switching of constant current supply sampling and Electrochemical Detection, switching flow as shown in Figure 3, wherein Electrochemical Detection is carried out in two electrochemica biological sensors by turns, and as shown in Figure 5, the constant current supply sampling hockets with Electrochemical Detection.

See Fig. 5, wherein C1, C2 are respectively the counter electrode of two pick offs, and R1, R2 are the reference electrode of two pick offs, and W1, W2 are the working electrode of two pick offs.With pick off 1 wherein was example: at first 3 minutes, the counter electrode C1 of pick off 1 is as the anode of constant current supply, collaborative with the counter electrode C2 of pick off 2, human body skin subcutaneous tissue liquid is carried out counter ion infiltration sampling, subsequently 7 minutes, three electrode work of pick off 1, detect the glucose in institute's extracting interstitial fluid, second in 3 minutes, the counter electrode C1 of pick off 1 takes a sample as negative electrode, and second in 7 minutes, three electrode work of pick off 2, detect the glucose in institute's extracting interstitial fluid, so repeatedly circulation.The principle that constant current supply sampling and Electrochemical Detection are switched as shown in Figure 4, when the A1 of three multiplexer chip ADG709 and the configuration of A0 are low level (00), W is communicated with W1, R is communicated with C1 with R1, C, pick off 1 is worked at this moment, carries out Electrochemical Detection; The configuration of A1 and A0 is 01 o'clock, and W, R, C link to each other respectively at W2, R2, C2, pick off 1 work this moment; When the configuration of A1 and A0 was 10, the anode of constant current supply linked to each other with C1, C2 respectively with negative electrode, takes a sample; The configuration of A1 and A0 is 11 o'clock, and the anode of constant current supply links to each other with C2, C1 respectively with negative electrode, takes a sample.

The present invention adopts up-to-date Display Technique---OLED (OLED), have low in energy consumption, the brightness height, response is fast, characteristics such as the visual angle is big. be particularly suitable for the characteristics that the blood glucose meter continuous monitoring shows. this OLED needs 12V and two kinds of power voltage supplies of 3V, wherein 3V is a blood glucose meter system supply voltage, and 12V then uses general booster circuit to realize.

The present invention why can the remote control insulin pump, and then instruct injection of insulin, mainly be that its inside is equipped with wireless communication module. this communication module adopts the FSK technology, operating frequency is in medical frequency range, blood glucose meter can be coupled at insulin pump. can also cooperate with other non-invasive blood sugar instruments, remote terminal, form radio sensing network.

Low power dissipation design: because Woundless blood sugar needs continuously monitoring human body blood sugar level (10-24 hour), and functional module of the present invention is more, a joint AAA battery powered is adopted in restriction in view of volume and weight, thereby require low-power consumption, low power dissipation design of the present invention is mainly reflected in selects the low-power consumption parts for use, reduce operating frequency, running voltage, adjust the mode of operation of OLED.

Warning function: different with general blood glucose meter is that the present invention adopts the Single-chip Controlling buzzer to realize warning function, in the blood sugar test process, if the blood sugar level of diabetics exceeds standard, then can drive buzzer and take place to point out patient to take measures on customs clearance.

The above only is a preferred implementation of the present invention.Should be pointed out that for those skilled in the art's foundation creation principle of the present invention, can make many distortion and improvement, but these all fall into the protection domain of claim of the present invention.

Claims

1. a non-invasive blood sugar instrument that is used for closed-loop insulin injection is characterized in that, its combined with electrochemical electrode extracts subcutis liquid, realizes that Woundless blood sugar detects, and by wireless radiofrequency communication and insulin pump coupling, instructs injection of insulin.

2. blood glucose meter as claimed in claim 1 comprises CPU, memory element, and button, display module, the constant current supply sample circuit, signal amplifies and Acquisition Circuit, warning circuit, inner real-time clock and RS232 communication interface; Wherein, CPU includes mould/number conversion circuit, D/A switch circuit and inner real-time clock, its connection is also controlled display module, memory element, constant current supply sample circuit, signal amplification and Acquisition Circuit, warning circuit, and communicate by RS232 interface and computer; It is characterized in that CPU also is connected with wireless communication module, and by wireless communication module, with the insulin pump wireless connections; And the other end of the constant current supply other end, mould/number conversion circuit and D/A switch circuit is electrically connected with two electrochemica biological sensors respectively.

3. blood glucose meter as claimed in claim 2, it is characterized in that described OLED can be carried out the menu mode operation in conjunction with four operation push-buttons, four buttons be respectively return key, on move key, move down key, acknowledgement key, make the operation of blood glucose meter become easy to be understandable; OLED has the self-luminous characteristic, does not need backlight, greatly reduces the power consumption of blood glucose meter.

4. blood glucose meter as claimed in claim 2, it is characterized in that, described constant current supply sample circuit, be that a passive constant current chip is connected with an operational amplifier, and at operational amplifier both sides difference resistance in parallel, the adjustable constant current supply of 0～10mA can be provided, permeate by counter ion, extract subcutis liquid in conjunction with corresponding electrochemica biological sensor electrode.

5. blood glucose meter as claimed in claim 2, it is characterized in that described CPU adopts the single-chip microcomputer that includes 24 high accuracy D/A switch circuit, highest resolution to electrochemical signals is 1/16777216 of a range, can satisfy the requirement of blood glucose Detection of Weak Signals fully.

6. blood glucose meter as claimed in claim 2, it is characterized in that, described memory element, for single-chip microcomputer built-in, wherein flash read only memory (flash ROM) has stronger memory function, can store the blood glucose historical data more than 1000, built-in RAM is the 4K byte, can satisfy the requirement that single-chip microcomputer carries out certain Digital Signal Processing.

7. blood glucose meter as claimed in claim 2, it is characterized in that, described conversion of signals and amplifying circuit, be resistance R 1 and R2 in the side of operational amplifier two serial connections in parallel, one end of resistance R 1 links to each other with the outfan of operational amplifier, one end of resistance R 2 and the in-phase end ground connection of operational amplifier, the link of two resistance R 1 and R2 links to each other with the end of oppisite phase of operational amplifier by sampling resistor Rf; Relation between output voltage and the current signal is:

Vout＝-i×Rf(1+R1/R2+R1/Rf)

8. blood glucose meter as claimed in claim 2, it is characterized in that, describedly be electrically connected with two electrochemica biological sensors, the counter electrode of each pick off is multiplexed with sampling electrode, and single-chip microcomputer is realized the time-sharing multiplex of pick off counter ion infiltration sampling and Electrochemical Detection by the control multiplexer.

9. blood glucose meter as claimed in claim 2 is characterized in that, described wireless communication module is the wireless radiofrequency communication module, but also wireless access radio sensing network and long distance monitoring terminal.

10. blood glucose meter as claimed in claim 2, it is characterized in that, described power supply, adopt the low power dissipation design of optimizing, promptly adopt to reduce operating frequency, reduce running voltage, select low energy-consumption electronic device for use, adjust the mode of operation of OLED, under situation, can realize the blood glucose continuous monitoring more than 12 hours with a joint AAA 1.5V dry cell power supply.

11. as claim 1,2 or 8 described blood glucose meter, it is characterized in that, described constant current supply sampling hockets with Electrochemical Detection, with one of them pick off is example: in first 3 minutes, the counter electrode C1 of this pick off is as the anode of constant current supply, and is collaborative with another pick off counter electrode C2, human body skin subcutaneous tissue liquid is carried out counter ion infiltration sampling, subsequently 7 minutes, three electrode work of this pick off detect the glucose in institute's extracting interstitial fluid; Second the counter electrode C1 of this pick off takes a sample as negative electrode in 3 minutes, and second in 7 minutes, three electrode work of another pick off detect the glucose in institute's extracting interstitial fluid, so repeatedly circulation.