Sphenoidal Electrode Placement Using Biplane Fluoroscopy and Rotational Flat Panel CT Imaging

Technique and Results

Two consecutive female patients (24 and 43 years of age) with diagnoses of epilepsy undergoing SE placement were the subjects of this report. Each patient underwent SE placement followed by 4 and 8 days' continuous EEG monitoring, respectively. No clinical or technical complications occurred.

After obtaining informed consent and ensuring no history of coagulopathy, we placed each patient on the Axiom Artis biplane fluoroscopy table (Siemens, Erlangen, Germany) in the supine position. A pillow was placed under the shoulders, and the neck was extended as much as could be tolerated comfortably by the patient.

The posteroanterior plane was set in a submentovertex position optimizing visualization of FO. The lateral plane was then set to allow maximal visualization of the needle approach between the mandibular condyle and coronoid process, beneath the zygoma.³ The preauricular skin was then prepped in standard aseptic fashion and a small skin wheal was made by using 2% buffered lidocaine delivered through a 3.5-cm 25-gauge needle. The planned SE entry tract was then also anesthetized with 2% buffered lidocaine to the skull base. Subsequently, the Sphenoidal Electrode Kit (Ad-Tech, Racine, Wis) containing a 40-gauge electrode, composed of 7 strands of 0.001-mm Teflon-insulated (Dupont, Wilmington, Del) stainless steel wire, which was loaded on a 21-gauge 7-cm needle, was advanced under intermittent biplane fluoroscopy until the tip of the needle was brought within approximately 2 mm of the anterolateral aspect of FO. Submentovertex radiography was obtained following needle/electrode insertion. Imaging after removal of the guide needle resulted in very poor visualization of the electrode compared with imaging with the guide needle left in situ (Fig 1).

• Download figure
• Open in new tab
• Download powerpoint

Fig 1.

Submentovertex radiographs obtained after placement of bilateral SEs. The lead alone on the right is not visualized. The guide-needle/electrode system is seen on the patient's left (arrow). Patients often report with scalp electrodes already in place, further complicating optimal visualization of the electrode tip and skull base foramina.

We then performed RFPCT (Syngo Dyna CT imaging; Siemens) to document needle-tip position relative to that expected on the basis of submentovertex radiography. The radiation dose for the RFPCT acquisition was 193.68 μGy (0.36 μGy/image). Please see the Table for RFPCT imaging parameters.⁵

Postprocessing at the computer workstation, by using Syngo Workplace software (Siemens), allowed data reconstruction in a 512 × 512 matrix with a section thickness of 5 mm. Maximum intensity projection. multiplanar reformatting (MPR), and volume rendering (VR) were then possible.

When correlated with RFPCT, needle-tip position was precisely ascertained relative to the skull base with a combination of sagittal and coronal reformations and 3D VR (Fig 2). Coarse adjustments in positioning of the SE delivery system could then be made before needle withdrawal on the basis of the CT acquisition, with confident final SE tip placement radiographically confirmed.

• Download figure
• Open in new tab
• Download powerpoint

Fig 2.

Axial (A) and coronal (B) MPRs and 3D VR (C) RFPCT images precisely depict the relationship of the left SE tip (solid arrow) to FO (open arrow). D, 3D VR RFPCT image shows the right SE tip approximately 14 mm lateral to FO. Repositioning was then performed (not shown). Note foramen spinosum (curved arrows, C and D).

We found that all needles were farther from FO than expected on the basis of submentovertex radiography. When RFPCT was performed before guide-needle withdrawal (2 of 4 needles), coarse adjustments were made to bring the SE tip within approximately 2 mm of the FO. We have also found this technique helpful in the placement of needles in difficult spine interventions such as sacroplasty, wherein the technique affords the opportunity for further needle adjustment before injection of polymethylmethacrylate bone cement.

Once SE tip placement was confirmed, the guide needle was removed with careful attention to pinning the electrode to the patient's skin. The electrode was then carefully coiled and secured to the patient's skin with a sterile dressing, leaving a short tail for manipulation by the EEG technician.