Hybrid duplex: a novel method to study the contractile function of heterogeneous myocardium

1 Institute of Immunology and Physiology, Ural Branch of the Russian Academy of Sciences; and 2 Ural State University, Ekaterinburg, Russia; and 3 Cardiac Mechano-Electric Feedback, University Laboratory of Physiology, Oxford, United Kingdom Submitted 29 March 2005 ; accepted in final form 15 July 2...

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Published in:American journal of physiology. Heart and circulatory physiology 2005-12, Vol.289 (6), p.H2733-H2746
Main Authors: Protsenko, Yuri L, Routkevitch, Sergey M, Gur'ev, Vyacheslav Y, Katsnelson, Leonid B, Solovyova, Olga, Lookin, Oleg N, Balakin, Alexander A, Kohl, Peter, Markhasin, Vladimir S
Format: Article
Language:English
Subjects:
Animals
Anisotropy
Computer Simulation
Equipment Design
Equipment Failure Analysis
Heart - physiology
Models, Cardiovascular
Movement - physiology
Myocardial Contraction - physiology
Organ Culture Techniques - instrumentation
Organ Culture Techniques - methods
Physical Stimulation - instrumentation
Physical Stimulation - methods
Rabbits
Rats
Stress, Mechanical
Transducers
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Summary:1 Institute of Immunology and Physiology, Ural Branch of the Russian Academy of Sciences; and 2 Ural State University, Ekaterinburg, Russia; and 3 Cardiac Mechano-Electric Feedback, University Laboratory of Physiology, Oxford, United Kingdom Submitted 29 March 2005 ; accepted in final form 15 July 2005 In an earlier study, we experimentally mimicked the effects of mechanical interaction between different regions of the ventricular wall by allowing pairs of independently maintained cardiac muscle fibers to interact mechanically in series or in parallel. This simple physiological model of heterogeneous myocardium, which has been termed "duplex," has provided new insight into basic effects of cardiac electromechanical heterogeneity. Here, we present a novel "hybrid duplex," where one of the elements is an isolated cardiac muscle and the other a "virtual cardiac muscle." The virtual muscle is represented by a computational model of cardiomyocyte electromechanical activity. We present in detail the computer-based digital control system that governs the mechanical interaction between virtual and biological muscle, the software used for data analysis, and working implementations of the model. Advantages of the hybrid duplex method are discussed, and experimental recordings are presented for illustration and as proof of the principle. heart muscle; muscle mechanics; mathematical model; real-time control; stretch Address for reprint requests and other correspondence: Y. L. Protsenko, Institute of Immunology and Physiology, Ural Branch of the Russian Academy of Sciences, Rm. 327, 91 Pervomayskaya ul., Ekaterinburg 620219, Russia (e-mail: ylp{at}efif.uran.ru )
ISSN:0363-6135
1522-1539
DOI:10.1152/ajpheart.00306.2005