Koichiro Tsuruzono

Middle-term surgical outcomes of microscopic posterior decompression for far-out syndrome.

OBJECTIVE Far-out syndrome (FOS) is a rare incident caused by L5 nerve root entrapment in the far-out area, the L5-S1 extraforaminal area between the transverse process and the sacral ala. The purpose of this study is to disclose the middle-term surgical outcomes of microscopic posterior decompression in the far-out area (MPDFA). MATERIAL AND METHODS From June 2008 to November 2010, eight patients with FOS (six men and two women, mean age 65.4 years) were treated with MPDFA. Their chief complaint was leg pain in the L5 nerve root distribution area. Nerve root impingements in the far-out area were confirmed by magnetic resonance imaging, computed tomography and selective radiculography. Indications for MPDFA were given when pain was uncontrollable with conservative treatments for more than 1 month. MPDFA was performed according to the following procedure: a 4-to-5-cm skin incision was made just above the far-out area. The far-out area was exposed using Wiltses intermuscular approach. The nerve root was decompressed with partial resection of the transverse process and the sacral ala, and removal of the iliolumbar ligament. Surgical outcomes were evaluated at periodical examinations with the Japanese Orthopedic Score (JOA) and a Visual Analogue Scale (VAS) of the leg pain. The mean follow-up period was 24.3 months (ranging from 12 to 40 months). RESULTS All patients had reduced radicular leg pain after their operations. The mean postoperative hospital stay was 11.4 days, and the patients returned to their normal activities of daily living immediately after discharge. Both JOA and the VAS scores improved after surgery. The scores temporarily worsened in two patients with degenerative scoliosis; the worsening was attributed not to recurrence of the radiculopathy but to pain arising from knee arthropathy. The scores were maintained in the other patients at least until the final examinations during the follow-up. CONCLUSION MPDFA is a less-invasive surgery for treating FOS and can provide a good middle-term surgical outcome.

Anterior transarticular screw fixation as a conventional operation for rigid stabilization

Background: Anterior transarticular screw (ATS) fixation is a useful surgical option for atlantoaxial (AA) stabilization. This report presents a revised ATS method for AA fusion. Methods: A 79-year-old male presented with AA instability attributed both to an old odontoid fracture and severe degeneration of the lateral atlantoaxial joints (LAAJs). ATS fixation was performed through the conventional anterior cervical approach. The longest screw trajectories were planned preoperatively using multiplanar reconstruction computed tomography (CT) scans, with entry points of the screws situated at the midpoint on the inferior border of the axial body. The surgical exposure was limited to opening at the entry points alone. Our retractor of choice was the Cusco speculum; it sufficiently secured space for utilizing the required instruments for screw placement while offering sufficient protection of soft tissues. Cannulated full-threaded bicortical screws stabilized the LAAJs. Screw insertion required a significant amount of coronal angulation up to the superior articular process of the atlas under open-mouth and lateral fluoroscopy image guidance. After ATS fixation, bone grafting was performed between the posterior laminae of the axis and the atlas through a conventional posterior approach. Results: Bony fusion between the atlas and the axis was confirmed radiographically. Arthrodesis of the LAAJs occurred despite no bone grafting. Conclusions: Rigid fixation of the LAAJs was obtained by our ATS technique, indicating that it is an alternative method for AA fixation when posterior rigid internal fixation is not applicable.

Groin Pain Caused by L3 and L4 Radiculopathy

Background: Previous reports have described patients with groin pain induced by lumbar radiculopathy below the L3 spinal level, but this type of groin pain has not been studied in detail. This retrospective clinical study investigated the possibility of groin pain caused by lumbar radiculopathy below the L3 spinal level. Methods: We reviewed the clinical records of 210 consecutive patients who were surgically treated for singlelevel lumbar radiculopathy between June 2005 and September 2012. We examined the spinal level of the affected nerve root, clinical symptoms, and surgical outcomes based on the Japanese Orthopedic Association (JOA) score for lumbar diseases and a visual analog scale (VAS) for leg pain. Results: The 210 patients underwent surgery for single-level lumbar radiculopathy due to L3 radiculopathy (7 patients), L4 radiculopathy (20), L5 radiculopathy (127), or S1 radiculopathy (56). Groin pain was experienced by 8 patients (3 patients with L3 and 5 with L4 radiculopathy). Most of these 8 patients also experienced pain in the anterior thigh (6 patients) or knee (5 patients) regions. The pain experienced by these patients was relieved by surgical decompression of the affected nerve roots. The JOA and VAS scores showed significant improvement postoperatively. The mean postoperative follow-up period was 19.6 months (range, 6–40 months), during which time none of the patients required additional treatment for groin pain. Conclusions: L3 or L4 radiculopathy should be considered during the examination of patients with groin pain and radicular leg pain.