不同螺旋钢板设计在股骨远端骨折固定中的解剖学分析。
Anatomical analysis of different helical plate designs for distal femoral fracture fixation.
机构信息
AO Research Institute Davos, Davos, Switzerland; Department of Orthopaedic and Trauma Surgery, Lucerne Cantonal Hospital, Lucerne, Switzerland.
Department of Orthopaedic and Trauma Surgery, Lucerne Cantonal Hospital, Lucerne, Switzerland.
出版信息
Injury. 2022 Jul;53(7):2636-2641. doi: 10.1016/j.injury.2022.03.033. Epub 2022 Mar 20.
PURPOSE
Helical plates potentially avoid the medial neurovascular structures of the thigh. Two implant designs for additional medial 90° helical plate in double plate constructs for geriatric patients and 180° helical plate for single plating in young patients are potential alternatives to widely used standard straight plates.
AIMS
(1) assess the distances to adjacent anatomical structures being at risk when applying medial 90° and 180° helical plates with MIPO technique to the femur, (2) compare these distances with medial straight plates, and (3) correlate measurements performed during surgical dissection with CT angiography.
METHODS
MIPO was performed in ten human cadaveric femoral pairs using either a 90° helical 14-hole LCP (Group 1) or a 180° helical 15-hole LCP-DF (Group 2). Using CT angiography, distances between femoral arteries and plates as well as distances between plates and perforating vessels were evaluated. Following, specimens were dissected and distances determined again. All plates were removed and measurements were repeated with straight medial plates (Group 3).
RESULTS
Overall closest distances between plates and femoral arteries were 14.5 mm (11-19 mm) in Group 1, 21.6 mm (15-24 mm) in Group 2 and 6.5 mm (5-8 mm) in Group 3, with significant differences between Group 3 and both other groups (p < 0.001). Distances to the nearest perforating vessels were 22.4 mm (15-30 mm) in Group 1 and 1.2 mm (1-2 mm) in Group 2. Measurement techniques (visual after surgical disection and CT angiography) demonstrated a strong correlation (p < 0.010).
CONCLUSIONS
Inserting 90° and 180° helical plates with MIPO technique is safe, however, attention must be paid to the medial neurovascular structures with 90° helical plates and to the proximal perforating vessels with 180° helical plates. Helical plates can avoid irritation of medial neurovascular structures - compared with straight plates - although care must be taken during their distal insertion. Measurements during surgical dissection correlate with CT angiography.
目的
螺旋钢板可避免大腿的内侧神经血管结构。对于老年患者的双钢板结构和年轻患者的单钢板 180°螺旋钢板,两种额外的内侧 90°螺旋钢板设计是广泛使用的标准直钢板的潜在替代方案。
目的
(1)评估在股骨上应用 MIPO 技术的内侧 90°和 180°螺旋钢板时,相邻解剖结构的风险距离,(2)将这些距离与内侧直钢板进行比较,(3)将手术解剖过程中的测量值与 CT 血管造影相关联。
方法
使用 14 孔 90°螺旋 LCP(组 1)或 15 孔 180°螺旋 LCP-DF(组 2)在 10 个人体股骨对中进行 MIPO。使用 CT 血管造影评估股动脉与钢板之间以及钢板与穿通血管之间的距离。然后,对标本进行解剖并再次确定距离。所有钢板均被移除,并使用直内侧钢板(组 3)重复测量。
结果
总体上,组 1 中钢板与股动脉之间的最近距离为 14.5 毫米(11-19 毫米),组 2 为 21.6 毫米(15-24 毫米),组 3 为 6.5 毫米(5-8 毫米),组 3 与组 1 和组 2 之间存在显著差异(p <0.001)。组 1 中距最近穿通血管的距离为 22.4 毫米(15-30 毫米),组 2 为 1.2 毫米(1-2 毫米)。测量技术(手术解剖后的视觉和 CT 血管造影)显示出很强的相关性(p <0.010)。
结论
使用 MIPO 技术插入 90°和 180°螺旋钢板是安全的,但是,必须注意 90°螺旋钢板的内侧神经血管结构和 180°螺旋钢板的近端穿通血管。与直钢板相比,螺旋钢板可以避免内侧神经血管结构的刺激,但在其远端插入时必须小心。手术解剖过程中的测量值与 CT 血管造影相关联。
Zotero 插件