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Investigations of compressive frequency, duty cycle, or waveform during CPR are typically rooted in animal research or computer simulations. Our goal was to generate a mechanical model incorporating alternate stiffness settings and an integrated blood flow system, enabling defined, reproducible comparisons of CPR efficacy. Based on thoracic stiffness data measured in human cadavers, such a model was...
New electro-mechanical cardiopulmonary resuscitation devices may help in providing more constant compressions in depth and compression rate to patients suffering from cardiac arrest. They are easily transportable and allow paramedics to move patients even while applying CPR. The behaviour of these devices however may be different even when using the same guidelines for the effective application of...
Application of cardiopulmonary resuscitation to people suffering from cardiac arrest has become an effective way of increasing chances of survival. Current CPR is done manually, however new electro-mechanical resuscitation devices are capable of providing chest compressions at a constant rate and depth, even when the patient is being transported.
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