DE102006013733A1 - Patient blood pressure value measuring method, involves calculating systolic and diastolic blood pressure value by microprocessor through intersecting plane of temporal progress of oxygen content in blood based on calculation formula - Google Patents

Abstract

The method involves confronting a temporal progress of the oxygen content in the blood of a patient with the drift of an electrocardiogram for the systole and the diastole of the heart of the patient. A systolic and diastolic blood pressure value is calculated by a microprocessor (20) through an intersecting plane of the temporal progress of the oxygen content in the blood, which resides with the drift of the electrocardiogram for the systole and the diastole in same time period, on the basis of a calculation formula. An independent claim is also included for a device for implementing a method for measuring a blood pressure value.

Description

technical area

The The invention relates to a method and a device for measuring of blood pressure value by oxygen content in the blood and electrocardiogram, the / the the time course of the oxygen content in the blood of the track of the electrocardiogram for the systole and diastole of the heart give over and thereby the blood pressure value calculated.

was standing of the technique

Blood pressure gauges can work in Mercury sphygmomanometer and eletronic Blood pressure meter divided become. The electronic blood pressure meter works according to the oscillometric method or the Korotkoff method. The Korotkoff method is the Korotkoff clay used. First the cuff is placed around the patient's arm. Subsequently, will the cuff inflated until the brachial artery is completely throttled. Then the air in the cuff is slowly released. Thereby flows the blood back into the brachial artery, creating noise become. When the first Korotkoff tone is detected, the at this moment on the manometer read value the systolic Blood pressure value. After that, the air in the cuff is quickly released, causing the noises first increase, then stay the same and eventually lose weight. If the last one Korotkoff sound is detected, which results in the moment at Manometer read the diastolic blood pressure value.

1 shows a diagram, where a stands for the blood pressure curve and b for the air pressure curve of the cuff. After the Korotkoff procedure, the first intersection of a and b gives the systolic blood pressure value and the last intersection of a and b the diastolic blood pressure value. In this measurement, the cuff must be inflated and vented, so that the measuring time is longer. In addition, the throttling of the brachial artery is uncomfortable.

Therefore, the sphygmomanometer was developed using the vascular volume change as a measurement signal. Vascular volume change, like blood pressure, is also one of the physical parameters of the circulatory system. Through the heart cycle, the vessel volume is also changed periodically. To measure the vessel volume change, an optical method is used whose light is reflective or transmissive. In the former, a light-emitting diode is used whose light is reflected by the dermis onto a light sensor. In the latter case, two light-emitting diodes are used, each of which generates a light of different wavelengths (such as red light and infrared light) which radiate through the user's finger and are received by a light sensor. The light sensor generates by the light deflections, which are caused by the change in the vessel diameter, the corresponding measurement signals with which a time course in 1a can be recorded. The blood pressure changes like the vessel volume also periodically. Each cycle begins with the contraction of the heart and ends with the beginning of the next contraction of the heart. Since the optical determination can not obtain absolute vessel volume values and the contraction of the heart with the vessel has a relationship, determination of vascular volume change can not determine precise blood pressure values.

Out For this reason, in view of the disadvantages of the present inventor Solutions, based on longtime Experience in this area, after a long study, numerous experiments and unceasing improvements to the present invention.

task the invention

Of the Invention is based on the object, a method for measuring the blood pressure value by oxygen content in the blood and electrocardiogram to create, by the continuous change of the oxygen content in the blood a temporal course for oxygen content in the blood recorded and this the route of the electrocardiogram for the systole and passing the diastole of the heart, passing through a microprocessor the cut surface the time course of the oxygen content in the blood, which is with the range of the electrocardiogram for the systole and the diastole of the Herzens is in the same period of time, based on a stored Billing formula the systolic and diastolic blood pressure value can calculate.

Another object of the present invention is to provide a blood pressure and electrocardiogram blood pressure value measuring apparatus comprising a machine body having provided thereon a display for displaying measurement results and two electrodes pressed by the user's two thumbs can be, wherein in the machine body, a microprocessor and the corresponding circuits are provided, and wherein on eienr side of the machine body, a measuring element is provided. In use, the user presses the electrodes with both thumbs and clamps the measuring element another finger of the user. Thus, the time course of the oxygen content in the blood and the distance of the Elekrokardiogrammes for systole and diastole simultaneously on display 11 are displayed. The microprocessor calculates the systolic and diastolic blood pressure values.

The invention is based on a still further object to provide a device for measuring the blood pressure value by oxygen content in the blood and electrocardiogram, comprising a machine body on which a display is provided for displaying the measurement results, wherein two electrodes each via a line to the machine body whereby the electrodes can be adhered to the body of the user, wherein a microprocessor and the corresponding circuits are provided in the machine body, and wherein on one side of the machine body a measuring element is provided. In use, the electrodes are glued to the user's body and the measuring element clamps another user's finger. Thus, the time course of the oxygen content in the blood and the distance of the electrocardiogram for the systole and the diastole can simultaneously on the display 11 are displayed. The microprocessor calculates the systolic and diastolic blood pressure values. Therefore, continuous monitoring is possible.

Of the Invention is a still further object, a device for measuring the blood pressure value by oxygen content in the blood and To create an electrocardiogram, the microprocessor with a Input / output device connected by a wired or wireless transmission can be done.

short Description of the drawings

1 a diagram of the blood pressure curve of the conventional solution,

1a a diagram of the blood pressure curve of another conventional solution,

2 a diagram of the invention,

2a an enlarged view according to 2 .

3 a block circuit of the invention,

4 a representation of the device according to the invention,

5 a representation of the device according to the invention in use,

6 a representation of another embodiment of the device according to the invention.

Ways to execute the invention

The The invention relates to a method for measuring the blood pressure value by oxygen content in the blood and electrocardiogram. Under the Oxygen content in the blood (SPO2) is the percentage of hemoglobin (HbO2) bound to oxygen throughout the hemoglobin (HB) understood. To measure the oxygen content in the blood currently uses photometry and hemovolumetry. in the present embodiment becomes a meter for oxygen content described in the blood by photometry, to which the invention is not limited is.

At the Oxygen content meter in the blood by photometry become a red light of 660 nm and a Infrared light of 940 nm used. Because the absorption capacity of oxygen-containing hemoglobin (HbO2) for the red light of 660 nm lower than the infrared light of 940 nm, the oxygen content in the blood can be compared by comparing Absorbed amount of red light and infrared light become.

The Oxygen content meter In the blood, the light can also cause the cardiac cycle that passes through the Systole and the diastole is generated, measure. At systole is the vessel volume and thus the light absorption amount highest, whereby the detected light energy is lowest. At diastole is reversed. Therefore, it is enables, through the vessel volume change to record the time course of the oxygen content.

The Electrocardiogram (ECG) is used to record the cardiac current curve. The heart muscle can contract and expand, creating a small current is generated, which flows through the whole body. If the electrodes of the electrocardiogram are connected to the body are, the cardiac current curve can be recorded.

in this connection flows the small current generated by systole and diastole is, through the electrodes, attached to the hands or legs of the user stick into a galvanometer that has the cardiac current curve on a piece of paper records.

In the medical diagnosis 12 schemes are used for the electrocardiogram containing three standard schemes I, II, III, three pressure schemes aVR, aVL, aVF and six chest schemes V1, V2, V3, V4, V5, V6. The electrocardiogram generates a periodic current curve whose level change is caused by the contraction and dilation of the heart. As can be seen from the figure, the P wave corresponds to the depolarization in the atria, the GRS complex to the depolarization in the chambers, the T wave to the repolarization on in the chambers, the PR distance of time between the depolarization of the atria and the transmission of the wave of depolarization on the AV node and the QT distance of time between the depolarization and repolarization of the chambers. Therefore, the PR distance for systole and the PST distance for diastole is indicative.

in the present embodiment the first scheme is used to which the invention is not limited. When measuring, the user can use both hands to hold the electrodes of the galvanometer Contact, causing the temporal level change through the heart cycle can be recorded. Due to the recorded current curve, the Systole and diastole of the heart are detected.

Like from the 2 and 2a can be seen, the systole and diastole of the heart can be detected by the electrocardiogram. The systolic and diastolic blood pressure values can be calculated by incorporating the measurement result from the oxygen content measuring device in the blood with the electrocardiogram current curve. In this case, a time course for the continuous change in the oxygen content in the blood is recorded. Through the intersection of the time course of the oxygen content in the blood, which is in the same period with the PR and PST path of the Elektrokardiogrames, a microprocessor based on a stored calculation formula can calculate the systolic and diastolic blood pressure value. Therefore, systolic and diastolic blood pressure, pulse rate, blood oxygen level and electrocardiogram can be obtained simultaneously.

3 and 4 show the device for carrying out the method according to the invention, the machine body 10 includes in which a microprocessor 20 is provided, with a display 11 , an input / output device 12 . 13 and a power switch 14 connected is. the display 11 is on the machine body 10 arranged and serves to display the measurement results. The input device 12 is on the machine body 10 and is used to enter the commands (as the display of the systolic and diastolic blood pressure, the electrocardiogram or the blood pressure curve choose). The output device 13 may be a wired or wireless transmission device connected to an external electronic product 17 (such as PDA, computer, etc.). In the microprocessor 20 the corresponding data are stored. The microprocessor 20 is further provided with an analog-to-digital converter circuit 30 a signal filter circuit 31 and a signal amplifier circuit 32 in series, the signal amplifier circuit 32 with the electrodes 15 on the machine body 10 and a measuring element 16 connected is. On one side of the measuring element 16 two light tubes are arranged, which respectively generate a red light and an infrared light. On the other side of the measuring element 16 a light sensor is arranged, which receives the radiated by the finger red light and infrared light and converts it into level signals. The absorption of light from the skin, muscle, fat, venous blood, dye and bone remains constant, while the concentration of HBO2 and HB in the arterial blood changes periodically, so that the measurement signals also have a periodic change. By the measurement signals, the oxygen content in the blood and the Pulsschalg can be calculated and the time course of the oxygen content recorded. The electrodes 15 are used to measure the level change due to the contraction and expansion of the heart.

When used, the user can use the electrodes with both thumbs 15 to press ( 5 ). The electrodes 15 can also each have a line with the machine body 10 be connected so that the electrodes 15 on the body of the user ( 6 ) can be glued. The measuring element 16 can pinch another finger. Thus, the time course of the oxygen content in the blood and the distance of the electrocardiogram for the systole and the diastole can simultaneously on the display 11 are displayed. The measurement signals are passed through the analog-to-digital converter circuit 30 , the signal filter circuit 31 and the signal amplifier circuit 32 to the microprocessor 20 which calculates the systolic and diastolic blood pressure value according to the stored calculation formula.

by virtue of the above facts, the invention corresponds in its availability, Progressiveness and novelty fully the requirements for a patent.

Claims (6)

Method for measuring the blood pressure value by oxygen content in the blood and electrocardiogram, which transfers the time course of the oxygen content in the blood of the distance of the electrocardiogram for the systole and the diastole of the heart, wherein a microprocessor ( 20 ) can calculate the systolic and diastolic blood pressure value by means of a stored calculation formula through the intersection of the time course of the oxygen content in the blood, which is with the distance of the electrocardiogram for systole and diastole in the same time span. A method according to claim 1, characterized in that of the sectional surfaces of the time course of the oxygen content in the blood for more than two consecutive stretches of the electrocardiogram for systole and diastole averaging is calculated. Apparatus for carrying out the method according to the above-mentioned claims, consisting of a microprocessor ( 20 ), which is used for control and calculation, a display ( 11 ), with the microprocessor ( 20 ) and is used to display the measurement results, an input device ( 12 ), with the microprocessor ( 20 ) and is used to input the commands, an analog-to-digital converter circuit ( 30 ) connected to the microprocessor ( 20 ) and convert the analog signals into digital signals, a signal filter circuit ( 31 ) connected to the analog-to-digital converter circuit ( 30 ) and can filter out the noise signals, a signal amplifier circuit ( 32 ) connected to the signal filter circuit ( 31 ) and amplify the signals, two electrodes ( 15 ) connected to the signal amplifier circuit ( 32 ) and for contact with the body of the user, and a measuring element ( 16 ) connected to the signal amplifier circuit ( 32 ) are connected. Apparatus according to claim 3, characterized by a machine body ( 10 ). Device according to claim 3, characterized in that the electrodes ( 15 ) on the machine body ( 10 ) are arranged and can be pressed by the fingers of the user. Device according to claim 3, characterized in that the electrodes ( 15 ) each via a line to the machine body ( 10 ) and can be glued to the body of the user.