Abstract
Charcot spondyloarthropathy is one of the late complications of traumatic spinal cord injury that produces further disability. Purpose of this paper is to introduce 5 patients who developed Charcot spine after traumatic spinal cord injury treated surgically in our hospital (SIC) and discuss the result.
Methods: 1) We experienced 7 pts who presented characteristic clinical and radiographic findings of Charcot spine treated in SIC for 20 years (an incidence < 1%). 2) 5 out of 7 pts underwent surgical fusion. They were 4 males, 1 female, aged: 39~66, previous injury comprises of: C6 Fracture-dislocation(Fx/Dx) in 1, T11 Fx/Dx in 2, T12 Fx/Dx in 2. respectively, 3) 4 pts had complete paraplegia, 0ne incomplete(Frankel B) and the Charcot spine occurred below fusion mass under the injured level. 4) Posterior spinal fusions combined with kyphosis correction were performed in 3, the same with posterior shortening osteotomy using TSRH instruments in 2. Fusions were extended to L4 in 1, L5 in 2, S1 in 2 respectively.
Results: 1) 4 pts who had been followed-up over one year showed ultimate osseous union. Another one showed loosening of screws resulted in non-union at 5 months postoperatively. 2) Cobb angle of kyphosis were improved from 67.7 degrs. in av.(58~82) to 13.7 degrs in av. (15~36) by the operation. 3) All pts could have restored a good sitting balance tolerated a long time wheelchair sitting without any localized back pain.
Conclusion: It is important for physicians who treat spinal cord injury patients to be aware of posttraumatic Charcot spine. As longevity of the people with paralysis is increasing, this phenomenon may occur more apparently. Special attention should be given to the spinal segments just below the fused level in patients with previous spinal fusion. For the unstable and symptomatic Charcot spine, a surgical correction and fusion should be considered. The correction of kyphosis is essential, but too much correction should be avoided, because it may worsen a sitting balance of the patient. We now recommend a posterior shortening osteotomy and rigid fusion using a solid pedicle screw instrumentation like TSRH.
The abstracts were prepared by Professor Jegan Krishnan. Correspondence should be addressed to him at the Flinders Medical Centre, Bedford Park 5047, Australia.