Journal of emergencies, trauma, and shock
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Trauma represents a global public health concern with an estimated 5 million deaths annually. Moreover, the incidence of blunt traumatic injuries (BTI) particularly road traffic accidents (RTAs) and workplace-related injuries are rising throughout the world-wide. ⋯ In the Arab Middle East, population-based studies on the incidence, mechanism of injury, prevention and outcome of BTI are not well-documented. Therefore, region-specific BTI studies would strengthen surveillance to better understand the burden of these injuries in the region.
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J Emerg Trauma Shock · Jan 2014
ReviewCurrent concepts, which effect outcome following major hemorrhage.
There are a multitude of factors, which effect outcome following major trauma. The recent conflict in the middle-east has advanced our knowledge and developed clinical practice, here within the UK. This article reviews the current and emerging concepts, which effect the outcome of patients sustaining major hemorrage in trauma.
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Lung injury in trauma patients can occur because of direct injury to lung or due to secondary effects of injury elsewhere for example fat embolism from a long bone fracture, or due to response to a systemic insult such as; acute respiratory distress syndrome (ARDS) secondary to sepsis or transfusion related lung injury. There are certain special situations like head injury where the primary culprit is not the lung, but the brain and the ventilator strategy is aimed at preserving the brain tissue and the respiratory system takes a second place. ⋯ The lung protective strategies along with newer trends in ventilation are discussed. Ventilatory management for specific organ system trauma are highlighted and their physiological base is presented.
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J Emerg Trauma Shock · Oct 2013
Further characterization of the influence of crowding on medication errors.
Our prior analysis suggested that error frequency increases disproportionately with Emergency department (ED) crowding. To further characterize, we measured this association while controlling for the number of charts reviewed and the presence of ambulance diversion status. We hypothesized that errors would occur significantly more frequently as crowding increased, even after controlling for higher patient volumes. ⋯ Error frequency appears to remain relatively constant across the range of crowding in our ED when controlling for patient volume via the quantity of orders reviewed. Error quantity therefore increases with crowding, but not at a rate greater than the expected baseline error rate that occurs in uncrowded conditions. These findings suggest that crowding will increase error quantity in a linear fashion.