Bullet Fragment of the Lumbar Spine: The Decision Is More Important Than the Incision.

Study Design Case report. Objective Treatment of gunshot wounds to the spine is a topic of continued discussion and controversy. The following case study provides a description of a patient with a gunshot wound to the lumbar spine with a retained bullet in the intrathecal space. Methods Immediately after gunshot injury, a patient developed lumbar and radicular pain, as well as neurologic deficits. He was taken for surgery to remove the retained bullet. Results Following surgery, pain and neurologic function improved. The operative techniques and the postoperative clinical management are discussed in this report. Conclusion In our opinion, it was necessary to remove the bullet to avoid migration and possible worsening of neurologic function. However, surgical intervention is not appropriate in every case, and ultimately decisions should be based on patient presentation, symptomology, and imaging.

Introduction

Despite an increased incidence of studies analyzing bullet fragments lodged in the spinal canal, there is no clear consensus regarding the treatment of such injuries. In cases of spinal fracture secondary to a gunshot wound, the evidence suggests the fractures tend to be stable and not necessitate surgical intervention.1 However, some researchers advocate that surgery is indicated due to the possibility of migration of the intrathecal fragment, particularly when in close proximity to the conus.2 When surgery is elected, careful attention to the surrounding structures with regards to the location of the fragment is required, as well as a thorough analysis of the preexisting neurologic compromise and duration from the time of injury. In this report, we discuss a patient with a 4-week-old gunshot wound and retained bullet in the lumbar spine, including the technical nuances to consider for the procedure and subsequent care.

Case Report

A 30-year-old man presented to an outside emergency department with a penetrating gunshot wound to the abdomen. Upon examination, the patient had one gunshot wound to the left upper quadrant. A computed tomography (CT) scan of the abdomen verified the bullet had fractured the left L2 pedicle before becoming lodged in the spinal canal between L2 and L3. Neurologically, his only deficit was left lower extremity quadriceps weakness, 4/5 strength. He was taken for an urgent laparotomy for exploration of the peritoneum, with findings of a hemoperitoneum, six small bowel enterotomies, a left perinephric hematoma, a grade 2 renal laceration, as well as a laceration of the left psoas muscle. Postoperatively, the patient had urinary retention, which resolved within 2 days.

The patient was directed to our institution 4 weeks after the injury for specialized neurosurgical care. The left quadriceps weakness was unchanged from the time of injury, but the patient had developed subsequent paresthesia in the left foot, as well as bilateral lower extremity radiculopathy radiating down the lateral thighs and posterior calves (pain score of 8 to 9 on a scale of 0 to 10). A CT myelogram of the lumbar spine confirmed the unchanged location of the bullet in the spinal canal with high-grade blockage of the cerebrospinal fluid (CSF) above the level of the bullet (Fig. 1).

Fig. 1

Computed tomography myelogram of the lumbar spine. (A) Sagittal view showing the unchanged location of the bullet in the spinal canal with high-grade blockage of the cerebrospinal fluid above the level of the bullet. (B) Axial view showing a fracture of the left L2 pedicle.

Operative Procedure

The patient was taken to the operative theater for a lumbar laminectomy of L2–L3 and removal of the bullet. Although a fusion was not expected to be necessary, the required instrumentation was available if instability was noted intraoperatively. After induction of general anesthesia, the patient was placed in a prone position on a Jackson table. A standard L2–L3 laminectomy was performed, and a palpable, hard mass was discerned in the dural sac. Prior to opening the dura, a thorough inspection of the thecal sac was completed to evaluate the exact location of the bullet (i.e., intradural, extradural) and to assess if there was a sealed durotomy from the injury or whether a remaining open, leaking portion of the sac required further intervention and repair.

Once concluded that the bullet was intrathecal, an 11-blade knife was used to open the dura at the midline. There was no release of CSF with the incision. A 9-mm bullet was found with its head facing the incision, completely encased in scar tissue, blocking the flow of CSF (Fig. 2). It was deduced that the high amount of heat produced by the bullet entering the dural sac split the nerve roots and encased the bullet. A slow dissection was performed with caution to avoid any damage to the nerve roots. Microscopic magnification with extraction of 1 to 2 mm of dissection at a time was utilized for the release of the bullet from the scar tissue and dura. Excessive retraction was avoided to reduce risk of undue stress on the nerve roots. Ultimately, the bullet was successfully released from the surrounding tissue (Fig. 3).

Fig. 2

Intraoperative view of the 9-mm bullet with its head facing the incision, completely encased in scar tissue, blocking the flow of cerebrospinal fluid.

Fig. 3

Intraoperative view demonstrating the bullet successfully released from the surrounding tissue.

Throughout the dissection and with wound closure, no CSF was appreciated. Multiple Valsalva maneuvers were administered to a pressure of 40 cmH2O with still no noticeable leak. The dura was closed in a watertight fashion with a 6–0 Prolene (Ethicon, Somerville, New Jersey, United States). A lumbar drain was inserted above the level of the laminectomy as a precaution to avoid an unrecognized fistula leaking at a later time.

Postoperative Course

Upon awaking from anesthesia, the patient had worsening of his left lower extremity weakness (3+/5), but notable improvement in his lumbar and radicular symptoms (pain score of 4 on a scale of 0 to 10). The lumbar drain was kept in place for 72 hours with intermittent drainage of 10 to 15 mL of CSF hourly. It was clamped on the evening of postoperative day 3, and the patient was ambulated multiple times without evidence of a CSF leak (i.e., drainage from the wound, nausea/vomiting, or headache). The drain was discontinued without complication on postoperative day 4. At discharge, his left lower extremity weakness was improved from his baseline at admission (5−/5).

Discussion

The management of an intradural bullet continues to remain controversial.3 4 5 Proponents of the conservative theory support a nonsurgical approach with cautious measures involving pain management and rehabilitation,6 although others recommend surgical intervention with the anticipation of a more rapid improvement in neurologic symptoms.7 At the root level of the spine, it is our opinion that in several case instances, the removal of the foreign object will lead to better outcomes and carries a higher potential for regeneration of the axons of the injured nerve roots.4 5 A thorough understanding of the regional anatomy is crucial when determining the appropriateness of surgery versus conservative measures; decisions should be made on a case-by-case basis.

For the case presented, we felt the removal of the bullet from the canal was necessary to improve this patient's quality of life, as evidenced by decreased pain, as well as to avoid future complications related to the possible migration of the bullet. Although continued back pain secondary to arachnoiditis is possible, given the patient's young age, it was our opinion that preserving his neurologic function was of utmost importance. Ultimately, a careful dissection technique and detailed postoperative care are imperative to success with each case.

Conclusion

In our opinion, it is necessary to remove an intradural bullet or larger fragments to avoid migration and possible worsening of neurologic function. However, surgical intervention is not appropriate in every case, and ultimately decisions should be based on patient presentation, symptomology, and imaging.

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