KR20070028818A - Process for controlling the syringe replacement of insulin pump - Google Patents

Abstract

A process for controlling the syringe replacement of insulin pump is provided to check stable mounting of a syringe when exchanging the insulin syringe of the insulin and to remove air inside the insulin syringe. The process for controlling syringe replacement of insulin pump includes the steps of: checking whether a syringe is mounted through a sensor(105) when exchanging an insulin syringe(10) of insulin pump; removing air inside insulin syringe automatically by the movement of a plunger gasket(102); measuring the content of the insulin inside the insulin syringe by using the number of rotations and rotation pressure of a plunger movement screw(103) connected to the insulin syringe; and initializing the insulin pump by providing the feedback of the content to a control plate(108) inside the insulin pump.

Description

Process for controlling the syringe replacement of insulin pump

1 is a schematic diagram illustrating a method for replacing an insulin pump syringe of the present invention.

Figure 2 is a schematic diagram showing the removal of air in the syringe after the syringe is injected into the insulin pump of the present invention.

Figure 3 is a block diagram showing the driving state of the insulin pump used in the syringe replacement and initialization method of the insulin pump of the present invention.

4 is a flow chart showing the insulin pump syringe replacement and initialization method of the present invention.

* Explanation of Reference Numbers

10: insulin syringe replacement unit 20: insulin pump housing

21: insulin syringe insert 30: insulin pump inlet

40: exhaust air

101: insulin syringe 102: plunger gasket

103: plunger shift screw 104: plunger shift fixing nut

105: sensor 106: gear unit

107: drive motor 108: control panel

109: display panel 110: operation button

111: liquid crystal display 112: battery power

The present invention relates to a method of replacing and initializing an insulin syringe of an insulin pump. More specifically, confirm the stable mounting of the syringe when replacing the insulin syringe of the insulin pump, and automatically remove the air in the insulin syringe through the movement of the plunger gasket when the syringe is mounted, and then rotate the plunger shift screw associated with the insulin syringe Insulin syringe replacement and initialization method characterized by measuring the insulin content in the insulin syringe by measuring the number and rotational pressure through the sensor and feeding this content back to the control panel in the insulin pump to initialize the insulin pump and controlling the injection of insulin. It is about.

Types of insulin for treating diabetic metabolic disorders can be generally classified into dietary insulin and basic insulin. Insulin-type insulin is usually injected into the human body three times a day on an empty stomach before meals. To prevent the rise, basic insulin is insulin that allows the action of insulin in the body to be maintained slowly for 24 hours.

Diabetes is a disease that occurs when our body does not make enough insulin or does not use insulin properly to convert blood sugar, or glucose, into energy. It is divided into type 1 and type 2 diabetes.

Type 1 diabetes is caused by the immune system misdiagnosing and attacking beta cells that make insulin in the pancreas as external invaders, usually causing sudden symptoms. It is commonly seen in children, called pediatric diabetes, but can also occur in adults.

Type 2 diabetes occurs when beta cells produce enough insulin but our body loses the ability to use them properly. It develops slowly and occurs mainly in middle age, called adult diabetes, but can cause overweight children.

Unlike the conventional method of injecting insulin 1-2 times a day, complications such as retinal lesions and renal lesions are caused by treatment with active insulin treatment that continuously injects insulin daily and maintains glycated hemoglobin in the normal range. Cases have been significantly reduced and it has been reported that aggressive insulin treatment can inhibit the progression of complications even if complications have already occurred. It has also been reported to reduce neuropathy and large vascular complications to some extent.

Therefore, active insulin treatment is recommended to prevent complications. According to a 1993 DCCT report, renal lesions were reduced by 34% in the group treated with active insulin, and the rate of progression from microalbuminuri to albuminuria was about 2%. Good blood sugar control also reduces kidney lesions. In a 1993 DCCT study, retinal lesions were reduced 69 percent in the active insulin treatment group compared to conventional treatment, and glycated hemoglobin was only 1 percent higher than normal in the active treatment group. Thorough control of blood sugar is the primary way to prevent neurological lesions.

Nine years of DCCT showed a 43% reduction in albuminuria and 56% reduction in albuminuria in the group treated with active insulin. In addition, atherosclerosis was less likely to occur when blood sugar was well controlled. Inadequate blood sugar control leads to atherosclerosis and also to hyperinsulinemia. DCCT reports also show that hyperglycemia is reduced if blood sugar control is poor.

Therefore, the present invention relates to a method of replacing and controlling the insulin syringe of the insulin pump for maintaining the proper insulin blood concentration in diabetic patients by injecting the above-described meal type insulin and basic type insulin in an optimal state.

In the case of the insulin pump used in the present invention, a commercially available insulin pump may be used, but for the implementation of the present invention, the automatic control of the insulin infusion amount is possible through the control panel of the insulin pump, and the rotation and pressure of the plunger shift screw may be measured. A sensor is installed at the bottom of the rotating screw so that the sensor can be installed in the insulin syringe to check the amount of air in the insulin syringe and check the insulin content by measuring the rotation speed and pressure of the plunger shift screw.

A method for controlling an insulin autoinjector is disclosed in Korean Patent Registration No. 310,657, "Control method for an insulin autoinjector having a doctor mode." In the patent document, in the insulin autoinjector control method configured to select a mode of the insulin autoinjector to perform the corresponding mode, only a doctor can know the secret code and the operation method, and specify an upper limit of the injection amount when the doctor mode is selected. In the preliminary step, the first step of confirming whether the mode is selected in the preliminary step or the non-pseudo mode, and if the mode is selected in the first step, perform the corresponding mode, but the setting of the insulin infusion amount is preliminary. Disclosed is a control method of an insulin autoinjector having a pseudo mode, characterized in that the upper limit set in the step is performed to sequentially inject a second step.

However, in the method of controlling the insulin syringe, only the basic insulin injection amount, meal insulin injection amount, daily maximum insulin injection amount, etc. can be controlled by adjusting the insulin injection amount by a doctor's instruction, and the automatic air removal and insulin content measurement when the insulin syringe is replaced. The initialization control method through is not disclosed.

In the case of basal insulin, diabetic patients are allowed to maintain their insulin function in the body continuously for 24 hours, and should be administered in an appropriate amount separately from pre-meal or diet meal insulin, and check and control the dose on a 24-hour basis. This is necessary. In addition, since the injection method and the injection amount of basal insulin are different in the injection method in type 1 diabetes and type 2 diabetes, there is a need for a control method for controlling them appropriately.

The technical problem to be achieved by the present invention is to confirm the stable mounting of the syringe when replacing the insulin syringe of the insulin pump, and after removing the air in the insulin syringe automatically by moving the plunger gasket after the syringe is mounted stably, the insulin syringe Measure the number of rotations and the rotational pressure of the plunger shift screw coupled with the sensor to measure the insulin content in the insulin syringe and feed this content back to the control panel in the insulin pump to initialize the insulin pump and control the infusion of insulin. To develop insulin syringe replacement and initialization method.

Accordingly, an object of the present invention is a method of replacing and initializing an insulin syringe of an insulin pump, the method of checking whether the syringe is mounted through the sensor 105 when replacing the insulin syringe 10 of the insulin pump, and after the syringe is stably mounted, the plunger Automatically removing the air 40 in the insulin syringe 101 through the movement of the gasket 102, measuring the rotational speed and rotational pressure of the plunger shift screw 103 coupled with the insulin syringe through the sensor 105 Thereby providing an insulin syringe replacement and initialization method comprising the steps of measuring the insulin content in the insulin syringe and initializing the insulin pump by feeding the content back to the control panel 108 in the insulin pump.

Meanwhile, the sensor 105 automatically removes the air in the insulin syringe 101 through the function of checking whether the syringe is mounted when the insulin syringe is replaced and the rotational speed and the rotational pressure of the plunger moving screw 103, and the air in the insulin syringe After removal, the insulin content in the insulin syringe is measured by ending the air removal in the syringe by measuring the change in pressure on the rotation due to the weight of the insulin and measuring the amount of the rotation.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a schematic diagram illustrating a method for replacing an insulin pump syringe of the present invention.

As shown in FIG. 1, the insulin syringe replacement unit 10 is inserted into the insulin syringe insert 21 in the insulin pump housing 20, and then the plunger shift screw 103 is connected to the rotary drive connected to the gear unit and the sensor Activating 105 results in an insulin pump syringe replacement operation.

More detailed description of the insulin pump used in the present invention is as follows.

The rotation of the drive motor 107 is buffered with more precise rotation through the gear device 106, and then the insulin in the insulin syringe 101 is discharged in a very precise amount by the movement of the plunger 102 through the movement of the plunger movement fixing nut. By supplying to the connection tube insulin injecting unit 30 is to inject insulin into the human body. The driving of the driving motor 107 is controlled by the control panel 108 and the determination of the insulin infusion control mode of the control panel is operated by the operation button 110 attached to the upper surface of the display panel 109. In addition, a liquid crystal display 111 is attached to the upper portion of the display panel 109 to perform display regarding insulin injection information to be injected and controlled. The battery power source 112 for driving the driving motor 107, the control panel 108, and the display panel 109 is inserted into the insulin pump. Therefore, the insulin pump used in the present invention is an insulin pump capable of controlling the infusion amount by an electronic method.

Figure 2 is a schematic diagram showing the removal of air in the syringe after the syringe is injected into the insulin pump of the present invention.

As shown in FIG. 2, air 40 is discharged out of the insulin syringe 101 through the movement of the plunger gasket 102 according to the rotation of the plunger moving screw 103. Typically, the insulin pump is then placed at the top of the insulin inlet to allow the air in the insulin syringe to discharge upward.

The removal of the air in the insulin syringe is made by the rotation of the plunger movement screw 103 through the drive of the drive motor and the rotation of the gear unit via a signal from the control panel 108, wherein the plunger movement screw through the sensor 105 Measure the speed of rotation and pressure at the time of rotation. When the air in the insulin syringe is completely removed, the pressure of the insulin weight in the insulin syringe transfers a large load to the rotating screw during the rotation thereof, and the measurement is performed through the sensor 105 to remove the air in the syringe when a pressure greater than a predetermined load is applied. It will end.

When the air removal in the insulin syringe is completed as described above, the amount of insulin in the insulin syringe is automatically measured. Such a measurement measures the amount of insulin in the insulin syringe by measuring the rotation speed of the plunger moving screw. This measurement is made through the operation of the sensor 105 in connection with the control panel 108.

Figure 3 is a block diagram showing the driving state of the insulin pump used in the syringe replacement and initialization method of the insulin pump of the present invention.

As shown in FIG. 3, the overall insulin infusion and control can be performed by a control unit installed in the insulin pump control panel 108. The injection mode is input through the operation button 110, and the insulin infusion control is performed through the liquid crystal display 111. Display the status. In addition, the insulin injection and control signals of the control unit are transmitted to the motor 107 through the driving unit to move the plunger through proper rotation of the motor to initialize the insulin injection by measuring the air removal and insulin content in the insulin syringe when replacing the syringe.

At this time, the plunger movement screw rotation check sensor is installed in the vicinity of the lower plunger gear device to control the insulin injection amount by checking feedback of the injection amount during initialization and insulin injection before the injection. If the amount of insulin injected is greater than the infusion amount of the control unit, the information fed back through the check sensor can be used to control the insulin infusion amount by lowering the driving speed of the motor, and also less than the infusion amount of the control unit. If insulin is injected, the information fed back through the check sensor may be used to control the insulin injection amount by increasing the driving speed of the motor. All these insulin pumps are driven and controlled by battery power.

4 is a flow chart showing the insulin pump syringe replacement and initialization method of the present invention.

As shown in FIG. 4, the insulin syringe replacement and initialization method starts with the mode selection, selects the syringe replacement mode, checks whether the syringe is replaced, and checks whether the syringe is mounted.

If the syringe is not mounted reliably, the sensor stops the plunger shift screw to prevent malfunction and stops unnecessary rotation of the plunger shift screw. After that, when the syringe is stably mounted, air removal in the syringe is performed electronically. The amount of insulin in the insulin syringe is measured by measuring the completion of air removal in the syringe through a sensor and measuring the number of revolutions of the rotating screw when the air removal is completed. The amount of insulin measured in the above manner is used as information for insulin infusion at the initialization of the insulin pump and fed back.

The effect of the present invention is to confirm the stable mounting of the syringe when replacing the insulin syringe of the insulin pump, and after removing the air in the insulin syringe automatically by moving the plunger gasket after the syringe is securely mounted, the plunger combined with the insulin syringe Insulin syringe replacement characterized by measuring the number of revolutions and rotational pressure of the moving screw through the sensor to measure the insulin content in the insulin syringe and feeding this content back to the control panel in the insulin pump to initialize the insulin pump and then controlling the infusion of insulin. And an initialization method.

Claims (2)

In the insulin syringe replacement and initialization method of the insulin pump, the step of checking whether the syringe is mounted via the sensor 105 when replacing the insulin syringe 10 of the insulin pump, the movement of the plunger gasket 102 after the syringe is mounted stably Automatically removing air 40 in the insulin syringe 101 through the sensor 105 by measuring the number of revolutions and the rotational pressure of the plunger shift screw 103 coupled with the insulin syringe via the sensor 105. Initializing the insulin pump by measuring the amount and feeding the content back to the control panel 108 in the insulin pump. According to claim 1, The sensor 105 automatically removes the air in the insulin syringe 101 through the function of checking whether the syringe is mounted when replacing the insulin syringe and the rotational speed and the rotational pressure of the plunger movement screw 103, After the air in the insulin syringe is removed, the insulin content in the insulin syringe is measured by ending the air removal in the syringe by measuring the change in pressure on the rotation due to the weight of the insulin, and measuring the amount of the rotation speed. How to replace and reset your insulin syringe

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