Technique Guide. C1/C2 Access System. Percutaneous transarticular screw fixation.

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Technique Guide C1/C2 Access System. Percutaneous transarticular screw fixation.

C1/C2 Access System Table of Contents General introduction 2 Indications/Contraindications 2 Image intensifier-assisted technique 3 Bibliography 10 Image intensifier control Warning This description is not sufficient for immediate application of the instrumentation. Please read these instructions carefully since they are important for the safe use of the instruments. Instruction by a surgeon experienced in handling this instrumentation is highly recommended. A detailed knowledge of the relevant anatomy and pathology of the patient undergoing the surgical procedure is absolutely essential in order to avoid errors during surgery and possible injury to vital structures. SYNTHES 1

C1/C2 Access System General introduction Indications/Contraindications General introduction The instrumentation for the percutaneous transarticular screw fixation of C1/C2 is intended for transarticular screw fixation. The C1/C2 Access System has to be used with an image intensifier. The image intensifier-assisted technique is presented on the following pages. 1 Using the Cortex Screw 3.5 mm as a stand-alone screw or in conjunction with CerviFix 2 The self-tapping Cortex Screw 3.5 mm (497.002 008) can be used either as a stand-alone screw (1) or in conjunction with the CerviFix System (187.000) (2), since its head is adapted to the design of the CerviFix C2 Clamp (498.920 and 498.921) (3). 3 Indications Traumatic and post-traumatic instability of C1/C2 Pedicle screw fixation according to Judet Rheumatoid arthritis and degenerative arthrosis Congenital anomalies Infections/tumours Contraindications Screw fixation should not be performed if the anatomical situation does not permit stabilisation with screws, as in: Destruction of the lateral mass of C1 and/or C2 Excessively narrow isthmus (Pars interarticularis) of C2 (< 6 mm) Pronounced cervicothoracic kyphosis It is also contraindicated in cases of inadequate intraoperative reduction of C1 in relation to C2, with an atlantodental interval > 8 mm. 2

C1/C2 Access System Image intensifier-assisted technique 1 Preoperative planning A meticulous preoperative assessment of the anatomical situation using CT images is essential for determining screw position. 2 Reduction and access preparation Preoperative reduction of C1/C2, using e.g. a Mayfield clamp, is recommended. The access is designed to expose the lamina and spinous process of C2 and the posterior arch of the atlas. 3 Establish percutaneous access for transarticular C1/C2 screw fixation and screw position Establish the percutaneous access under image intensifier using a Kirschner Wire 3.2 mm (292.451). The entry point for the cortex screw is located on the straight sagittal line passing medially through the crest of the isthmus, at the lower border of the lamina of C2, approximately 2 mm cranial and lateral from the medial edge of the caudal articular process of C2. The planned screw channel is in the sagittal direction, pointing straight forwards and towards the medial section of the isthmus. 1 SYNTHES 3

4 Prepare entry point for drill bit Using the tip of the Kirschner wire, prepare the entry point on the bone so as to prevent slippage of the subsequently used Drill Bit 2.5 mm (387.013) on the sloping bone surface. 4

C1/C2 Access System Image intensifier-assisted technique 5 Widen soft tissue access and insert guide sleeve 6.0/3.2 To widen the soft tissue access and insert the Protection Sleeve 8.0/6.0 (387.017), advance the Guide Sleeve 6.0/3.2 (387.011) over the Kirschner wire. 6 Insert protection sleeve Slide the protection sleeve 8.0/6.0 over the guide sleeve and, with rotating movements, advance through the soft tissue as far as C2. 2 Locate the protection sleeve 8.0/6.0 with its sloping surface in the planned screw direction against the lamina of C2 (1). After positioning the protection sleeve, remove the Kirschner wire and guide sleeve. 3 1 Note: When advancing the guide sleeve and the protection sleeve, take care to ensure that the Kirschner wire does not become dislocated and penetrate the spinal canal. For better handling, the handle (2) of the protection sleeve can be readjusted by loosening the screw (3). SYNTHES 5

7 Create screw channel To create the screw channel, use the drill bit 2.5 mm (387.013S) (1) with Guide Sleeve 6.0/2.5 (387.014) (2) (both marked yellow), since the latter guides the cutting part of the drill (3) and ensures close contact with the bone. This reduces the risk of bending at the transition between bone and guide sleeve (4). 1 2 3 Note: If the drill bit cannot be held in straight alignment with its axis, significant leverage can be exerted on the long bit by the drill unit and the drag of the air-hose. This potentially causes the bit to bend, particularly at the transition between the bone and the protection/guide sleeve. The drill bit can break if it is bent excessively or repeatedly and/or it is bent and, simultaneously, a high torque is applied to the bit via the drill unit. Consequently, the drill bit is to be used only with a drill unit with a continuously variable and manually adjustable rotational speed, e.g. the Colibri power tool (532.001) or the Small Air Drill (511.110) with Chuck (310.930). For reasons of safety and accuracy during drilling, and given the risk of fracture through possible repeated bending stresses, the drill bit is designed for single use only. Once the drill bit is already in the bone, it is no longer possible to change the direction of drilling. An attempt to realign the drill will lead to bending of the free portion of the bit and excessive mechanical loading. 4 The direction of drill can therefore be changed only if the drill bit is repositioned. 6

C1/C2 Access System Image intensifier-assisted technique 8 Determine screw length The drill bit is provided with a scale, allowing comparison of the required screw length with the drill depth determined using the image intensifier. To avoid any misinterpretation during measurement, the guide sleeve 6.0/2.5 of the drill bit must rest against the bone. Note: The length stated in the article description for Cortex Screws (497.002-008) and marked on the drill bit and tap covers the whole screw length (shaft and head). Option 2 Secure reduction To secure the reduction according to the technique of Jeanneret and Magerl 2, the drill bit and the protection sleeve can be left in position (1) until the transarticular screw fixation has been completed on the contralateral side (2). 1 In this case, repeat steps 3 to 8 on the contralateral side of C1/C2 and perform the stabilisation as described in sections 9 to 11. SYNTHES 7

9 Tap thread If the bone is sclerotic, the thread should be tapped beforehand. Use the Tap 3.5 mm (387.015) (1) with Guide Sleeve 6.0/3.5 (387.016) (2) (both marked blue). This sleeve guides the tap in the protection sleeve and provides additional stability in the tapped section (3). 1 2 3 Check the position of the tap during tapping under the image intensifier. Note: Any taps that have become bent should be replaced since, owing to their length, any additional mechanical loading increases the risk of breakage. 10 Pick up cortex screw with self-holding screwdriver Since the Cortex Screw 3.5 mm (497.002 008) has a special head, it can be used only in conjunction with the self-holding Screwdriver (387.018). To pick up the cortex screw, locate the screwdriver on the cross-recessed head of the cortex screw. Turn the connecting screw of the screwdriver to connect the screw firmly to the screwdriver. Ensure that the cross of the screwdriver is fully inserted in the cruciform recess of the screw head. 8

C1/C2 Access System Image intensifier-assisted technique 11 Insert cortex screw with self-holding screwdriver Check the position of the cortex screw during insertion under the image intensifier. 12 Transarticular screw fixation of C1/C2 on the contralateral side The definitive stabilisation of C1/C2 is completed by performing the same procedure (steps 3 to 11) on the contralateral side. 13 Postoperative management Biomechanical studies have confirmed that adequate stability of transarticular screw fixation can be achieved only if it is combined with a structural bone graft between C1 and C2. 3 Additional fixation of the graft with cerclage wiring or a cable is advisable. The wearing of a soft cervical collar for 12 weeks is recommended. SYNTHES 9

C1/C2 Access System Bibliography 1 Aebi M, Thalgott J S and Webb J (1998) AO ASIF Principles in Spinal Surgery, c. 5.2 Transarticular Screw Fixation, Springer, Berlin 2 Jeanneret B and Magerl F (1992) Primary Posterior Fusion C1/2 in Odontoid Fractures: Indications, Technique, and Results of Transarticular Screw Fixation. J Spinal Disord (United States), Dec, 5 (4): 464 75 3 Henriques T, Cunningham BW, Olerud C et al. (2000) Biomechanical Comparison of Five Different Atlantoaxial Posterior Fixation Techniques. Spine, 25 (22): 2877 83 10

Presented by: 0123 036.000.258 SE_124699 AA 51070022 Synthes 2007 Subject to modifications

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