Anterior or posterior release for severe rigid neuromuscular scoliosis: which is safer and more effective? Zhen Liu, Yong Qiu, Ze-zhang Zhu, Bang-ping.

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Presentation transcript:

Anterior or posterior release for severe rigid neuromuscular scoliosis: which is safer and more effective? Zhen Liu, Yong Qiu, Ze-zhang Zhu, Bang-ping Qian Drum Tower Hospital, Nanjing University Medical School

Objective Patients could acquired more benefit from which surgery approach: anterior release or posterior release? To compare corrective efficiency between combined anterior/posterior approach and staged posterior approach . To determine whether surgical treatment of severe and rigid scoliosis through a two-staged posterior approach is feasible, safe and effective.

Methods Inclusion criteria Neuromuscular scoliosis Major curve > 100 ° Flexibility < 30% All patients underwent staged surgery Complete radiographic and clinical materials Group A-P: anterior release Group P-P: posterior release

Radiological assessment C7PL CSVL SVA C7 Cobb angle of main curve Flexibility Global kyphosis Coronal balance Sagittal balance All of the parameters were measured pre-op, after halo-femoral traction, immediately post-op, and at the last follow-up Improvement of flexibility after release and traction, correction after final surgery and complications were compared between two groups

21 days post-traction flexibility 28.6% #5695, F, 17 yrs , neuromuscular scoliosis, anterior release Bending film flexibility 23.2% 86° 52° 112° 21 days post-traction flexibility 28.6% 80°

Correction rate 48.2% 57° 58° Post-op 11 m Post-op

21 days post-traction flexibility 30.8% #8311, M, 24 yrs , neuromuscular scoliosis, posterior release Bending film Flexibility 10.3% 105° 96° 117° 21 days post-traction flexibility 30.8% 81°

Correction rate 46.2% 57° 68° 63° Post-op 6 m Post-op

Primary results Parameters pre-op A-P group (n=15) P-P group (n=10) P value Age (y) 16.0±3.6 20.3±3.9 P=0.01 Gender M: 7 M:5 P>0.999 F: 8 F: 5 Curve type D: 6 D: 0 P=0.051 S: 9 S: 10 Cobb angle 113.5°±11.7° 115.5°±8.9° P=0.646 Kyphosis 72.5°±14.6° 95.4°±20.4° P=0.003 Bending 88.8°±13.3° 99.0°±9.4° P=0.047 Flexibility 21.9%±7.4% 14.2%±6.2% P=0.013 SVA (mm) 18.2±17.4 23.9±18.1 P=0.433 C7PL-CSVL (mm) 19.1±15.4 13.6±13.3 P=0.365 D: double curve; S: single curve

Comparison of radiographic parameters after surgery between anterior and posterior release Parameters post-op A-P group (n=19) P-P group (n=19) P value Cobb angle Post-traction 77.0°±14.6° 74.6°±10.7° P=0.652 Flexibility post-traction 32.2%±9.8% 35.3%±8.9% P=0.436 Benefit from release and traction 10.4%±8.5% 21.1%±9.3% P=0.007 Coronal cobb angle 58.8°±21.4° 61.4°±7.1° P=0.726 Correction rate of coronal 48.9%±15.9% 46.7%±6.6% P=0.694 kyphosis 39.1°±7.2° 48.1°±8.2° P=0.008 Correction rate of kyphosis 44.5%±13.4% 48.9%±6.3% P=0.341 SVA (mm) 19.3±10.4 23.4±15.4 P=0.428 C7PL-CSVL (mm) 20.8±9.8 17.3±15.3 P=0.487

Conclusions Staged posterior surgery was a safe, efficacious method for severe rigid scoliosis. Patients could obtained more benefit from posterior release combined halo-femoral traction. Rigid curve and severe kyphosis might responsible for the lower correction rate of coronal cobb angle.

Thank you!