北京生物医学工程

基于单片机控制的血压连续检测系统_________

An instantaneous blood pressure measuring system at the wrist based on chip microprocessor

作者：宋义林李勇高树枚张扬祁林刘琳

单位：           黑龙江大学机电工程学院(哈尔滨150080)    

关键词：血压；桡骨动脉；无创性检测；单片机

分类号：

出版年·卷·期（页码）：2013·32·2（180-185）

摘要：

目的为实现高血压症的早期发现、早期诊断和早期治疗，笔者开发了基于容积补偿法和单片机控制的手腕式无创性血压连续检测系统。方法本系统以手腕处的桡骨动脉为检测对象，采用局部加压式袖带和新型电空变换器，并通过单片机的软硬件控制，实现了便携式、连续性和高精度检测系统的研发。同时，实验评价了系统的检测性能，与电子血压计检测装置进行了检测精度的对比实验。结果局部加压式袖带可以有效压迫桡骨动脉而不产生末梢血管的淤血，新型电空变换器具有良好的频率特性并实现袖带的瞬时压力控制。本系统与同时利用电子血压计测得的血压值，具有很好的相关性。血压连续曲线在被实验者安静和呼吸干扰时，都有较好的跟随性。结论本系统以桡骨动脉为检测对象的无创性血压连续检测是可行的。

Objective In order to achieve the early detection，early diagnosis and early treatment of hypertension，an instantaneous blood pressure measuring system at the wrist is developed based on the volume-compensation method and PIC microcontroller in this paper. Methods The radial artery at wrist is as the object of detection，a local pressurizing cuff and a new type electro-pneumatic converter are used to realize a portable detection system with continuity and highly accuracy. The comparative test between this system and the electronic blood-pressure meter（EBM）is carried out to evaluate the system accuracy. Results The local pressurizing cuff compresses the radial artery effectively and safely，and the electric pneumatic converter with good frequency characteristic is suitable for the control of instantaneous pressure in the cuff. The results obtained from this system using the volume-oscillometric method and those from the electronic blood-pressure meter are well correlated. In addition，the characteristics of the system to measure instantaneous blood pressure are good not only in rest condition，but also with respiratory interference. Conclusions The system is capable of measuring instantaneous blood pressure at radial artery non-invasively.

参考文献：

［1］Yamakoshi K，Simazu H，Shibata M，et al. Indirect measurement of instantaneous arterial blood pressure in the human finger by the vascular unloading technique［J］. IEEE Trans Biomed Eng，1980，BME-27：150-155.

［2］Yamakoshi K，Simazu H，Shibata M，et al. Indirect measurement of instantaneous arterial blood pressure in the rat［J］. Am J Physiol，1979，237：H632-H637.
［3］Shimazu H，Ito H，Kobayashi H，et al. New idea to measure diastolic arterial pressure by the volume-oscillometric method in human fingers［J］. Med & Biol Eng & Comput，1986，24:549-554.
［4］Tanaka S，Yamakoshi K. Ambulatory instrument for monitoring indirect beat-by-beat blood pressure in superficial temporal artery using volume-compensation method［J］. Med & Biol Eng. & Comput，1996，34：441-447.
［5］Tanaka S，Gao S，M. Nogawa，et al. Non-invasive Measurement of Instantaneous Blood pressure in the Radial Artery［J］. IEEE Engineering in Medicine and Biology Magazine，2005，24(4)：32-37．
［6］宋义林，高树枚，五十岚朗,等.基于容积补偿法和电阻抗法的小型循环动态监测系统的开发［J］. 中国医疗器械杂志，2009，33(3):167-171.
Song Yilin，Gao Shumei，Akira Ikarashi，et al. Development of a handy-type monitoring system for cardiovascular haemodynamic functions based on the volume-compensation and electrical admittance method［J］. Chinese Journal of Medical lnstrumentation，2009，33(3):167-171.
［7］聂冬，崔萌，朱贻盛，等. 无创光电容积脉搏波检测分析系统［J］. 北京生物医学工程，2012,31（1）：77-80.
NieDong，Cui Meng，Zhu Yisheng，et al. Non-invasive photoplethysmography detection and analysis system［J］. Beijing Biomedical Engineering，2012,31(1)：77-80.
［8］Yamakoshi K and Nakagawara M. Voltage clamp method for the use of electrical admittance plethysmography in human body segments［J］. Med & Biol Eng & Comput，1995，33：740-743.
［9］Shimazu H，Ito H，Kobayashi H，et al. New idea to measure diastolic arterial pressure by the volume-oscillometric method in human fingers［J］. Med & Biol Eng & Comput，1986，24:549-554.
［10］Yamakoshi K. A multipurpose handy-type monitoring system for cardiovascular haemodynamic fuctions［J］. Chemical Industry，2003，54(8)：7-17.

服务与反馈：

【文章下载】【加入收藏】

提示：您还未登录，请登录！点此登录