Acute spinal subdural hematoma complicating lumbar decompressive surgery

• ABSTRACT
• INTRODUCTION
• CASE REPORT
• DISCUSSION
• CONCLUSIONS

ABSTRACT

Study design: A case report.

Objective: To report a rare case of acute spinal subdural hematoma (SSH) complicating lumbar spine surgery, its characteristic presenting symptoms, diagnostic imaging, possible cause, and pitfall in management.

Methods: A 59-year-old woman with lumbar spinal instability and stenosis underwent laminectomy and decompression at L3-L5 with instrumentation and fusion from L3-S1.

Results: Immediately following surgery, the patient presented with incapacitating pain of both lower extremities from the mid-thigh downward, which was not relieved by narcotic analgesia and was disproportional to surgical trauma. Left ankle and great toes weakness was detected at postoperative day 2 and deteriorated on day 6. Magnetic resonance imaging was performed urgently and revealed a characteristic SSH with thecal sac compression at the level of L2, proximal to the laminectomy. Emergency decompression and evacuation of the hematoma was performed. The patient had partial recovery 6 weeks postoperatively.

Conclusion: Acute SSH is a rare complication of lumbar spine surgery. This diagnosis must be considered when severe leg pain, unresolved with analgesia and disproportional to surgical trauma, with neurological deterioration occurring after lumbar spine surgery. Magnetic resonance imaging is the imaging modality of choice to assist in the differential diagnosis of an SSH. Early surgical decompression is necessary for optimal neurological recovery.

INTRODUCTION

Spinal subdural hematoma (SSH) is a rare cause of spinal neutral element compression. Such a lesion typically manifests in patients with vascular malformations, tumors, bleeding disorders, anticoagulant therapy, trauma, or infection [1], [2], [3], [4], [5]. Also, the development of SSH has also been associated with diagnostic lumbar puncture and spinal anesthesia [6], [7].

Spinal subdural hematoma is a rare complication of spine surgery, with only few cases of subacute presentation reported in the literature associated with surgical trauma [1], [2]. However, little is known regarding the manifestation of an acute SSH following lumbar spine surgery. As such, the authors report their experience in the diagnosis and management of an acute SSH, which presented immediately after lumbar decompression and fusion surgery.

CASE REPORT

A 59-year-old woman without significant past medical problems was admitted to the orthopaedic clinic complaining of mechanical low back pain and left lower extremity sciatica, which radiated to the left buttocks and lateral calf regions. She had a positive left straight-leg raising test. There was sensory impairment of the left L5 dermatomes but without motor weakness of both lower extremities. Her walking distance was limited to less than 5 minutes on level ground because of the increasing left L5 pain and numbness.

Plain x-rays of the lumbo-sacral spine showed degenerative changes of lower lumbar region with unstable grade 1 spondylolisthesis of L3-L4 and L5-S1 ([Fig 1]). Magnetic resonance imaging (MRI) of the lumbosacral spine also noted degenerative lumbar spinal stenosis of L3-L4, L4-L5 and L5-S1, with no suspicious lesions of vascular malformation ([Fig 2]).

The patient reported no improvement with prolonged course of conservative treatment. Surgery was then performed, which consisted of a wide laminectomy with bilateral nerve root decompression of L3-L5, pedicle screw instrumentation from L3-S1, and inter-transverse fusion by autogenous bone graft harvested from the iliac crest ([Fig 3]). Intraoperatively, the dura was found to be adherent at L3-L4 and L5-S1 levels, and it was bluntly dissected off the lamina without violation of the dura. The fusion construct was made without intention of reduction of the spondylolisthesis. The operation lasted 4 hours and 25 minutes. The systolic blood pressure was kept low throughout surgery, and there was no excessive bleeding suggestive of coagulopathy.

On postoperative day 1, the patient complained of severe pain of both lower extremities from mid-thigh downward. The pain was not controlled even by frequent high-dose postoperative parenteral narcotic analgesic. In contrast, there was minimal surgical wound pain. She was not able to cooperate with neurological assessment because of narcotic sedation and severe pain. Physical examination on the following day revealed grade 4 weakness of left ankle dorsiflexion (L4) and bilateral grade 3 great toe extensions (L5). Her rectal examination revealed an intact perianal sensation and anal tone. The possibility of a caudal equina compression by hematoma was believed unlikely due to the presence of a functioning deep drain. Residual spinal stenosis was also believed to be unlikely since a wide laminectomy was performed with thorough nerve root decompression. Pedicle screws were inserted under direct vision after the wide laminectomy, and the postoperative x-rays did not suggest screw malposition or poor alignment. It was concluded that intraoperative dural dissection and manipulation of the neural tissue had caused a neurapraxic lesion. On postoperative day 3, leg pain receded to the mid-leg region and distally but the weakness persisted.

On postoperative day 6, neurological deterioration was detected with grade 4 weakness of great toes flexion, grade 3 great toes extension, and grade 2 left-sided ankle dorsiflexion. In view of worsening neurology, an MRI scan was performed ([Fig 4]). T2-weighted sagittal MRI showed a bright signal subdural hematoma proximal to the laminectomy site at the level of L2, causing cauda equina compression ([Fig 4a]). Blood-soaked gel foams were noted at L3, L4, and at the L5 laminectomy site with no neural compression. T2-weighted axial MRI showed bright signal intensity, representative of a lentiform subdural hematoma of the left posterolateral region of the spinal canal ([Fig 4b]). The hematoma was confined to the dura and did not extend into the bony recess.

Emergency exploration was performed on postoperative day 6. A partial L2 laminectomy was performed. The dura appeared unremarkable but a durotomy revealed a collection of xanthomatic fluid, which was compatible with a lysed hematoma. The dura was repaired by 6/0 nonabsorbable suture. Postoperative MRI confirmed decompression of the cauda equina and disappearance of SSH ([Fig 5]).

Six weeks following surgery, the patient reported persistent bilateral paraesthesia below the level of the mid-legs. The sensation was reduced from L2 downward with pin and needle paraesthesia from the mid-leg and below. She could walk independently with a cane.

 Preoperative (a) lateral and (b) posteroanterior plain x-rays illustrating severe degenerative changes of the lower lumbar spine region with grade 1 spondylolisthesis of L3-L4 and L5-S1.

 Sagittal T2-weighted MRI demonstrating spinal stenosis of L3-L4, L4-L5, and L5-S1 levels with disc degeneration and endplates changes.

 Immediate postoperative (a) lateral and (b) posteroanterior plain x-rays illustrating laminectomy of L3-L5 and intact instrumentation from L3-S1.

 T2-weighted magnetic resonance imaging. a Sagittal image demonstrating hyperintense signal intensity at L2 level suggestive of a subdural hematoma causing cauda equina compression (upper arrow). Blood-soaked gel foams are noted at the laminectomy site of L3-L5 (lower arrow). b Axial imaging of L2 showing a hyperintense signal intensity, correlating with a subdural hematoma at the left posterolateral location of the spinal canal (arrow). It was confined within the dura with no extension into the lateral recess.

 Sagittal T2-weighted magnetic resonance imaging showing disappearance of the subdural hematoma at L2.

DISCUSSION

Spinal subdural hematoma is a rare complication of spine surgery with few cases of subacute presentation reported in the literature [1], [2]. Both Gehri et al [1] and Reinsel et al [2] reported single-case reports of SSH development, which presented 6 days and 6 weeks following lumbar discectomy, respectively. Their accounts noted clinical presentation of incapacitating leg pain with various degree of neurological deficit [1], [2].

Our report is the first, to our knowledge, to note an acute SSH complicating an open lumbar decompressive surgery.

Previous reports have proposed various etiological factors associated with SSH [1], [2], [3], [4], [5], [6], [7]. Surgery-related trauma has been a factor also noted in cases where the lesion was noted postoperatively [1], [2]. Gehri et al [1] attributed their occurrence of SSH due to a minor dural tear occurred during surgery, which was repaired. Conversely, in their patient, Reinsel et al [2] hypothesized that inadvertent trauma during preoperative myelogram or discectomy had caused SSH. In our case, the patient had no predisposing factors. The dura was adherent to the posterior spinal element and needed blunt dissection during laminectomy, which was traumatic to the delicate dura. However, dissection under magnification might have been less traumatic and avoided the complication.

Immediate diagnosis of SSH is essential. However, in our case, diagnosis was delayed for several reasons. First, a functioning deep drain had made postoperative epidural hematoma compression unlikely. Second, we were confident that there was no residual stenosis after wide laminectomy and decompression of individual nerve roots. Moreover, pedicle screws were inserted under direct visualization of the nerve roots and pedicles, and acceptable postoperative x-rays also made iatrogenic injury less likely. As such, we were prompted to believe that intraoperative manipulation of the neural tissue had caused a neurapraxia and adopted an expectant approach for recovery. However, the neurological deterioration at day 6 prompted us to contemplate of an unusual cause of extensive neurological deterioration following surgery.

To facilitate the diagnosis of SSH, an MRI scan is the preferred imaging modality. In our case, the SSH presented with different signal intensity on MRI, which may have varied because of the age of the clot. This is caused by the changing characteristic when the blood clot progressively liquefied [8]. In our patient, the hematoma was isodense to cerebrospinal fluid at 6 days after the initial surgery. Gel foam, which is used commonly to cover laminectomy defect, can cause considerable confusion on MRI inspection. Blood-soaked gel foam mimics the appearance of an hematoma, but is characteristically not causing thecal sac compression. Furthermore, an axial MRI is useful in differentiating SSH from a postoperative epidural hematoma. An SSH extends within the border of the dura mater and appears smooth. Conversely, an epidural hematoma appears irregular because it is not confined by the dura and extends into the bony recess of the spinal canal [9].

There was considerable delay in surgical intervention in our patient despite the presence of neurological deficit postoperatively. Urgent MRI scan should have been performed, despite the belief of noncompressive neurapraxia to rule out unusual causes. As such, the delay might have jeopardized neurological recovery. Emergency surgical decompression with evacuation of the SSH by durotomy is the treatment of choice for patients presenting with significant neurological deficit, especially with sphincter incontinence [1], [2]. Intraoperatively, the dura might appear deceivingly normal [1], but durotomy confirmed the presence of a subdural hematoma [1].

CONCLUSIONS

To our knowledge, this case report is the first to note the manifestation of an acute SSH of the lumbar spine following lumbar decompressive surgery. Our case report is meant to raise awareness of the potential occurrence of an acute SSH following lumbar surgery. In addition, spine surgeons should be cognizant that postoperative incapacitating leg pain, unresponsive to routine dose of analgesics and disproportional to surgical trauma outcome, with neurological deterioration is a feature of acute SSH. An MRI is the preferred imaging modality to facilitate in the diagnosis of SSH. Surgery should be performed to decompress the nerve tissues and evacuate SSH for neurological recovery.

The authors have no competing or financial interests to disclose in relation to this work.

• REFERENCES

• 1 Gehri R, Zanetti M, Boos N. 2000; Subacute subdural haematoma complicating lumbar microdiscectomy. J Bone Joint Surg Br 82 (7) 1042-1045
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• REFERENCES EDITORIAL PERSPECTIVE

• 1 Goodkin R, Laska LL. 1995; Unintended “incidental” durotomy during surgery of the lumbar spine: medicolegal implications. Surg Neurol 43: 4-14
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• 2 Kostuik JP. 2004; Medicolegal consequences of cauda equina syndrome: an overview. Neurosurg Focus 16 (6) 39-41
  CrossrefPubMedGoogle Scholar

• REFERENCES COMMENTARY

• 1 Gehri R, Zanetti M, Boos N. 2000; Subacute subdural haematoma complicating lumbar microdiscectomy. J Bone Joint Surg Br 82 (7) 1042-1045
  CrossrefPubMedGoogle Scholar
• 2 Reinsel TE, Goldberg E, Granato DB et al. 1993; Spinal subdural haematoma: a rare cause of recurrent postoperative radiculopathy. J Spinal Disord 6 (1) 62-67
  CrossrefPubMedGoogle Scholar
• 3 Morandi X, Riffaud L, Chabert E et al. 2001; Acute nontraumatic spinal subdural hematomas in three patients. Spine (Phila Pa 1976) 26 (23) E547-551
  CrossrefPubMedGoogle Scholar

• REFERENCES

• 1 Gehri R, Zanetti M, Boos N. 2000; Subacute subdural haematoma complicating lumbar microdiscectomy. J Bone Joint Surg Br 82 (7) 1042-1045
  CrossrefPubMedGoogle Scholar
• 2 Reinsel TE, Goldberg E, Granato DB et al. 1993; Spinal subdural hematoma: a rare cause of recurrent postoperative radiculopathy. J Spinal Disord 6 (1) 62-67
  CrossrefPubMedGoogle Scholar
• 3 Jain V, Singh J, Sharma R. 2008; Spontaneous concomitant cranial and spinal subdural haematomas with spontaneous resolution. Singapore Med J 49 (2) e53-58
  PubMedGoogle Scholar
• 4 Yang MS, Tung YW, Yang TH et al. 2009; Spontaneous spinal and intracranial subdural hematoma. J Formos Med Assoc 108 (3) 258-261
  CrossrefPubMedGoogle Scholar
• 5 Chau SY, Tiu SC. 2008; Spinal subdural haematoma: a rare complication of low-molecular-weight heparin therapy. Hong Kong Med J 14 (1) 64-66
  PubMedGoogle Scholar
• 6 Jonsson LO, Einarsson P, Olsson GL. 1983; Subdural haematoma and spinal anaesthesia; a case report and an incidence study. Anaesthesia 38 (2) 144-146
  CrossrefPubMedGoogle Scholar
• 7 Edelson RN, Chernik NL, Posner JB. 1974; Spinal subdural hematomas complicating lumbar puncture. Arch Neurol 31 (2) 134-137
  CrossrefPubMedGoogle Scholar
• 8 Kulkarni AV, Willinsky RA, Gray T et al. 1998; Serial magnetic resonance imaging findings for a spontaneously resolving spinal subdural hematoma: case report. Neurosurgery 42 (2) 398-400 discussion 400–391
  CrossrefPubMedGoogle Scholar
• 9 Post MJ, Becerra JL, Madsen PW et al. 1994; Acute spinal subdural hematoma: MR and CT findings with pathologic correlates. AJNR Am J Neuroradiol 15 (10) 1895-1905
  PubMedGoogle Scholar

• REFERENCES EDITORIAL PERSPECTIVE

• 1 Goodkin R, Laska LL. 1995; Unintended “incidental” durotomy during surgery of the lumbar spine: medicolegal implications. Surg Neurol 43: 4-14
  PubMedGoogle Scholar
• 2 Kostuik JP. 2004; Medicolegal consequences of cauda equina syndrome: an overview. Neurosurg Focus 16 (6) 39-41
  CrossrefPubMedGoogle Scholar

• REFERENCES COMMENTARY

• 1 Gehri R, Zanetti M, Boos N. 2000; Subacute subdural haematoma complicating lumbar microdiscectomy. J Bone Joint Surg Br 82 (7) 1042-1045
  CrossrefPubMedGoogle Scholar
• 2 Reinsel TE, Goldberg E, Granato DB et al. 1993; Spinal subdural haematoma: a rare cause of recurrent postoperative radiculopathy. J Spinal Disord 6 (1) 62-67
  CrossrefPubMedGoogle Scholar
• 3 Morandi X, Riffaud L, Chabert E et al. 2001; Acute nontraumatic spinal subdural hematomas in three patients. Spine (Phila Pa 1976) 26 (23) E547-551
  CrossrefPubMedGoogle Scholar