J Trauma
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The mechanism for clearing the cervical spine in patients with altered mental status remains controversial. Recommendations have ranged from removal of the cervical collar after 24 hours in patients with normal radiographs, to indefinite immobilization in a cervical collar, and recently cervical flexion-extension examinations using dynamic fluoroscopy. The purpose of this study was to evaluate the efficacy and safety of dynamic fluoroscopy flexion-extension examinations in identifying ligamentous cervical spine injury and clearing the cervical spine in patients with altered mental status after trauma. ⋯ Unstable cervical spine ligamentous injury without fracture is a rare occurrence. The cervical spine may be cleared after a normal cervical spine series (plain radiograph and computed tomographic scan) as recommended in the 1998 Eastern Association for the Surgery of Trauma guidelines. If dynamic fluoroscopy is to be used, adherence to the protocol, including review of the cervical spine radiographs before fluoroscopy and visualization of the entire cervical spine, C1-T1, is mandatory to ensure patient safety.
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The operative versus nonoperative management of major pancreatic ductal injuries in children remains controversial. The computed tomographic (CT) scan may not be accurate for determination of location and type of injury. We report our experience with ductal injury including the recent use of acute endoscopic retrograde cholangiopancreatography (ERCP) for definitive imaging, and an endoscopically placed stent as definitive treatment. This has not been reported in children. ⋯ Pancreatic ductal injuries are rare in pediatric blunt trauma. CT scanning is suggestive but not accurate for the diagnosis of type and location of injury. Acute ERCP is safe and accurate in children, and may allow for definitive treatment of ductal injury by stenting in selected patients. If stenting is not possible, or fails, distal injuries are best treated by distal pancreatectomy; proximal injuries may be managed nonoperatively, allowing for the formation and uneventful drainage of a pseudocyst.
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Intracavity infusion of fibrin sealant-based agents, as a novel modality to control internal bleeding, is associated with an increase of pneumoperitoneum (PP) pressure. The safe limit of such increase has not been well defined in hypovolemic subjects. The purpose of this study was to evaluate the hemodynamic and metabolic effects of increasing PP pressure and to define the limits of carbon dioxide (CO2) insufflation in a controlled hemorrhage rat model. ⋯ The safe limit of PP pressurization with CO2 is dependent on the amount of blood loss. In this mechanically ventilated rat model, increasing the amount of blood loss from 0 to 15 mL/kg reduces the tolerable level of abdominal insufflation pressure from 15 mm Hg to 5 mm Hg. A 5-mm Hg PP pressure appears safe even in the most severely hemorrhaged animals.