KR100553801B1 - The closed loop type realtime insulin pump by using of skin contacted glucose detection sensor in blood - Google Patents

Abstract

The present invention provides a safe, accurate and real-time blood glucose detection using a skin contact blood glucose detection sensor, and also by applying an insulin pump that controls accurate insulin administration in an open loop method, measuring blood glucose and administering insulin The closed-loop real-time insulin pump using the skin contact blood glucose detection sensor, which allows the patient to control the blood sugar in the most accurate way by controlling the blood pressure in real time, and the safe and accurate use of the skin contact blood glucose detection sensor. In addition, real-time blood sugar detection is also possible, and the application of an insulin pump that provides accurate insulin administration in an open-loop method allows the real-time control of blood sugar measurement and insulin administration so that accurate glycemic control can be achieved to free diet to diabetics. Guaranteed and daily life The advantage that, and also can maintain normal blood glucose level of diabetic patients for 24 hours, and involves the advantage of the prevention and treatment of complications, entails the advantage of improving the cure rate diabetes in parallel, such as an insulin pump and motor of the present invention.

Description

The closed loop type realtime insulin pump by using of skin contacted glucose detection sensor in blood}

1 is a block diagram showing a conventional open loop insulin pump.

Figure 2 is a detailed configuration of the closed-loop real-time insulin pump using the skin contact blood glucose detection pad according to the present invention.

3 is a view showing an example of using a skin contact blood glucose detection pad according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10: blood sugar signal transmission unit 11: test cycle setting unit

12: skin contact glucose detection sensor 13: current change detection unit

14: A / D conversion unit 15: wireless signal transmission unit

20: blood sugar signal receiving unit 21: wireless signal receiving unit

22: insulin amount designation per detection current 23: insulin administration control unit

24: central control unit 25: insulin syringe

The present invention relates to a closed-loop real-time insulin pump using a skin contact blood sugar detection sensor, and more particularly, to enable safe, accurate and real time blood sugar detection using a skin contact blood glucose detection sensor. In addition, the present invention relates to an insulin pump that allows the most accurate blood glucose control to a patient by applying an insulin pump that controls accurate insulin administration in an open loop manner, thereby controlling blood glucose measurement and insulin administration in real time.

Insulin was discovered by Banting et al. In 1921, and the mortality rate of acute metabolic complications caused by diabetes mellitus was reduced due to the emergence of antibiotics. Mortality increased. Therefore, it is important to prevent and treat the occurrence of diabetic complications early by appropriately controlling the blood sugar of the patient.

Conventional techniques for preventing and treating such diabetic complications include 'NPH insulin injection therapy' and a closed loop insulin pumping method of supplying a certain amount of insulin after examining blood sugar by directly collecting blood sugar, and Insulin pumping (artificial pancreas) method of the open loop method that supplies the insulin according to the blood sugar pattern that the human body is constantly formed after a meal.

However, the 'NPH insulin injection therapy' has been found in clinical trials that insulin is administered in a timely and quantitative manner that is different from the physiologically required insulin in the human body. In other words, due to the unreasonable point of supplying less insulin when needed, and supplying too much when it needs to be supplied, blood sugar control is very different from normal blood sugar level.

In particular, in order to prevent hypoglycemia, the amount of NPH insulin injected can only be reduced, so high blood sugar will be maintained throughout the day.

The abnormal pattern of insulin supply and persistent hyperglycemia cause the conventional NPH insulin treatment, which eventually causes complications of diabetes.

In order to solve this problem, in order to better control blood sugar, insulin should be supplied in a more normal, physiological manner. As a method developed to supply insulin in this physiological aspect, the above-mentioned closed loop There is a method of insulin pumping and an open loop method of pumping insulin.

It is provided with an insulin injection unit 2 for mechanically injecting insulin according to the designated program when the insulin dose is designated through the program input unit 1 which designates the insulin dose as shown in FIG. 1.

 However, treatment with this type of insulin pump also has fatal drawbacks.

In closed-loop mode, blood sugar can be optimally controlled in principle. However, a blood glucose meter, which measures how much blood glucose is used, uses a biological enzyme method that is easily modulated when exposed to blood. Therefore, there is a problem in lifespan, accuracy and reliability, so this enzyme sensor should be replaced every 2-3 days. In addition, since the glucose level in the blood must be measured continuously, the blood loss to the outside of the body is applied to the human body for a long time.

In addition, the open loop insulin pumping method automatically injects a predetermined number of pumps in the form of a basic insulin injection mode and a meal insulin injection mode, so that optimal insulin administration according to the current blood glucose level of each patient is not possible. In addition, there is a problem in that there are many restrictions on the meal, which is the biggest vulnerability of diabetics.

The present invention is a skin contact blood glucose detection sensor that has been recently developed to solve the problem that the blood glucose meter is easily modulated when the blood glucose meter is exposed to blood in the closed loop method as described above, and the problem of continuous blood loss to the outside of the body. It is possible to detect blood sugar safely, precisely and in real time by using. Also, by applying an insulin pump that controls accurate insulin administration in an open-loop method, blood glucose measurement and insulin administration can be controlled in real time to accurately measure blood glucose The aim is to implement an insulin pump that can be controlled to ensure a free meal for diabetics and to enable everyday life.

Closed loop real-time insulin pump using the skin contact blood glucose detection sensor of the present invention for achieving the above object, the blood sugar signal transmission to wirelessly detect the user's blood sugar changes in real time by the user's skin contact Wealth;

It characterized in that it comprises a blood sugar signal receiving unit for receiving the transmitted blood sugar signal to control the amount of insulin appropriate to the user's status according to the change in blood sugar.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a detailed configuration of a closed-loop real-time insulin pump using a skin contact blood sugar detection sensor according to the present invention, the insulin pump of the present invention includes a blood sugar signal transmitting unit 10 and a blood sugar signal receiving unit 20. The blood sugar signal transmitting unit 10 includes a test cycle setting unit 11 for setting an optimal test cycle and an insulin administration cycle;

A skin contact glucose detection sensor 12 for detecting a blood glucose level of the skin when the blood glucose level is detected through the test period setting unit 11;

A current change detector 13 outputting a current change corresponding to the changed blood sugar amount when the skin contact glucose detection sensor 12 detects a change in blood sugar;

A pipelined A / D converter (14) for converting the current change signal, which is the output analog signal, into a digital signal;

And a radio signal (R / F) transmitter 15 for modulating and transmitting the blood sugar signal converted into the digital signal into a radio signal.

The blood sugar signal receiving unit 20 includes a wireless signal receiving unit 21 for receiving a signal transmitted from the wireless signal transmitting unit 14;

An administration insulin amount designation unit 22 for detection current for designating an amount of insulin to be administered based on the received blood glucose signal;

An insulin administration control unit 23 for controlling an insulin administration motor operation to receive the designated insulin amount in the administration insulin amount designation unit 22 per detection current to control the insulin injection amount;

A central processing unit (24) for controlling the operations of the administration insulin amount designation unit (22) and the insulin administration control unit (23) per detection current;

Insulin injection (25) for controlling and outputting the insulin injection amount in accordance with the motor control signal output through the insulin administration control unit 23.

Referring to the operation of the insulin pump implemented as described above, the blood sugar signal transmission unit 10 implemented by modifying the recently developed skin contact blood glucose detection sensor is examined after receiving the optimal test cycle and insulin administration cycle from the doctor When the test period is input to the period setting unit 11, a current change by the amount of blood glucose occurs in the blood sugar detection pad 12 in contact with the skin. The current change is converted into a digital signal using a pipelined A / D conveter 14 capable of high speed processing, and then transferred to the blood sugar signal receiving unit 20 through the R / F transmitter 15. Done.

The reason for the wireless transmission and reception is to ensure that the diabetic patients have the same activity by separating the blood glucose detection means wirelessly from the diabetic patients attached to the subcutaneous insulin pump.

In order to designate the amount of insulin to be administered based on the signal, the R / F receiver 21 receiving the blood sugar signal is outputted to the dose amount of insulin administered per detection current 22, where Under the instruction of the central control unit 24, the amount of insulin to be administered is passed to the insulin administration control unit 23, and the insulin administration control unit 23 drives the insulin administration motor to administer the insulin as much as the indicated amount. .

3 illustrates a state in which the blood sugar signal transmitting unit 10 is worn on a wrist, for example. The blood sugar signal receiving unit 10 may be worn at a position that is easy for a patient to wear. The abdomen and the like may also be worn in a position comfortable for the patient.

As described in detail above, the present invention allows a safe, accurate and real-time blood glucose detection using a skin-contact blood glucose detection sensor, and also applies an insulin pump that provides accurate insulin administration in an open loop method, thereby measuring blood glucose. And control of insulin administration in real time to ensure accurate blood sugar control to ensure free meals for diabetics and to enable daily life, and also to maintain the blood sugar level of diabetic patients 24 hours to prevent complications and It is accompanied by the benefits of the treatment, and in combination with the insulin pump and exercise of the present invention, along with the benefits of improving the rate of diabetes cure.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and changes belong to the following claims Should be seen.

Claims (3)

A blood sugar signal transmitter for wirelessly detecting a change in blood sugar of the user in real time by skin contact of the user; The closed-loop method using the skin-contact blood glucose detection sensor characterized in that it comprises a blood sugar signal receiving unit for receiving the transmitted blood sugar signal to control the amount of insulin appropriate to the user's status according to the change in blood sugar. Real time insulin pump. The method of claim 1,  The blood sugar signal transmission unit and the test cycle setting unit for setting the optimal test cycle and insulin administration cycle; A skin contact glucose detection sensor for detecting a blood glucose level of the skin when the blood glucose level is detected through the test period setting unit; A current change detector for outputting a current change corresponding to the changed blood sugar amount when the skin contact blood glucose detection sensor detects a change in blood sugar; A pipelined A / D converter converting the current change signal, which is the output analog signal, into a digital signal; And a wireless signal (R / F) transmitter for modulating and transmitting the blood glucose signal converted into the digital signal into a wireless signal. The method of claim 1, The blood sugar signal receiver comprises: a wireless signal receiver for receiving a signal transmitted from the wireless signal transmitter; An administration insulin amount designation unit per detection current for designating an amount of insulin to be administered based on the received blood glucose signal; An insulin administration control unit configured to control an insulin administration motor operation to receive an insulin amount designated by the administration insulin amount designation unit per detection current to control insulin injection amount; A central processing unit for controlling operations of the dose-injection insulin dose control unit and the insulin dose control unit per detection current; Closed loop real-time insulin pump using a skin contact blood glucose detection sensor characterized in that it comprises an insulin injection to control and output the insulin injection amount according to the motor control signal output through the insulin administration control unit.

Images