The number of bone fragments ranged from 2 to 5 (average 3.3 pieces) while the number of clamps ranged from 3 to 8 (average 5.8). The time HKI-272 clinical trial of refixation ranged from 5 to 17 minutes with an average of 9.4 minutes. Obvious statistical significance (P = 0.015) was found in postoperative CT scan results between single-window group and 2-window group, although it is not statistically different in intraoperative subjective valuation (P > 0.05). In all 18 cases, the alignment of fragments was precise, the fixation rigid, and the aesthetic result satisfying.
Conclusions: Reconstruction of the forehead
by refixation of bone fragments with titanium clamps in frontal depressed skull fractures is safe and suitable. This technique promises to be a good alternative in the repair of frontal comminuted depressed skull fractures. The simplicity, reliable fixation, and fast handling are its prominent features.”
“Purpose To compare acetabular version angle measurements of CT scans in the prone and reformatted supine positions. CT acetabular version angle measurements
have previously been done in the prone position to correct for pelvic tilt. With the advent of multidetector CT, recent studies have evaluated acetabular version angles measured in the supine position. To our knowledge, a comparison between these two approaches has not been performed.
Case series in which consecutive CT urography studies of 49 adult patients performed in both GDC-0941 ic50 prone and supine positions were retrospectively reviewed, and acetabular
version angles of both hips measured.
Retrospective review of 49 consecutive CT urography studies performed in both prone and supine positions was done, and acetabular version angles of both hips were measured. Two radiologists measured the acetabular version angles independently. Multiplanar reformation of the supine CT images was performed to compensate for pelvic tilt and rotation prior to angle measurements.
There was excellent interobserver agreement between the two Selleck VX-689 readers (ICC = 0.90). Acetabular version angle measurements from the prone CT images were larger compared to reformatted supine images (24.0 and 21.3A degrees, respectively, p < 0.0001), with greater angles found in women. There was strong correlation between supine and prone acetabular version angle measurements with a Pearson correlation coefficient of 0.743.
Acetabular version angles measured from prone and reformatted supine CT images show strong correlation but are significantly different with larger angles obtained from the former and in women; clinical implications of these findings may require further study in other to determine the best method of version angle measurement. CT acetabular version angle measurement is also reliable with excellent interobserver correlation.