RESUMO
OBJECTIVE: Reduction and retention of the scoliotic curve in children with progressive spinal deformities. INDICATIONS: Progressive neuromyopathic scoliosis which cannot be controlled conservatively (especially by walking disability), and/or development of a thorax insufficiency syndrome (TIS). CONTRAINDICATIONS: Insufficient soft tissue coverage; body weightâ¯< 11.4â¯kg; body mass index (BMI)â¯> 25 or >50â¯kg; missing osseous anchoring structures (ribs); adult skeleton (usually ageâ¯< 12 years at surgery); severe spasticity. SURGICAL TECHNIQUE: Indirect correction and distraction of the spinal deformity by two extendable, paravertebral telescopic implants, anchored to the cranial ribs and the iliac crest; the spine is not compromised surgically. POSTOPERATIVE MANAGEMENT: Early functional therapy, no brace; multiple surgical (VEPTR®-system) or externally (magnetically controlled rods) controlled extensions per year. RESULTS: The surgical paravertebral "no-touch" technique for spine correction is particularly suitable for children with neuromyopathic scoliosis with a body weightâ¯> 11.4â¯kg. Our prospective group of children (nâ¯= 45), was treated with a combination of the classic vertical expandable prosthetic titanium rib (VEPTR®) anchored to the ribs and iliac crest combined with a magnetically controlled telescopic implant (MAGEC®). The primary correction of >50% was achieved, while progression was effectively prevented over years. In 495 outpatient lengthening procedures, the rate of implant-associated complications requiring surgery was 3.7%. Of the 45 children, 13 (29%) underwent surgical revision. With the proposed surgical "no-touch" technique for scoliosis correction of pediatric neuromyopathic deformities, an effective reduction of the scoliotic curve can be achieved and maintained. Advantages of the method are a partial retention of spinal flexibility and a reduction of spinal ossifications, which facilitates dorsal spondylodesis as the final treatment.