Anatomy

At typical cervical levels, the ventral and dorsal roots of the spinal nerves traverse laterally and caudally in the vertebral canal to form the spinal nerve in the intervertebral foramen. The foramen is oriented obliquely anteriorly and laterally. Its roof and floor are formed by the pedicles of consecutive vertebrae. Its posterolateral wall is formed largely by the superior articular process of the lower vertebra and in part by the inferior articular process of the upper vertebra and the capsule of the zygapophyseal joint formed between the two articular processes. The anteromedial wall is formed by the caudad portion of the upper vertebral body, the uncinate process of the lower vertebra, and the posterolateral corner of the intervertebral disk. Immediately lateral to the external opening of the foramen, the vertebral artery rises closely anterior to the articular pillars of the zygapophyseal joint.

The spinal nerve, in its dural sleeve, lies in the caudad half of the foramen. The cephalad half is occupied by epiradicular veins. The ventral ramus of the spinal nerve arises just lateral to the intervertebral foramen and passes anteriorly and laterally onto the transverse process. Radicular and spinal medullary arteries arise from the vertebral artery and the ascending cervical artery; radicular arteries supply the spinal nerve itself, whereas spinal medullary arteries continue medially to join the anterior and or posterior spinal arteries, which provide critical perfusion to the spinal cord itself.

Position

The procedure can be performed with the patient lying in a supine, oblique, or lateral decubitus position, depending on the operator’s preference and the patient’s comfort. The position must allow adequate visualization of the cervical intervertebral foramina in the anteroposterior (AP), lateral, and oblique planes (Fig. 49-1A). The important first step is to obtain a correct oblique view of the target foramen (Fig. 49-1B). In this view the foramen is maximally wide transversely, and the anterior wall of the superior articular process projects onto the silhouette of the lamina. If these criteria are not satisfied, the inclination of the fluoroscope must be adjusted until they are. The correct oblique view is essential because in less oblique views, which may nevertheless show a foramen, the vertebral artery lies along the course of the needle. Older C-arm fluoroscopy units often restrict the degree of rotation of the side opposite the unit to less than 45 degrees, which can prevent adequate visualization of the cervical intervertebral foramina on the patient’s right side when the C-arm is positioned from the patient’s left. The 60 degrees of anterior oblique angulation often needed for good visualization can be achieved simply by placing a foam cushion under the patient’s right side, thereby tilting him or her to the left, or by tilting the surface of the table to the patient’s left.

Figure 49-1. Cervical transforaminal and selective nerve root injection. A, Proper patient positioning and fluoroscopic C-arm angulation. B, Needle placement along axis of intervertebral foramen under fluoroscopic guidance. C, Axial view of final needle positions for transforaminal and selective nerve root injection, demonstrating the angle of the foramen and adjacent structures. D, Final needle positions for transforaminal injection within intervertebral foramen and selective nerve root injection just lateral to the foramen. E, Right anterior oblique radiograph demonstrating a needle in position along the posterior aspect of the right C6-C7 intervertebral foramen. Inset: Mid-portion of image with bony structures labeled: C6, C6 vertebral body; C7, C7 vertebral body; Ped, pedicle; La, lamina; SpP, spinous process; SAP, superior articular process; IAP, inferior articular process. F, Final anteroposterior radiograph after cervical transforaminal injection, with the needle in its final position and radiographic contrast outlining the spinal nerve (arrowheads) and extending into the lateral epidural space (arrows).