CN105496396A - Portable electrocardiogram (ECG) machine with motion monitoring function - Google Patents

Abstract

The invention provides a portable electrocardiogram (ECG) machine with a motion monitoring function and an ECG output scheme for synchronous display of an ECG and exercise intensity, and belongs to the technical field of ECG detection. The ECG device at present does not have a motion monitoring module, and cannot synchronously monitor and record the motion state of a user during long-term and continuous ECG monitoring, so that while an ECG is output, the motion state of the user cannot be provided synchronously for reference for medical personnel or an analysis program, thereby limiting the practicability of long-term and continuous ECG monitoring. The portable ECG machine provided by the invention is provided with a motion monitoring module, and can synchronously record motion data of the user during ECG measurement, a system in local or cloud calculates the exercise intensity according to original motion data, the system can synchronously output the exercise intensity and the average exercise intensity data of the user in a chart, color or grayscale mode while outputting the ECG, and medical personnel or the analysis program can judge the heart health condition of the user by combining exercise loads.

Description

A kind of portable electrocardiograph with motion monitoring function

Technical field

The invention belongs to technical field of electrocardiogram detection, specifically comprise the electrocardiogram output scheme of a kind of portable electrocardiograph with motion monitoring function and a kind of simultaneous display electrocardiogram and sports load.

Background technology

Current Electrocardioscopy, based on electrocardiogram, comprises conventional resting electrocardiogram, exercise electrocardiogram, 24 hr Ambulatory EKG Monitoring (Holter) and lasting cardiac monitoring (for intrtqoperative care or Intensive Care Therapy).Along with the progress of technology and the reduction of manufacturing cost, the household electrocardiogram equipment of various small inexpensive also starts to popularize gradually.Electrocardiogram and household electrocardiogram do not have the different of essence, but due to the embodiment of electrocardiogram too complicated for domestic consumer, household electrocardiogram simplifies in a lot.

Above Electrocardioscopy all has its limitation: the conventional tranquillization Electrocardioscopy time is very short, is easy to miss transient anomalous ecg; Exercise electrocardiogram likely finds invisible heart abnormality situation, but its checking process is complicated, covers crowd limited, can not as routine examination; Although ambulatory electrocardiogram can continue to monitor 24 hours, it leads less, can not reflect the situation of whole heart, and the daily routines of patient easily cause electrode delamination or produce various interference to electrocardiosignal; And continue cardiac monitoring usually only for guarding the vital sign of critical or postoperative patient, main purpose is in order to avoid patient occurs when no supervision unexpected, other appearance in observation process generally get the brush-off extremely, and its content also can not go on record and enter medical archive; Household electrocardiogram then more adopts non-standard leading, and position of leading is quite random, its Contents for Monitoring and conclusion is general is not adopted by clinical.

Although electrocardiogram can be widely used in the fields such as medical diagnosis on disease, disease prevention, sport health management, athletics sports in theory, because its operational approach is still too complicated for unprofessional user, current electrocardiogram is mainly used in the Diagnosis and Treat of clinical disease, be used to guide athletics and physical training by minority sport activities in addition, electrocardiogram does not come into one's own completely in disease prevention and the managerial potentiality of sport health and drops into application.

People just expect that medical science can from disease therapy to the development that prevents disease always for a long time.Finding health abnormal in early stage and preventing it to develop further is one of important content of preventive medicine, and the health monitoring continued is the important measures finding abnormal in early stage.Wearable device has the incomparable comfortableness of legacy equipment and convenience, becomes the main means of lasting health monitoring gradually.Along with popularizing gradually of wearable device, lasting health monitoring is easily accepted by a user gradually.But at present, the health indicator that wearable device can be monitored is very limited, most equipment can only detect the simple content such as heart rate, body temperature, breathing.From clinical angle, these contents are only just having reference value in conjunction with when symptom and other clinical datas.Because wearable device self does not provide the ability of other clinical datas simultaneously, therefore these equipment are not worth disease prevention and treatment at present, its range of application can only be limited to " sport health management ", cannot extend to more valuable disease prevention and treatment field further.But nonetheless, because current wearable device can do nothing to help the concrete condition of health before, during and after motion that user truly understands oneself, therefore strictly, these equipment only achieve the function of quantity of motion management at most, far away apart from the management of real sport health.

For one of the important directions that clinical treatment provides Data support and more will be wearable device development.At present, the scope of application of wearable device is confined to substantially can the project of non-invasive monitoring, as heart rate, breathing, body temperature, blood pressure, blood oxygen, electrocardio, brain electricity etc., needs the biochemistry index test gathering biological sample generally not belong to its scope of application.From Point of View of Clinical, the index being applicable to utilizing wearable device to continue to monitor for a long time is also few, generally must possess following characteristics: index has independently clinical meaning; Index cannot or be difficult to be reviewed; Index change is acutely easily failed to pinpoint a disease in diagnosis; Index change has health control, prevention or diagnostic value.Electrocardiogram very perfectly have matched these features: heart is beated about 100,000 times every day, namely produces the electrocardiographic wave of equivalent amount, in most cases only has minority waveform to exist abnormal, is easy to be missed; Electrocardiographic abnormality itself independently can support clinical diagnosis; From clinical meaning, heart disease is in the prostatitis of the cause of death, and owing to lacking monitoring and early warning mechanism, wherein quite a few never found heart abnormality before morbidity or lethal outbreak.Therefore electrocardiogram is one of index accommodating long term monitoring most.

Except the remarkable meaning in disease prevention and diagnosis, the long-term cardioelectric monitor that continues will improve wearable device greatly in the managerial effect of sport health.Case of dying suddenly in amateur sports player and white collar crowd is in recent years of common occurrence.According to clinical experience, these cases generally have potential physically different or invisible disease, and motion or pressure load exceed health ability to bear and induce fatal disease outbreak, and wherein nearly all case is all die from heart attack.Current wearable device by the indexs such as simple heart rate, breathing can not help user formulate the most applicable they activity scheme and behavioural habits, user more can not be helped to find the various potential exception that may lead to grave consequences.And lasting cardioelectric monitor can help user to find heart abnormality situation and timely reminding user, thus help user to set up suitable motion and living habit, avoid unaccommodated type of exercise and sports load, avoid the behavioural habits that are harmful to and life style, thus avoid unexpected generation of moving to a great extent.

Simple dependence medical institutions cannot Electrocardiographic user from patients treated with extended to general population, and user cannot bear its high Resource Dependence and expense expenditure, and therefore relevant device must domestic.As previously mentioned, the problem that household electrocardiogram equipment is maximum is that electrode position is nonstandard thus cause its result cannot be admitted by clinical.There are some technical schemes that domestic consumer can be helped to solve location and the fixation problem of ECG electrode at present, thus add the practicality of wearable ecg equipment, user may be monitored as wearing the cardiac health of simple use wearable device to oneself bracelet.

Wearable device means that user may be in any active state at any time when accepting electrocardiogram monitoring, and any body movement all means certain sports load.The physiological stress that sports load bears when representing User Activity, comprises quantity of motion and exercise intensity.Sports load size all can impact Electrocardiographic waveform and heart rate, and such as healthy youngster heart rate when dash can reach 180 beats/min, and waveform also there will be some changes simultaneously.Current conventional resting electrocardiogram default user is in quiescent condition when accepting Electrocardioscopy; Exercise electrocardiogram carries out under doctor's supervision, and sports load when doctor is checked to user also has sufficient understanding, and therefore current ecg equipment does not all have motion monitoring module, the related content of electrocardiogram output content also not with sports load.The sports load of long-term user when continuing cardioelectric monitor is at any time in change, if medical personnel do not understand the electrocardiogram when sports load of user and the standard judgement of direct resting electrocardiogram are moved, and the result that just may lead to errors.Therefore, Continuous electrocardiographic monitoring equipment must possess the ability of synchronous monitoring user movement situation, and synchronism output electrocardiogram and sports load can carry out reference for relevant speciality personage.

Summary of the invention

The technical problem to be solved in the present invention is: current ecg equipment does not have motion monitoring module, can not long-term continue cardioelectric monitor time synchronous monitoring recording user kinestate, therefore cannot synchronously provide when exporting electrocardiogram the kinestate of user for medical personnel or analysis programme reference, thus limit the practicality of long-term Continuous electrocardiographic monitoring.

For solving above technical problem, the present invention is that portable electrocardiograph adds motion monitoring module, and provides the electrocardiogram output scheme of a kind of simultaneous display electrocardiogram and sports load.Wherein, described motion monitoring module is made up of three axis accelerometer, except motion monitoring module, described portable electrocardiograph also comprises the necessary electrode of common portable electrocardiograph and conducting wire, conducting wire interface, signal acquisition module (or being called " integrated simulation front end "), input module (comprising button, keyboard and touch screen), MCU, power supply (battery) and power management, display module (optional), wireless communication module (optional), wire communication module (optional), alarm module, memory module and clock circuit etc.

Motion monitoring module synchronization is utilized to monitor and the exercise data of recording user when gathering electrocardiogram according to portable electrocardiograph of the present invention, the original motion data is saved to memory module, through portable electrocardiograph, local device or obtain sports load data after server process beyond the clouds, comprise exercise intensity and quantity of motion, wherein exercise intensity reflection human body is at the physiological stress of each moment, and quantity of motion is motion total amount accumulative in special time.Because motion exists certain hysteresis effect to the impact of heart beating, after such as setting in motion, heart rate can rise gradually, after stop motion, heart rate just can return to normal level after a while, therefore reflects that the exercise intensity of instant physiological stress is not the optimal reference foundation of exercise electrocardiogram.On the basis of exercise intensity, the present invention also further provides the concept of mean motion intensity better to reflect the impact of motion on electrocardio-activity, namely gets the mean motion intensity of arithmetic mean of instantaneous value as current time of all transient motion intensity of front some time.Pass in time the impact of heart due to motion and weaken gradually, also can calculate the mean motion intensity of any time with average weighted algorithm, the time is more forward, and weighted value is lower.The impact of motion on heart better can be reflected according to the mean motion intensity that average weighted mode calculates.System is when exporting electrocardiogram, and on axle at the same time, can show electrocardiographic wave, exercise intensity and average exercise intensity, wherein exercise intensity and average exercise intensity are with graph modes such as broken line graph, area graph or bar diagrams simultaneously.Also can represent the exercise intensity of any time and average exercise intensity by the mode of color/gray scale, for gray scale, greyscale color is more shallow, and representative exercise intensity is at that time lower.For the exercise intensity represented with broken line graph, area graph and bar diagram, output interface provides exercise intensity reference line for related personnel or analysis programme reference simultaneously.The gross area that quantity of motion in observation period can be covered by exercise intensity broken line graph or area graph represents.

Be further used as improvement project of the present invention, described motion monitoring module can upgrade to three axis accelerometer and add three-axis gyroscope, or three axis accelerometer adds three axle magnetometers, or three axis accelerometer adds three-axis gyroscope and adds three axle magnetometers, or three axis accelerometer adds baroceptor, or three axis accelerometer adds three-axis gyroscope and adds baroceptor, or three axis accelerometer adds three axle magnetometers and adds baroceptor, or three axis accelerometer adds three-axis gyroscope and adds the scheme that three axle magnetometers add baroceptor.

The invention has the beneficial effects as follows: can the exercise data of simultaneously recording user when measuring electrocardiogram with the portable electrocardiograph of motion monitoring function, local device or cloud server process the original motion data also calculate exercise intensity, can with mode synchronism output exercise intensity and/or mean motion intensity datas such as broken line graph, area graph, bar diagram, color, gray scales during system output electrocardiogram, in conjunction with sports load, medical personnel or analysis programme can judge that whether the electrocardiogram of user is normal.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the portable electrocardiograph with motion monitoring function according to the embodiment of the present invention.

Fig. 2 is the using state schematic diagram of the portable electrocardiograph with motion monitoring function of the present invention.

Fig. 3 is the electrocardiogram with motion intensity curve of the present invention.

Fig. 4 is the electrocardiogram representing exercise intensity with gray scale of the present invention.

In figure: 1. conducting wire interface 2. integrated simulation front end 3. motion monitoring module 4. input module 5. clock circuit 6. power supply and the portable electrocardiograph main frame of power management 7. display module 8. microcontroller 9. microprocessor 10.DSP11. wireless communication module 12. wire communication module 13. alarm module 14. memory module 15..

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described in more detail.

As shown in Figure 1, a kind of portable electrocardiograph with motion monitoring function, motion monitoring module 3 is carried in described portable electrocardiograph main frame, all the other nucleus modules, with conventional portable electrocardiograph, comprise conducting wire interface 1, integrated simulation front end 2, input module 4, clock circuit 5, power supply and power management 6, display module 7, microcontroller 8, microprocessor 9, DSP10, wireless communication module 11, wire communication module 12, alarm module 13 and memory module 14.Motion monitoring module 3 comprises three axis accelerometer, and three axis accelerometer is responsible for gathering acceleration information that user's body fastens at three-dimensional coordinate and is saved in memory module 14.

As shown in Figure 2, ECG electrode is fixed properly the health to user and is connected to portable electrocardiograph main frame 15 by conducting wire, and the position of waist or other applicable motion monitorings that portable electrocardiograph main frame 15 is fixed on user is as upper arm.When electrocardiograph is in running order, user can carry out any daily routines, and the electrocardiogram of described portable electrocardiograph main frame continuous collecting user and exercise data are also saved in memory module 14.

Preferred version as shown in Figure 3, with the electrocardiogram of motion intensity curve, comprises electrocardiogram and respectively to lead waveform and exercise intensity chart.Respectively lead on waveform and the same time shaft of exercise intensity chart and show, namely horizontal line is time shaft, and on time shaft, any point makes all waveforms corresponding to vertical line and exercise intensity is all in the same time.Exercise intensity chart comprises exercise intensity and average exercise intensity.The exercise intensity of each time point is instant movement intensity level at that time, calculates according to the original motion data that motion monitoring module 3 monitored at that time.The mean motion intensity of each time point is by the arithmetic of the exercise intensity of all samplings in durations some before this time point or weighted mean.Exercise intensity and horizontal movement intensity can show in a chart, and chart also can be divided to show respectively, can be broken line graph, area graph or bar diagram.Represent exercise intensity in the mode of broken line graph in this figure.The mode of broken line graph is not only more suitable for printout, and the area that motion intensity curve covers can reflect quantity of motion.There is provided exercise intensity reference line in chart simultaneously, exercise intensity reference line is similar to the training difficulty in Trimp system conventional in athletic training, be divided into some shelves to the limit from tranquillization, represent in the mode of abscissa, the exercise intensity contrasting each time point for user is in any level.

Preferred version as shown in Figure 4, represents the electrocardiogram of exercise intensity with gray scale, the exercise intensity of user and average exercise intensity are presented at electrocardiogram in the mode of gray scale and export the page, and during tranquillization, gray scale is 0, and when exercise intensity is the highest, gray scale is 10.The program, when output content is supported colored, also can replace with the color scheme more easily identified.User can according to color/gray scale judgement exercise intensity at that time.

Be further used as one of improvement project of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer and baroceptor (or containing the integral sensor system of three axis accelerometer and baroceptor), can the acceleration change fastened at three-dimensional coordinate of synchronous monitoring user's body and air pressure change situation when monitor ECG, and electrocardiogram, 3-axis acceleration data and barometric information are recorded to memory module.

Be further used as improvement project two of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer and three-axis gyroscope (or containing the integral sensor system of three axis accelerometer and three-axis gyroscope), can the acceleration fastened at three-dimensional coordinate of synchronous monitoring user's body and angular velocity situation of change when monitor ECG, and electrocardiogram, acceleration information and angular velocity data are recorded to memory module.

Be further used as improvement project three of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer, three-axis gyroscope and baroceptor (or containing the integral sensor system of three axis accelerometer, three-axis gyroscope and baroceptor), can synchronous monitoring user's body acceleration, angular velocity data and the air pressure situation of change fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, angular velocity data and barometric information are recorded to memory module.

Be further used as improvement project four of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer and three axle magnetometers (or containing the integral sensor system of three axis accelerometer and three axle magnetometers), can the acceleration fastened at three-dimensional coordinate of synchronous monitoring user's body and changes of magnetic field situation when monitor ECG, and electrocardiogram, acceleration information and magnetic field data are recorded to memory module.

Be further used as improvement project five of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer, three axle magnetometers and baroceptor (or containing the integral sensor system of three axis accelerometer, three axle magnetometers and baroceptor), can synchronous monitoring user's body acceleration, magnetic field data and the air pressure situation of change fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, magnetic field data and barometric information are recorded to memory module.

Be further used as improvement project six of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer, three-axis gyroscope and three axle magnetometers (or containing the integral sensor system of three axis accelerometer, three-axis gyroscope and three axle magnetometers), can synchronous monitoring user's body acceleration, angular velocity and the changes of magnetic field situation fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, angular velocity data and magnetic field data are recorded to memory module.

Be further used as improvement project seven of the present invention, the motion monitoring module 3 of described portable electrocardiograph is containing three axis accelerometer, three-axis gyroscope, three axle magnetometers and baroceptor (or containing the integral sensor system of three axis accelerometer, three-axis gyroscope, three axle magnetometers and baroceptor), can synchronous monitoring user's body acceleration, angular velocity, magnetic field data and the air pressure situation of change fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, angular velocity data, magnetic field data and barometric information are recorded to memory module.

These are only the explanation of setting forth core content of the present invention, relevant speciality personage can be readily appreciated that essence spirit of the present invention and carry out certain change or change.All within essence spirit of the present invention and principle, any amendment, replacement or improvement etc., all should belong within protection scope of the present invention.

Claims (10)

1. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer, can the acceleration change situation fastened at three-dimensional coordinate of synchronous monitoring user's body when monitor ECG, and electrocardiogram and 3-axis acceleration data are recorded to memory module.

2. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer and baroceptor (or containing the integral sensor system of three axis accelerometer and baroceptor), can the acceleration change fastened at three-dimensional coordinate of synchronous monitoring user's body and air pressure change situation when monitor ECG, and electrocardiogram, 3-axis acceleration data and barometric information are recorded to memory module.

3. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer and three-axis gyroscope (or containing the integral sensor system of three axis accelerometer and three-axis gyroscope), can the acceleration fastened at three-dimensional coordinate of synchronous monitoring user's body and angular velocity situation of change when monitor ECG, and electrocardiogram, acceleration information and angular velocity data are recorded to memory module.

4. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer, three-axis gyroscope and baroceptor (or containing the integral sensor system of three axis accelerometer, three-axis gyroscope and baroceptor), can synchronous monitoring user's body acceleration, angular velocity data and the air pressure situation of change fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, angular velocity data and barometric information are recorded to memory module.

5. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer and three axle magnetometers (or containing the integral sensor system of three axis accelerometer and three axle magnetometers), can the acceleration fastened at three-dimensional coordinate of synchronous monitoring user's body and changes of magnetic field situation when monitor ECG, and electrocardiogram, acceleration information and magnetic field data are recorded to memory module.

6. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer, three axle magnetometers and baroceptor (or containing the integral sensor system of three axis accelerometer, three axle magnetometers and baroceptor), can synchronous monitoring user's body acceleration, magnetic field data and the air pressure situation of change fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, magnetic field data and barometric information are recorded to memory module.

7. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer, three-axis gyroscope and three axle magnetometers (or containing the integral sensor system of three axis accelerometer, three-axis gyroscope and three axle magnetometers), can synchronous monitoring user's body acceleration, angular velocity and the changes of magnetic field situation fastened at three-dimensional coordinate when monitor ECG, and electrocardiogram, acceleration information, angular velocity data and magnetic field data are recorded to memory module.

8. one kind can the portable electrocardiograph of synchronous recording user movement situation, it is characterized in that: described portable electrocardiograph carries three axis accelerometer, three-axis gyroscope, three axle magnetometers and baroceptor (or containing three axis accelerometer, three-axis gyroscope, the integral sensor system of three axle magnetometers and baroceptor), can the acceleration fastened at three-dimensional coordinate of synchronous monitoring user's body when monitor ECG, angular velocity, magnetic field data and air pressure situation of change, and by electrocardiogram, acceleration information, angular velocity data, magnetic field data and barometric information are recorded to memory module.

9. electrocardiogram print, screen display or an output scheme, it is characterized in that, the exercise intensity of system print, display or respectively can lead in simultaneous display on axle at the same time when exporting electrocardiogram waveform and user.

10. electrocardiogram according to claim 9 prints, shows or output scheme, it is characterized in that, described exercise intensity comprises exercise intensity and/or mean motion intensity, the exercise intensity of each time point is the exercise intensity instantaneous value that system calculates according to this time point motion sensor data at that time, the mean motion intensity of each time point is arithmetic or the weighted mean of all transient motion intensity in some time section before this time point, and described exercise intensity and mean motion intensity show in the mode of broken line graph, area graph, bar diagram, gray scale or color.