KR20170135368A - Method of blood glucose measurement by using Non-invasive blood glucose meter with momentum measurement function - Google Patents

Abstract

The present invention provides a method for measuring blood glucose by using a non-blood-collecting blood glucose measuring device having a momentum measuring function. The method comprises the steps of: (S10) measuring an impedance of tissue liquid extracted from the surface of skin by using a blood glucose measuring unit of the non-blood-collecting blood glucose measuring device having a momentum measuring function, and then measuring a blood glucose amount of the tissue liquid from the measured impedance; (S20) measuring a momentum amount of a user by using a momentum amount measuring unit of the non-blood-collecting blood glucose measuring device having a momentum measuring function, and calculating a blood glucose change amount in accordance with a measured momentum amount; and (S30) calculating an anticipated blood glucose amount by comparing the calculated blood glucose change amount and the measured blood glucose amount. The non-blood-collecting blood glucose measuring device having a momentum measuring function comprises: a blood glucose measuring unit capable of measuring an impedance of a tissue liquid extracted from the surface of the skin of a user; a momentum amount measuring unit for measuring a momentum amount of the user; and a treating unit for measuring and calculating a blood glucose amount, a momentum amount, a blood glucose change amount, and an anticipated blood glucose amount.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-invasive blood glucose meter with a momentum measurement function,

The present invention relates to a blood glucose measurement method using a bloodless blood glucose meter having a function of measuring a momentum, and more particularly, to a blood glucose measurement method using a blood glucose measurement device having a function of measuring a blood glucose without an invasive method, The present invention relates to a blood glucose measurement method using a blood-sugar-free blood glucose meter.

Recently, the prevalence of diabetes is increasing due to lack of exercise and aging society due to dietary habits. In case of abnormality in blood glucose control in the long term, it causes complications in major organs in the body, so accurate blood glucose measurement is important for proper blood glucose control . Since the conventional blood glucose meter is an invasive method for measuring the blood glucose level of the collected blood after passing through the skin with a needle, the patient is required to measure the blood glucose by reason of fear of stabbing the skin with a needle .

In order to avoid the invasive method of blood glucose measurement, research on the development of a bloodless blood glucose meter has continued for several decades and as a result, various methods of bloodless blood glucose measurement are available. In addition, since blood glucose control in diabetics is very important for maintaining the physical condition normally, it is necessary to regularly visit the hospital to measure and manage blood glucose. However, recently, due to time and cost problems, Many researches have been conducted on devices and systems that can check the system.

As a part of this research, Korean Patent Laid-Open No. 10-2005-0025882 discloses a blood glucose control apparatus having a sensor strip insertion port, comprising: a power supply unit for supplying power to an electrode of a sensor strip for blood glucose measurement; A current sensing unit for sensing an amount of current flowing through the electrode; A motion detection unit for detecting a motion; A control unit for reading the blood glucose level corresponding to the detected amount of current from the memory and outputting it to the display unit or calculating the user's amount of exercise from the signal output from the motion detection unit and outputting the calculated amount of exercise to the display unit; And a key operation unit for setting the blood glucose measurement mode and the exercise amount measurement mode. [5] The blood glucose management device, the communication terminal for blood glucose management, and the blood glucose management system are disclosed. However, the blood sugar management system has a problem in that blood must be collected by an invasive method when measuring blood glucose and blood must be collected again in order to check the real time blood glucose level.

Korean Patent Laid-Open Publication No. 10-2005-0099444 discloses an apparatus for performing health measurement through an earphone connected to a portable terminal. The apparatus includes a health measuring unit, an earphone for transmitting data measured by the health measuring unit to the portable terminal, And the portable terminal that calculates and displays result data through measurement data received from the earphone, and displays the resultant data through an earphone connected to the portable terminal. However, an apparatus and method for performing health measurement through an earphone connected to the portable terminal has a problem in that an invasive method should be used for blood collection at the time of measuring blood glucose, and the blood glucose amount predicted for the exercise amount can not be confirmed.

Korean Patent Laid-Open No. 10-2010-0061824 discloses a medical measurement instrument having an impedance measurement unit for detecting an impedance measurement signal at a skin surface 200 of a patient to be inspected by at least one measurement electrode, And the two electrodes of the pair of measuring electrodes are simultaneously brought into contact with the same part of the skin surface of the patient for local determination of the impedance signal during the measurement process. Lt; / RTI > However, since the measurement result of the medical measurement instrument changes according to the skin temperature and condition, the accuracy of the measured data is very low and it is difficult to correct it.

KR 2005-0025882 A KR 2005-0099444 A KR 2010-0061824 A

An object of the present invention is to provide a blood glucose measurement method using a bloodless blood glucose meter having a function of measuring a momentum that does not require blood collection during blood glucose measurement.

It is another object of the present invention to provide a blood glucose measurement method using a bloodless blood glucose meter having a function of measuring a momentum capable of preventing a user's avoidance due to blood collection by an invasive method.

It is still another object of the present invention to provide a blood glucose measurement method using a blood-sugar-free blood glucose meter having a function of measuring a momentum capable of real-time blood glucose measurement without blood collection.

The above and other objects of the present invention can be achieved by the present invention described below.

The blood glucose measurement method using the bloodless blood glucose meter having the exercise amount measurement function according to an embodiment of the present invention includes measuring the impedance of the tissue fluid leaking to the skin surface using the blood glucose measurement part of the bloodless blood glucose meter having the exercise amount measurement function Measuring a blood glucose level of the tissue fluid from the measured impedance (S10); (S20) of measuring a user's exercise amount using the exercise amount measuring unit of the bloodless blood glucose meter having the exercise amount measuring function and calculating a blood glucose change amount according to the measured exercise amount; And a step (S30) of calculating an expected blood glucose level by comparing the calculated blood glucose change amount with the measured blood glucose level, wherein the blood glucose non-blood glucose meter having the function of measuring the exercise amount flows out the tissue fluid from the skin surface of the user, A blood glucose measuring unit capable of measuring an impedance of the blood glucose meter; A momentum measuring unit for measuring a momentum of the user; And a processor for measuring and calculating the blood sugar amount, the exercise amount, the blood glucose change amount, and the expected blood glucose amount.

In step S 10, the patch is attached to the skin, the tissue fluid is discharged from the skin surface to the skin surface by osmotic pressure, the impedance of the spouted tissue fluid is measured, the blood glucose level of the tissue fluid is measured from the measured impedance, The measurement unit may include: a patch including an electrode composed of an anode and a cathode; A power supply unit for supplying power to the electrode; And a sensor including a coil (L), a capacitor (C), and a resistor (R) capable of measuring impedance of the tissue fluid.

The blood glucose measurement method may further include the step (S40) of providing information on the estimated blood glucose level calculated after step S30 to a user, wherein the blood glucose-free blood glucose meter having the exercise amount measurement function is provided with information And further comprising:

The information providing unit is a means for providing visual, auditory or sensory information.

The step S40 may further include notifying the user of an alarm if the estimated blood glucose level is determined to be a risk value to the user.

The present invention relates to a blood glucose measurement method using a blood-sugar-free blood glucose meter having a function of measuring a blood glucose level in real time, which can avoid a user's avoidance due to blood collection by an invasive method, .

1 is a flowchart schematically illustrating a blood glucose measurement method using a blood-sugar-free blood glucose meter having a function of measuring a momentum according to an embodiment of the present invention.
2 is a block diagram schematically illustrating the configuration of a bloodless blood glucose meter having a function of measuring the exercise amount according to the present invention.
FIG. 3 is an explanatory view schematically showing the principle of the blood glucose measurement unit of the bloodless blood glucose meter according to the present invention.

The above objects, features, and advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. The following detailed description is not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled.

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

1 is a flowchart schematically illustrating a blood glucose measurement method using a blood-sugar-free blood glucose meter having a function of measuring a momentum according to an embodiment of the present invention.

As shown in FIG. 1, the blood glucose measurement method using the blood-sugar-free blood glucose meter having the exercise amount measurement function according to an embodiment of the present invention uses a blood glucose measurement unit of a blood- Measuring the impedance of the tissue fluid and measuring the blood glucose level of the tissue fluid from the measured impedance; Measuring the amount of exercise of the user using the exercise amount measuring unit of the bloodless blood glucose meter having the exercise amount measuring function, and calculating a blood glucose change amount according to the measured exercise amount; And calculating the expected blood glucose level by comparing the calculated blood glucose change with the measured blood glucose level.

2 is a block diagram schematically illustrating the configuration of a bloodless blood glucose meter having a function of measuring the exercise amount according to the present invention.

As shown in FIG. 2, the blood glucose measurement method of the present invention may be embodied by a bloodless blood glucose meter 100 having a function of measuring a momentum. A bloodless blood glucose meter (100) having a function of measuring the momentum of the present invention includes a blood glucose measuring unit (110) capable of measuring the impedance of the tissue fluid by discharging the tissue fluid from the skin surface of the user; A momentum measuring unit 120 for measuring the momentum of the user; And a processing unit 130 for measuring and calculating the blood sugar amount, the exercise amount, the blood glucose change amount, and the expected blood glucose amount.

FIG. 3 is an explanatory view schematically showing the principle of the blood glucose measurement unit of the bloodless blood glucose meter according to the present invention.

3, the blood glucose measuring unit 110 of the bloodless blood glucose measuring apparatus of the present invention includes a patch 111, a power supply unit 112, and a sensor 113. As shown in FIG.

The blood glucose measurement method using the blood-sugar-free blood glucose meter having the function of measuring the momentum of the present invention is a method of measuring the impedance of the tissue fluid flowing to the skin surface using the blood glucose measurement unit 110 of the blood- And measuring the blood glucose level of the tissue fluid from the measured impedance. Specifically, when a patch 111 including an electrode composed of an anode and a cathode is attached to the surface of the skin, and the power supply unit 112 supplies power to the electrode, the Cl ^- ion in the subcutaneous solution becomes an anode And Na ⁺ ions (sodium ions) move to the cathode. In this process, non-charged substances such as blood sugar also migrate like ions, and as a result, blood sugar is released to the skin surface along with subcutaneous tissue fluid by reverse osmosis principle. The discharged tissue fluid can measure the blood glucose level of the tissue fluid by measuring the impedance by the sensor including the coil (L), the condenser (C) and the resistance (R). Where L is the inductance of the external coil, C is the capacitance of the sensor, and R is the mean resistance of the tissue fluid.

After step S10, the user's exercise amount is measured using the exercise amount measuring unit 120 of the bloodless blood glucose meter 100 of the present invention, and then the blood glucose change amount according to the measured exercise amount is calculated. The exercise amount measuring unit 120 in step S20 preferably includes an acceleration sensor for measuring the exercise amount of the user. The exercise amount measurement and the blood glucose change amount calculation based on the measured exercise amount are performed in the non-blood drawing blood glucose meter 100 of the present invention. The processing unit 130 of FIG.

The blood glucose change amount calculated after step S20 is compared with the measured blood glucose amount to calculate the expected blood glucose amount in step S30. Specifically, the expected blood glucose level is calculated based on the measured blood glucose level, and the estimated blood glucose level is calculated by subtracting the consumed blood glucose level from the measured blood glucose level. In addition, the method of measuring blood glucose of the present invention may further comprise step S40 of providing information on estimated blood glucose levels calculated after step S30 to a user. In this case, the bloodless blood glucose meter of the present invention may further comprise an information providing unit capable of providing information to a user, and the information providing unit may be a visual, auditory or sensory information providing unit.

In addition, the step S40 may further include notifying the user of an alarm when the estimated blood glucose level is determined to be a risk value to the user. Therefore, the blood glucose measurement method using the bloodless blood glucose measuring apparatus of the present invention can detect an amount of change in blood glucose to be measured, calculate it as a momentum, and give an alarm or a warning to the user.

The blood glucose measurement method using the blood-sugar-free blood glucose meter having the function of measuring the exercise amount according to the present invention is capable of managing the blood glucose by performing one measurement without performing an invasive blood- The blood glucose measuring apparatus using the blood glucose meter may have a dislike or be useful for users who are reluctant to collect a large number of blood glucose.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims, And equivalents should also be considered to be within the scope of the present invention.

100: bloodless blood glucose meter
110: blood glucose measuring unit
111: Patch
112: Power supply
113: sensor
120:
130:

Claims (5)

(S 10) measuring impedance of the tissue fluid flowing out to the skin surface using the blood glucose measurement unit of the bloodless blood glucose meter having the exercise amount measurement function and measuring the blood glucose level of the tissue fluid from the measured impedance;
(S20) of measuring a user's exercise amount using the exercise amount measuring unit of the bloodless blood glucose meter having the exercise amount measuring function and calculating a blood glucose change amount according to the measured exercise amount; And
(S30) calculating an expected blood glucose level by comparing the calculated blood glucose change amount with the measured blood glucose amount,
The bloodless blood glucose meter having the momentum measuring function may include a blood glucose measuring unit capable of measuring the impedance of the tissue fluid by discharging the tissue fluid from the skin surface of the user; A momentum measuring unit for measuring a momentum of the user; And a processor for measuring and calculating a blood glucose level, a momentum, a blood glucose level change, and an expected blood glucose level. The method according to claim 1, wherein the step (S10) comprises the steps of attaching a patch to the skin to drain the tissue fluid to the skin surface by osmotic pressure from the skin surface, measure the impedance of the discharged tissue fluid, measure the blood glucose level of the tissue fluid from the measured impedance and,
Wherein the blood glucose measuring unit includes: a patch including an electrode composed of an anode and a cathode; A power supply unit for supplying power to the electrode; And a sensor capable of measuring an impedance of the tissue fluid and including a coil L, a capacitor C and a resistor R. The blood glucose measurement method using the blood-sugar-free blood glucose meter having the function of measuring the momentum. The blood glucose measurement method according to claim 1, wherein the blood glucose measurement method further comprises: (S40) providing information about expected blood glucose levels calculated after step S30 to a user, wherein the blood glucose- The blood glucose measurement method according to claim 1, further comprising an information providing unit capable of providing information. The blood glucose measurement method according to claim 3, wherein the information providing unit is a visual, auditory or sensory information providing unit. The blood glucose measurement method according to claim 3, wherein the step (S40) further comprises informing a user of an alarm when the estimated blood glucose level is determined to be a risk value to the user.

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