Bottlang Michael, Helzel Inga, Long William B, Madey Steven
Legacy Biomechanics Laboratory, Portland, Oregon, USA.
J Trauma. 2010 Mar;68(3):611-5. doi: 10.1097/TA.0b013e3181a5b260.
: Intraoperative contouring of long bridging plates for stabilization of flail chest injuries is difficult and time consuming. This study implemented for the first time biometric parameters to derive anatomically contoured rib plates. These plates were tested on a range of cadaveric ribs to quantify plate fit and to extract a best-fit plating configuration.
: Three left and three right rib plates were designed, which accounted for anatomic parameters required when conforming a plate to the rib surface. The length lP over which each plate could trace the rib surface was evaluated on 109 cadaveric ribs. For each rib level 3-9, the plate design with the highest lP value was extracted to determine a best-fit plating configuration. Furthermore, the characteristic twist of rib surfaces was measured on 49 ribs to determine the surface congruency of anatomic plates with a constant twist.
: The tracing length lP of the best-fit plating configuration ranged from 12.5 cm to 14.7 cm for ribs 3-9. The corresponding range for standard plates was 7.1-13.7 cm. The average twist of ribs over 8-cm, 12-cm, and 16-cm segments was 8.3 degrees, 20.6 degrees, and 32.7 degrees, respectively. The constant twist of anatomic rib plates was not significantly different from the average rib twist.
: A small set of anatomic rib plates can minimize the need for intraoperative plate contouring for fixation of ribs 3-9. Anatomic rib plates can therefore reduce the time and complexity of flail chest stabilization and facilitate spanning of flail segments with long plates.
使用长型桥接钢板对连枷胸损伤进行术中塑形既困难又耗时。本研究首次采用生物测量参数来制作符合解剖结构的肋骨钢板。这些钢板在一系列尸体肋骨上进行测试,以量化钢板贴合度并提取最佳贴合的钢板配置。
设计了三块左肋骨钢板和三块右肋骨钢板,这些钢板考虑了使钢板贴合肋骨表面所需的解剖学参数。在109根尸体肋骨上评估每块钢板能够贴合肋骨表面的长度lP。对于第3至9肋的每个肋骨水平,提取lP值最高的钢板设计,以确定最佳贴合的钢板配置。此外,在49根肋骨上测量肋骨表面的特征性扭转,以确定具有恒定扭转的解剖钢板的表面贴合度。
最佳贴合钢板配置的追踪长度lP在第3至9肋为12.5厘米至14.7厘米。标准钢板的相应范围为7.1 - 13.7厘米。8厘米、12厘米和16厘米节段的肋骨平均扭转分别为8.3度、20.6度和32.7度。解剖肋骨钢板的恒定扭转与肋骨平均扭转无显著差异。
一小套解剖肋骨钢板可将第3至9肋固定时术中钢板塑形需求降至最低。因此,解剖肋骨钢板可减少连枷胸固定的时间和复杂性,并便于使用长钢板跨越连枷节段。
