Neurospine.  2020 Jun;17(2):461-465. 10.14245/ns.1938212.106.

Neurologic Deficit During Halo-Gravity Traction in the Treatment of Severe Thoracic Kyphoscoliotic Spinal Deformity

Affiliations
  • 1Department of Orthopedic Surgery, The Daniel and Jane Och Spine Hospital at NewYork-Presbyterian, Columbia University College of Physicians and Surgeons, New York, NY, USA

Abstract

Correction of severe spinal deformity is a significant challenge for spinal surgeons. Although halo-gravity traction (HGT) has been shown to be well-tolerated and safe, we report here a case of neurologic decline during treatment. A 24-year-old male presents with severe thoracic kyphoscoliosis with > 180° of 3-dimensional deformity. Magnetic resonance imaging showed his thoracic spinal cord draped across his T7–9 apex. His neurologic exam showed lower extremity myelopathy. During week 7 at a goal traction weight of 18.1 kg, his distal lower extremity exam declined from 4+/5 to 2/5. His traction weight was lowered to 11.3 kg. He subsequently sustained a ground-level fall and became paraparetic with a motor exam of 1–2/5. He subsequently underwent a T1–L4 posterior spinal instrumentation and fusion with a T7–9 vertebral column resection. Postoperatively, he was noted to have a complete return to his baseline neurologic exam. At his 4-month postoperative visit, he was now full strength in his lower extremities with complete resolution of his myelopathy. We present here a case of neurologic decline in a patient with severe kyphoscoliosis who underwent HGT and discuss the management decisions associated with this challenging scenario.

Keyword

pinal deformity; Halo-gravity traction; Neurologic deficit; Complications; Kyphoscoliosis
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