- 作者:Yongqin Li ; Tao Yu ; Giuseppe Ristagno ; Sung Phil Chung ; Joe Bisera ; Weilun Quan ; Gary Freeman ; Max Harry Weil ; Wanchun Tang
- 关键词:Cardiac arrest ; Ventricular fibrillation ; Defibrillation efficacy ; Upstroke phase ; Mechanical chest compression
- 刊名:Resuscitation
- 出版年:2010
- 出版时间:June 2010
- 年:2010
- 卷:81
- 期:6
- 页码:724-729
- 全文大小:391 K
ObjectivePauses for shock delivery in chest compressions are detrimental to the success of resuscitation and may be eliminated with the use of mechanical chest compressors. However, the optimal phasic relationship between mechanical chest compression and defibrillation is still unknown. We therefore undertook a study to assess the effects of timing of defibrillation in the mechanical chest compression cycle on the defibrillation threshold (DFT) using a porcine model of cardiac arrest.Methods
Ventricular fibrillation was electrically induced and untreated for 10 s in 8 domestic pigs weighing between 26 and 30 kg. Mechanical chest compression was then continuously performed for 25 s, followed by a biphasic electrical shock which was delivered to the animal at 6 randomized coupling phases, including a control phase, with a pre-determined energy setting. The control phase was chosen at a constant 2 s following discontinued chest compression. A novel grouped up-and-down DFT testing protocol was used to compare the success rate at different coupling phases. After a recovery interval of 4 min, the testing sequence was repeated, resulting in a total of 60 test shocks delivered to each animal.
Results
No difference between the delivered shock energy, voltage and current were observed among the 6 study phases. The defibrillation success rate, however, was significantly higher when shocks were delivered in the upstroke phase of mechanical chest compression.
Conclusion
Defibrillation efficacy is maximal when electrical shock is delivered in the upstroke phase of mechanical chest compression.