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Intraoperative manual assessment of atlantoaxial stability during posterior C1-ring osteosynthesis in displaced Jefferson burst fracture: technical note

• 2019
العودة
معلومات البحث
المؤلفون Rizk AR1,2, Ottenbacher A1
الكلمات المفتاحية C1-Ring Osteosynthesis, Altlas ring osteosythesis, Jefferson fracture, intraoperative manual assessment, Atlantoaxial stability
المجلة العلمية Not Available
الناشر Not Available
المجلد Not Available
العدد Not Available
الصفحات Not Available
publication.type Local
رابط البحث Not Available
المواد المرفقة Not Available
الملخص
Background: Posterior C1 ring-osteosynthesis (C1-RO) as treatment for displaced Jefferson fractures is a promising C1-C2 function-preserving operation but not yet a common method. Since the first description of anterior C1-RO by Ruf et al., 11 studies were published and included 50 cases of posterior C1-RO, 40 cases of anterior C1-RO and 8 cases combined anterior and posterior osteosynthesis. Two biomechanical studies have shown that even in cases of ruptured transverse ligament, reduction followed by C1-RO can lead to C1/C2 stability without need for C1/C2 fixation.

Methods: In this work we present two cases of displaced Jefferson burst fractures who were treated with closed reduction followed by posterior C1-ring Osteosynthesis. We present a description of the intra-operative manual assessment of atlantoaxial stability.

Results: The surgical plan involved fluoroscopically controlled repositioning and fixation of the fracture over a Mayfield clamp in the typical prone position and inclination, followed by 180-degree scan with 3D reconstruction to assess the reduction of the atlas. Then fluoroscopically controlled insertion of 3.5 mm lateral mass polyaxial shaft-screws bicortically. Compression was applied over a 3.5-mm transverse rod. C1/C2 stability was manually assessed intraoperatively to assure sufficient stability of the C1/C2 complex after reduction and osteosynthesis. This was achieved by simultaneously applying manual pressure on the transverse rod applied by a clamp and pulling on the C2 spinous process with an attached Kocher clamp under dynamic fluoroscopic control. Postoperative flexion-extension images of the cervical spine were performed to prove atlantoaxial stability.

Conclusion: In a case of isolated unstable Jefferson fracture, a surgeon familiar with a C1/C2 fixation according to Harms/Goel might start with repositioning and C1-ring fixation and only add C2 screws if the C1/C2 segment fails to provide stability intraoperatively.