Gargasas Liudas, Janusauskas Arturas, Lukosevicius Arunas, Vainoras Alfonsas, Ruseckas Rimtautas, Korsakas Stasys, Miskinis Vytenis
Institute of Cardiology, Kaunas University of Medicine, Sukileliu avenue 17, 50167 Kaunas, Lithuania.
Stud Health Technol Inform. 2004;105:131-41.
Cardiovascular diseases remain the main cause of morbidity and mortality in Lithuania, and early detection of those diseases is one of opportunities to reduce this problem. Usage of information technologies including clinical decision support systems, telemedicine networks and computer analysis of cardiac signals, can serve this purpose. Therefore, the presented paper deals with development of a system for the analysis of 12-lead electrocardiograms (ECG), impedance cardiograms (ICG) and seismocardiograms (SCG) in the aim to use it in a wider cardiologic teleconsultative system. Such a complex set of signals makes it possible to monitor the electric (ECG), hemodynamic (ICG) and mechanical (SCG) properties of cardiac activity. The hardware for synchronous recording of 12-lead ECG, ICG and SCG as well as the software containing programs for signal input, recognition, measurement, analysis and data transmission has been developed.
心血管疾病仍然是立陶宛发病和死亡的主要原因,而这些疾病的早期检测是减少这一问题的机会之一。使用包括临床决策支持系统、远程医疗网络和心脏信号计算机分析在内的信息技术可以达到这一目的。因此,本文论述了一种用于分析12导联心电图(ECG)、阻抗心动图(ICG)和心震图(SCG)的系统的开发,旨在将其应用于更广泛的心脏远程咨询系统。这样一组复杂的信号能够监测心脏活动的电(ECG)、血流动力学(ICG)和机械(SCG)特性。已经开发出用于同步记录12导联ECG、ICG和SCG的硬件以及包含信号输入、识别、测量、分析和数据传输程序的软件。
