Resuscitation
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The respiratory parameters of some of the patients with acute respiratory failure deteriorates while using conventional ventilation. These patients suffer unilateral lung disease and the failure to respond favourably to therapy is due to increased intrapulmonary shunt. There is a reflex vasodilation in the injured lung. ⋯ We present here two cases with unilateral lung disease that failed to respond to conventional mechanical ventilation. Asynchronized differential lung ventilation was found to be the therapeutic answer to the problem. We discuss the pathophysiology of unilateral lung injury and the physiology of differential lung ventilation.
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Recent studies have shown the potential adverse effects of venous volume loading on blood flow during closed chest cardiopulmonary resuscitation (CPR). To examine the effect of arterial and venous infusions, we employed a published computer simulation of the circulation during CPR. This model uses computer simulated electrical networks to model the heart and great vessels. ⋯ Rise and fall times for initiation and cessation of flow augmentations were equal to four compression cycles. We conclude that these findings demonstrate the theoretical benefits of rapid arterial infusions during CPR with increases in myocardial and cranial blood flow. This method may provide an early temporary adjunct to myocardial perfusion during CPR.