1984
DOI: 10.1016/s0196-0644(84)80722-2
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Theoretical advantages of abdominal counterpulsation in CPR as demonstrated in a simple electrical model of the circulation

Abstract: Animal studies and preliminary clinical observations suggest that the addition of interposed abdominal compressions (IAC) to ventilation and chest compression of standard cardiopulmonary resuscitation (CPR) augments blood flow, blood pressures, and immediate survival. To investigate the physical basis for enhanced circulation during IAC-CPR, we developed an electrical model of the circulation. Heart and blood vessels were modeled as resistive-capacitive networks, pressures as voltages, blood flow as electric c… Show more

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Cited by 49 publications
(40 citation statements)
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“…Although the dynamic compliance of arteries and veins is known to decrease measurably as the vessels become more distended, the model included constant compliances during any one stimulation. (Reduced venous compliance with volume loading has been stimulated separately by changing the venous capacitance and zero-flow pressure and repeating the simulation [13].) Instead, this simple model was limited to the "plumbing aspects" of the circulation--the movement of blood through resistive elements connected by elastic conduits in a closed circuit similar to the circulatory system--in order to determine how these primary physical elements can be compressed to produce an artificial circulation.…”
Section: Table 1 Cardiovascular Variables and Their Electrical Analogsmentioning
confidence: 99%
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“…Although the dynamic compliance of arteries and veins is known to decrease measurably as the vessels become more distended, the model included constant compliances during any one stimulation. (Reduced venous compliance with volume loading has been stimulated separately by changing the venous capacitance and zero-flow pressure and repeating the simulation [13].) Instead, this simple model was limited to the "plumbing aspects" of the circulation--the movement of blood through resistive elements connected by elastic conduits in a closed circuit similar to the circulatory system--in order to determine how these primary physical elements can be compressed to produce an artificial circulation.…”
Section: Table 1 Cardiovascular Variables and Their Electrical Analogsmentioning
confidence: 99%
“…As a working approach to the modeling problem, therefore, we have begun with the presumed normal values indicated in Table 2, and then performed simulations with other values to answer specific questions concerning variations in venous capacitance, arterial capacitance, and peripheral vascular resistance [13].…”
Section: Operation Of the Modelmentioning
confidence: 99%
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“…A number of investigators with a biomedical engineering bent have investigated IAC-CPR by building mechanical, electrical, or computer models [6][7][8][9][10][11] . A good example of this genre is provided by the electrical model of Ralston and Babbs 8 , who appreciated the analogy between the flow of current around an electrical circuit and the circulation of blood through systemic and pulmonary vessels.…”
Section: Mechanical Electrical and Computer Models (Level 6)mentioning
confidence: 99%
“…A good example of this genre is provided by the electrical model of Ralston and Babbs 8 , who appreciated the analogy between the flow of current around an electrical circuit and the circulation of blood through systemic and pulmonary vessels. In their simulations electrical resistance mimicked physiological resistance of vascular beds.…”
Section: Mechanical Electrical and Computer Models (Level 6)mentioning
confidence: 99%