Optimal Strategy for Cardiopulmonary Resuscitation with Continuous Chest Compression

Eunok Jung, Charles F. Babbs, Suzanne Lenhart, Vladimir A. Protopopescu

Research output: Contribution to journalArticlepeer-review

24 Scopus citations

Abstract

Objectives: To apply the mathematical techniques of optimal control theory (OCT) to a validated model of the human circulation during cardiopulmonary resuscitation (CPR), so as to discover improved waveforms for chest compression and decompression that maximize the coronary perfusion pressure (CPP). Methods: The human circulatory system is represented by seven difference equations that describe the pressure changes in systemic vascular compartments that are caused by chest compression. The forcing term is the intrathoracic pressure that is generated by the external chest compression, which is taken as the control variable for the system. The optimum waveform of this forcing pressure as a function of time, determined from OCT, is that which maximizes the calculated CPP between the thoracic aorta and the superior vena cava over a period of 13.3 seconds of continuous chest compression. Results: The optimal waveform included both compression and decompression of the chest to the maximum allowable extent. Compression-decompression waveforms were rectangular in shape. The frequency of optimal compression-decompression that was found by OCT was 90 per minute. The optimal duty cycle (compression duration per cycle time) was 40%. The CPP for the optimum control waveform was 36 mm Hg vs. 25 mm Hg for standard CPR. Conclusions: Optimal control theory suggests that both compression and decompression of the chest are needed for best hemodynamics during CPR.

Original languageEnglish
Pages (from-to)715-721
Number of pages7
JournalAcademic Emergency Medicine
Volume13
Issue number7
DOIs
StatePublished - Jul 2006
Externally publishedYes

Funding

Dr. Jung was supported by the Korea Research Foundation Grant, funded by the Korean government (MOEHRD; no. R08-2003-000-11093-0).

FundersFunder number
Ministry of Education and Human Resources DevelopmentR08-2003-000-11093-0
National Research Foundation of Korea

    Keywords

    • ACD-CPR
    • Cardiopump
    • decompression
    • duty cycle
    • heart arrest
    • hemodynamics
    • impedance

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