J Trauma
-
To determine how often the management of patients with blunt facial trauma was altered by plain roentgenograms or facial computed tomographic (CT) scans compared with findings from physical examination. ⋯ Physical examination reliably assessed the facial skeleton for clinically significant fractures in the majority of patients. In an alert and cooperative patient, CT scan is not required before operative repair in all cases. CT scans are expensive, time-consuming, and labor-intensive and in selected cases add little clinical information to that obtained by physical examination and plain films.
-
Trauma registries are an essential but expensive tool for monitoring trauma system performance. The time required to catalog patients' injuries is the source of much of this expense. Typically, 15 minutes of chart review per patient are required, which in a busy trauma center may represent 25% of a full-time employee. We hypothesized that International Classification of Disease-Ninth Revision (ICD-9) codes generated by the hospital information system (HI) would be similar to those coded by a dedicated trauma registrar (TR) and would be as accurate as TR ICD-9 codes in predicting outcome. ⋯ We conclude that in our hospital TR data on individual injuries can be replaced by HI data without loss of predictive power. ISS based on the MacKenzie dictionary should be abandoned because it is much less predictive of outcome than ICISS.
-
The aim of this retrospective study was to investigate the effect of dynamizing a static interlocking nail to promote femoral fracture healing and the adverse effect of dynamization. ⋯ Dynamization is a method that can be tried to improve fracture healing in femoral fractures that show delayed healing after interlocking nailing. In my experience, however, not all cases achieve union after dynamization. Patients must be examined regularly after dynamization to avoid significant shortening.
-
Pulmonary gas exchange in correlation with condensed lung volume was prospectively studied in 10 patients with multiple injuries and blunt chest trauma. The purpose was to find nomograms that allow the estimation of the extent of pulmonary density from gas exchange parameters. The condensed lung volume was determined planimetrically from serial transverse sections of chest computed tomographic scans. ⋯ By using linear regression equations (linear regression line with 95% confidence interval), nomograms were calculated. The extent of pulmonary density can easily be obtained from these nomograms by measuring Qs/Qt or P(A-a)O2. The presented nomograms may be helpful in monitoring the effect of treatment in patients with blunt chest trauma.