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Blood pressure real-time measuring device

A real-time measurement and blood pressure technology, applied in the direction of cardiac catheterization, etc., can solve the problems of measurement result error, complicated operation, and unclear corresponding relationship, and achieve the effect of high accuracy

Active Publication Date: 2014-03-19
TSINGHUA UNIV
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  • Application Information

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Problems solved by technology

There are three shortcomings in this method of measurement: first, the measurement of ECG signals requires surface-attached electrodes in multiple places on the human body, which is complicated to operate and requires certain professional skills; second, the corresponding relationship between the R wave of the ECG signal and the pulse wave peak is not very clear. The calculated pulse wave transmission time needs to be corrected; third, the operation involves multiple parts of the human body. In actual application, not only the body needs to carry multiple ECG electrode connections, but also small changes in the measurement posture and the relative positions of each measurement point may cause problems. Changing the measured pulse wave transmission time will lead to certain errors in the measurement results

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Experimental program
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Effect test

Embodiment 1

[0056] The blood pressure real-time measurement device 10 includes a first pulse wave sensing module 12, a second pulse wave sensing module 14, a signal processing module 16 and a wireless transmission module. The first pulse wave sensing module 12 , the second pulse wave sensing module 14 , the signal processing module 16 and the wireless transmission module are integrated on a flexible circuit board and form a wristband for real-time measurement of wrist radial artery blood pressure. Wherein, the first pulse wave sensing module 12 is a pressure pulse wave sensing module, and the second pulse wave sensing module 14 is a photoplethysmography sensing module.

[0057] see Figure 5 , Figure 5 is the measured pressure pulse wave signal and photoplethysmography pulse wave signal. The upper waveform is the pressure pulse wave, and the lower waveform is the photoplethysmographic pulse wave. Among them, in a certain cardiac cycle, the systolic pulse wave transit time difference P...

Embodiment 2

[0059] The blood pressure real-time measurement device of this embodiment is basically the same as the blood pressure real-time measurement device of Embodiment 1, the difference is that in this embodiment, the first pulse wave sensing module 12 is a blood flow velocity pulse wave sensing module, and the second pulse wave The sensing module 14 is a photoplethysmography sensing module.

[0060] see Image 6 , Image 6 are the measured blood flow velocity pulse wave signal and photoplethysmography wave signal. The upper waveform is the blood flow velocity pulse wave, and the lower waveform is the photoplethysmographic pulse wave. Among them, in a certain cardiac cycle, the systolic pulse wave transit time difference PTTS is the time interval between the first peaks of the above two pulse waves (the interval between two solid lines), and the diastolic pulse wave transit time difference PTTD is the above two pulse wave The time interval between the first troughs (the interval b...

Embodiment 3

[0062] The blood pressure real-time measurement device of this embodiment is basically the same as the blood pressure real-time measurement device of Embodiment 1, the difference is that in this embodiment, the first pulse wave sensing module 12 is a blood flow velocity pulse wave sensing module, and the second pulse wave The sensing module 14 is a pressure pulse wave sensing module.

[0063] see Figure 7 , Figure 7 is the measured blood flow velocity pulse wave signal and pressure pulse wave signal. The upper waveform is the blood flow velocity pulse wave, and the lower waveform is the pressure pulse wave. Among them, in a certain cardiac cycle, the systolic pulse wave transit time difference PTTS is the time interval between the first peaks of the above two pulse waves (the interval between two solid lines), and the diastolic pulse wave transit time difference PTTD is the above two pulse wave The time interval between the second peaks (the interval between two dotted li...

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Abstract

The invention relates to a blood pressure real-time measuring device. The blood pressure real-time measuring device comprises a first pulse wave sensing module, a second pulse wave sensing module and a signal processing module, wherein the first pulse wave sensing module is used for obtaining a first pulse wave signal in each cardiac cycle, and the first pulse wave signals are pulse oximeter signals. The second pulse wave sensing module is used for obtaining a second pulse wave signal in each cardiac cycle, and the second pulse wave signals are blood flow velocity pulse wave signals. The signal processing module is used for obtaining the transmission time difference between the first pulse wave signals and the second pulse wave signals, and obtaining the arterial blood pressure in each cardiac cycle according to the transmission time difference, wherein the first pulse wave signals and the second pulse wave signals are located in the same arterial position and simultaneously obtained.

Description

technical field [0001] The invention relates to a blood pressure measuring device, in particular to a real-time blood pressure measuring device. Background technique [0002] Blood pressure is an important physiological parameter reflecting the function of the human circulatory system. Real-time measurement of blood pressure has great practical significance in medicine. First of all, the fluctuation curve of human blood pressure can reflect the relevant information of cardiovascular and cerebrovascular physiological state, and can be used as important reference data. For example, the real-time blood pressure of hypertensive patients directly reflects the patient's physical condition, so real-time blood pressure measurement can be used as an important monitoring method to ensure that hypertensive patients receive timely treatment in case of sudden cardiovascular and cerebrovascular diseases. In clinical medicine, continuous monitoring of blood pressure is required for criti...

Claims

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Application Information

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IPC IPC(8): A61B5/0225
Inventor 邓宁李毅彬李申龙李洪阳张洋高扬宇
Owner TSINGHUA UNIV