Title :
Accelerating Reperfusion with low frequency vessel deformation during myocardial infarction
Author :
Marzencki, M. ; Kajbafzadeh, B. ; Khosrow-khavar, Farzad ; Kaminska, Bozena ; Menon, Carlo
Author_Institution :
CiBER, Simon Fraser Univ., Burnaby, BC, Canada
Abstract :
Delay in restoration of vessel patency after coronary infarction is a major factor affecting the survival rate of heart attack patients and the amount of myocardial muscle death. To this end, we propose Arterial Deformation Accelerated Reperfusion (ADAR), a treatment method that can be initiated immediately after the onset of symptoms in the feld by a minimally trained individual. It consists in applying mechanical deformation to a major artery to induce pressure waves in the bloodstream at frequencies well above the pulse rate. We discuss the proposed method, introduce an example architecture of a device implementing it and present results from in-vitro studies aiming at validation of the proposed approach.
Keywords :
biomechanics; blood vessels; cardiovascular system; computer architecture; deformation; diseases; electrocardiography; haemodynamics; medical computing; muscle; patient treatment; ECG; arterial deformation accelerated reperfusion; coronary infarction; device architecture; heart attack patients; low frequency vessel deformation; mechanical deformation; myocardial infarction; myocardial muscle death; restoration delay; survival rate; treatment method; vessel patency; Acceleration; Arteries; Blood; Educational institutions; Heart; Myocardium; Vibrations;
Conference_Titel :
Computing in Cardiology (CinC), 2012
Conference_Location :
Krakow
Print_ISBN :
978-1-4673-2076-4
