DocumentCode :
863353
Title :
A closed-loop control scheme for intraaortic balloon pumping
Author :
Zelano, John A. ; Li, John K. ; Welkowitz, Walter
Author_Institution :
Dept. of Electr. Eng., New Jersey Inst. of Technol., Newark, NJ, USA
Volume :
37
Issue :
2
fYear :
1990
Firstpage :
182
Lastpage :
192
Abstract :
The beneficial hemodynamic efforts of intraaortic balloon pumping (IABP) are critically dependent on balloon timing relative to the diastolic phase of the cardiac cycle. A microprocessor-based controller has been developed to implement real-time automation of IABP using P-R intervals to regulate balloon deflation and systolic time intervals to trigger balloon inflation in a semiautomatic fashion. Experiments were performed on anesthetized open-chest dogs. Simultaneous measurements of aortic pressure and flow, coronary flow, and left ventricular pressure were recorded. Muscle segment lengths in normal and ischemic border zones were also measured from implanted pairs of endocardial ultrasonic dimension gages. P-waves were obtained from atrial cardiograms, and heart sounds were detected using a special filtering circuit. Both signals were input together with ECG to automate IABP timing. Systolic time intervals were calculated in real time. IABP efficacy was assessed from changes in aortic flow, coronary flow, tension time index, end diastolic pressure, and the endocardial viability ratio.
Keywords :
artificial organs; biocontrol; cardiology; closed loop systems; haemodynamics; ECG; anesthetized open-chest dogs; aortic flow; atrial cardiograms; balloon deflation; balloon timing; beneficial hemodynamic efforts; cardiac cycle diastolic phase; closed-loop control scheme; coronary flow; end diastolic pressure; endocardial viability ratio; heart sounds; intraaortic balloon pumping; muscle segment length; systolic time intervals; tension time index; Automatic control; Automation; Dogs; Fluid flow measurement; Hemodynamics; Length measurement; Muscles; Pressure measurement; Timing; Ultrasonic variables measurement; Animals; Dogs; Hemodynamics; Intra-Aortic Balloon Pumping; Mathematical Computing; Microcomputers; Monitoring, Physiologic; Oxygen Consumption;
fLanguage :
English
Journal_Title :
Biomedical Engineering, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9294
Type :
jour
DOI :
10.1109/10.46258
Filename :
46258
Link To Document :
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