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Wearable noninvasive dynamic blood glucose monitor based on photo-acoustic spectrometry features

A technology of blood glucose monitor and photoacoustic spectrum, which is applied in diagnostic recording/measurement, medical science, sensors, etc., can solve the problems of large influence on working accuracy, low stability, and poor versatility, so as to avoid influence and improve detection ability Effect

Active Publication Date: 2016-05-11
杨立峰
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  • Abstract
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Problems solved by technology

[0007] In view of the above-mentioned prior art, the purpose of the present invention is to provide a non-invasive measuring instrument for medically detecting the blood sugar level of diabetic patients, which aims to solve the problem of the single detection structure of the existing non-invasive blood glucose meter, the lack of necessary measurement compensation and correction, and when When individual differences occur, the working accuracy is greatly affected by the environment, and there are technical problems such as large deviations between the true blood glucose value and the measured value; in addition, the existing blood glucose meters still have technical problems such as non-portability, low stability and poor versatility

Method used

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  • Wearable noninvasive dynamic blood glucose monitor based on photo-acoustic spectrometry features
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  • Wearable noninvasive dynamic blood glucose monitor based on photo-acoustic spectrometry features

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Embodiment 1

[0035] First, set the working state of the system through the control / setting button 113, that is, infrared light with a laser wavelength of 930 nanometers, a pulse width of 100 nanoseconds, a peak power of 230 W, and a period of 1000 Hz, and select to start measurement. The laser modulator 17 controls the laser 14 to generate corresponding infrared light, and the laser generated by the laser 14 passes through the laser collimation unit 15 to form uniform parallel light, passes through the optical substrate 13 and the transparent colloid 12, and then irradiates the human skin 11, and the subcutaneous blood sugar of the human body absorbs After the light pulse, a specific ultrasonic signal will be generated, and the specific propagation equation of the generated ultrasonic signal in soft tissue can be described by the following formula:

[0036] [ 1 v 2 ∂ 2 ...

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Abstract

The invention discloses a wearable noninvasive dynamic blood glucose monitor based on photo-acoustic spectrometry features and relates to the field of blood glucose level detection in order to solve the technical problems that an existing noninvasive glucometer is single in detection structure, necessary measurement compensation and correction lack, work precision of the existing noninvasive glucometer is greatly affected by the environment when there is individual difference, and the deviation between a real blood glucose value and a measured value is large. Besides, the existing glucometer has the technical problems of being inconvenient to carry, low in stability, poor in universality and the like. The wearable noninvasive dynamic blood glucose monitor mainly structurally comprises a multi-wavelength tunable fiber laser, a microprocessor, a display module, an impedance testing unit, a temperature sensor, a photoacoustic cavity, an optical substrate and transparent colloid. The blood glucose monitor is used for improving detection precision, can also be used for detecting impedance, temperature and other signals, corrects data, and avoids influences of the surrounding environment.

Description

technical field [0001] The invention relates to the field of blood sugar level detection, in particular to a wearable non-invasive dynamic blood sugar monitor based on photoacoustic spectrum features. Background technique [0002] Diabetes mellitus or diabetes mellitus is a long-term metabolic pathological state in which blood glucose levels fluctuate beyond the normal range (90-120 mg / dl). According to the "Diabetes Map" issued by the International Diabetes Federation, it is estimated that nearly 114 million adults in the country suffer from diabetes, accounting for 8.3% of the total population (1.382 billion). By 2030, this indicates that 178 million people will suffer from diabetes. Diabetes care expenditures are projected to account for 10.8% of total global health expenditures (US$54.8 billion) in 2013, and by 2035 spending on diabetes will amount to US$627 billion. [0003] Diabetics should check their blood sugar levels daily to avoid hyperglycemic / hypoglycemic event...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/1455A61B5/053
CPCA61B5/0095A61B5/0531A61B5/14532A61B5/1455A61B5/7225
Inventor 杨立峰
Owner 杨立峰
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