CN104739419A - System for regulating blood sugars - Google Patents

Abstract

The invention provides a system for regulating blood sugars. The system for regulating the blood sugars comprises a microwave sensor and a micro electro mechanical system, wherein the microwave sensor is in real-time communication with the micro electro mechanical system, the microwave sensor is used for detecting the blood sugar concentration of an object which is detected in real time, and the micro electro mechanical system is used for indicating an insulin pump to perform targeting drug release under the circumstance that the blood sugar concentration is larger than a predetermined threshold value. The system for regulating the blood sugars detects the blood sugar concentration in real time through the microwave sensor, the micro electro mechanical system can perform adjustment on the blood sugar concentration timely and accurately according to real-time blood sugar concentration information, therefore, the intelligent blood sugar adjustment can be achieved, and human and material resources are saved greatly.

Description

Regulate the system of blood glucose

Technical field

The present invention relates to diagnostic measures field, specifically, relate to a kind of system regulating blood glucose.

Background technology

Owing to having outstanding advantage in assembly volume, bio-compatible and biodegradation, MEMS can provide low invasive minimally invasive medical technology.Such as, MEMS can be used for the timing target medicine release of the intellectual drug container controlling implant into body, thus extends efficient help for disease therapy.In order to complete complicated task in larger scope, needing between MEMS to form by information sharing the nanometer network that can store, and calculated and transmit information, completing physiological and pathological information monitoring, drug conveying etc.Nanometer network mainly based on molecule communication technology and Terahertz Technology, is still in the starting stage at present, fits theoretical research based on computer mould.Nanometer network can be connected with body area network, assist mobile medical treatment and relevant large date processing etc.Body area network is the wireless network formed by multiple biomedical sensor, its objective is the computing platform providing integrated hardware, software and a wireless communication technology, for pervasive health medical treatment monitoring system provides indispensable condition.At present, for gathering contactless, the noinvasive of important physiological and pathological signals, physical activity behavior and human body place environmental information, the biomedical sensor of prodigiosin acquisition function is important study hotspot.Body area network also can combined type portable, wearable, high-resolution medical imaging device as millimeter wave imaging system, for clinical diagnosis provides the image information of the form of people's in-vivo tissue or organ, structure and physiological function.

But all need the means such as artificial monitoring for the control of blood sugar for human body in currently available technology, make cost of labor increase and waste, due to quality and the monitored personnel self of care provider, the efficiency of blood glucose regulation and accuracy rate are not high yet.

For the problem in correlation technique, at present effective solution is not yet proposed.

Summary of the invention

For the problem in correlation technique, the present invention proposes a kind of system regulating blood glucose.

Technical scheme of the present invention is achieved in that

According to an aspect of the present invention, provide a kind of system regulating blood glucose, comprising:

Microwave remote sensor, MEMS, microwave remote sensor and MEMS real-time Communication for Power;

Microwave remote sensor, for detecting the blood sugar concentration of testee in real time;

MEMS, for when blood sugar concentration is greater than predetermined threshold, instruction insulin pump carries out target medicine release regulation blood sugar concentration.

Wherein, microwave remote sensor adopts the transmitting-receiving mode of microwave antenna array to detect in real time testee by the Millimeter-Wave Source that frequency range is 1 to 100GHZ.

Wherein, MEMS comprises further:

Microprocessor, processes for the data sent the microwave remote sensor received;

Driving device, is used to indicate insulin pump and carries out target medicine release regulation blood sugar concentration.

Wherein, microprocessor is further used for, when blood sugar concentration is more than or equal to predetermined threshold at least five times continuously, calculates according to blood sugar concentration drug dose that insulin pump should discharge and indicate driving device to indicate insulin pump to carry out target medicine release regulation blood sugar concentration.

In addition, this system can further include:

Display device, to carry out the data message of data sharing by external network and other checkout equipments for receiving microwave remote sensor, MEMS, and video data information;

Alarm device, during for being more than or equal to predetermined threshold when blood sugar concentration continuously at least five times or being less than another predetermined threshold at least five times continuously, sends warning message.

The present invention detects blood sugar concentration in real time by microwave remote sensor, MEMS can promptly and accurately regulate the concentration of blood sugar for human body according to the blood sugar concentration information that human body is real-time, thus can realize the blood glucose regulation of intelligence and greatly save human and material resources.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the block diagram of the system of adjustment blood glucose according to the embodiment of the present invention;

Fig. 2 is the schematic diagram of the method for adjustment blood glucose according to the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain, all belongs to the scope of protection of the invention.

The invention provides a kind of system regulating blood glucose, the outstanding advantages that this system has in assembly volume, bio-compatible and biodegradation etc. based on MEMS, low invasive minimally invasive medical technology can be provided, first with the body area network that microwave remote sensor builds, human blood glucose concentration is detected in real time, when detecting that human blood glucose concentration is too high, just the insulin pump that actuating MEMS controls in implant into body carries out target medicine release, controls the normal level of blood sugar concentration.

According to embodiments of the invention, provide a kind of system regulating blood glucose, this system comprises as shown in Figure 1:

Microwave remote sensor 11, MEMS 12, microwave remote sensor 11 and MEMS 12 real-time Communication for Power;

Microwave remote sensor 11, for detecting the blood sugar concentration of testee in real time;

MEMS 12, for when blood sugar concentration is greater than predetermined threshold, instruction insulin pump 13 carries out target medicine release regulation blood sugar concentration.

Wherein, microwave remote sensor 11 adopts the transmitting-receiving mode of microwave antenna array to detect in real time testee by the Millimeter-Wave Source that frequency range is 1 to 100GHZ.

Wherein, MEMS 12 comprises further:

Microprocessor (not shown), processes for the data sent the microwave remote sensor 11 received;

Driving device (not shown), is used to indicate insulin pump 13 and carries out target medicine release regulation blood sugar concentration.

Wherein, microprocessor is further used for, when blood sugar concentration is more than or equal to predetermined threshold at least five times continuously, calculates according to blood sugar concentration drug dose that insulin pump 13 should discharge and indicate driving device to indicate insulin pump 13 to carry out target medicine release regulation blood sugar concentration.

In addition, this system can further include:

Display device (not shown), to carry out the data message of data sharing by external network and other checkout equipments for receiving microwave remote sensor 11, MEMS 12, and video data information;

Alarm device (not shown), during for being more than or equal to predetermined threshold when blood sugar concentration continuously at least five times or being less than another predetermined threshold at least five times continuously, sends warning message.

Microwave remote sensor 11, MEMS 12 are connected with external network, and carry out data sharing by external network and other checkout equipments, and by display device video data information, other checkout equipments can be other armarium communicated with microwave remote sensor 11 and MEMS 12, as display, computer PC etc.; External network can be wired network or wireless network, as the Internet, LAN, bluetooth, 3G, 4G etc.

Technical scheme for a better understanding of the present invention, exemplifies a specific embodiment below and sets forth.

As shown in Figure 2, first with the body area network that microwave remote sensor builds, human blood glucose concentration is detected in real time, when detecting that human blood glucose concentration is too high, the insulin pump that just actuating MEMS controls in implant into body carries out target medicine release, controls the normal level of blood sugar concentration.Insulin pump is insulin injection device, is connected with MEMS, is undertaken injecting and dosage control by MEMS.

Wherein, the Millimeter-Wave Source that microwave remote sensor utilizes band limits to be 1-100GHZ, carries out Real-Time Monitoring to subject, and the detection mode that sensor adopts is that microwave antenna array sends and receive mode;

MEMS mainly includes microprocessor and driving device, data in real-time reception microwave remote sensor also carry out statistical procedures, draw real-time blood sugar concentration data, simultaneously, in measurement gained blood glucose concentration value when being more than or equal to max-thresholds continuously >=5 times, namely may be defined as hyperglycemia, the alarm device of external network can be driven to point out hyperglycemia signal to send warning information, simultaneously, according to the concrete data of current blood glucose concentration, converse the dosage of answering insulin injection, finally drive and monitor insulin pump and carry out in injection of insulin subject; Equally, in measurement gained blood glucose concentration value when being less than minimum threshold continuously >=5 times, namely may be defined as hypoglycemia, now, can drive the alarm device of external network, prompting hypoglycemia signal sends warning information.

In addition, the various network equipment, monitoring equipment carry out data sharing in real time by external network, also can set up cloud data center, simultaneously in the external network display device connected, as Bluetooth of mobile phone connects, LCDs, pc machine display etc., have the real-time display of blood sugar test, comprise subject blood sugar condition, injected dose etc.

In sum, by means of technique scheme of the present invention, the present invention is by the real-time human body blood sugar concentration of microwave remote sensor, MEMS can promptly and accurately regulate the concentration of blood sugar for human body according to the blood sugar concentration information that human body is real-time, thus can realize the blood glucose regulation of intelligence and greatly save human and material resources.And monitoring equipment of the present invention and external network interconnect and realize sharing of data and also possess alarm mechanism, thus further enhance safety and reliability.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. regulate a system for blood glucose, it is characterized in that, comprising:

Microwave remote sensor, MEMS, described microwave remote sensor and described MEMS real-time Communication for Power;

Described microwave remote sensor, for detecting the blood sugar concentration of testee in real time;

Described MEMS, for when described blood sugar concentration is greater than predetermined threshold, instruction insulin pump carries out target medicine release.

2. system according to claim 1, is characterized in that, described microwave remote sensor adopts the transmitting-receiving mode of microwave antenna array to detect in real time described testee by the Millimeter-Wave Source that frequency range is 1 to 100GHZ.

3. system according to claim 1, is characterized in that, described MEMS comprises further:

Microprocessor, processes for the data sent the described microwave remote sensor received;

Driving device, is used to indicate described insulin pump and carries out target medicine release.

4. system according to claim 3, it is characterized in that, described microprocessor is further used for, when described blood sugar concentration is more than or equal to described predetermined threshold at least five times continuously, calculates according to described blood sugar concentration drug dose that described insulin pump should discharge and indicate described driving device to indicate described insulin pump to carry out target medicine release regulation blood sugar concentration.

5. system according to claim 1, is characterized in that, comprises further:

Display device, to be carried out the data message of data sharing, and shows described data message by external network and other checkout equipments for receiving described microwave remote sensor, described MEMS;

Alarm device, during for being more than or equal to described predetermined threshold when described blood sugar concentration continuously at least five times or being less than another predetermined threshold at least five times continuously, sends warning message.