summery
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Congenital Scoliosis is a congenital spinal deformity that occurs due to the failure of normal vertebral development during 4th to 6th week of gestation.
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Diagnosis is made with AP and lateral full spine radiographs. MRI is required to assess for neural axis abnormalities.
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Treatment can be observation or surgical management depending on the specific anatomical anomaly, and curve progression.
Etiology
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Mechanism
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caused by a developmental defect in the formation of the mesenchymal anlage
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Causes
- most cases occur spontaneously
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maternal exposures
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diabetes
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alcohol
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valproic acid
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hyperthermia
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- most cases occur spontaneously
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Genetic
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uncertain
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- Associated conditions
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may occur in isolation or with associated conditions
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with associated systemic anomalies, up to 61%
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cardiac defects - 10%
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genitourinary defects - 25%
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spinal cord malformations
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with underlying syndrome or chromosomal abnormality
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VACTERL syndrome
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in 38% to 55%
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characterized by vertebral malformations, anal atresia, cardiac malformations, tracheo-esophageal fistula, renal, and radial anomalies, and limb defects
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Goldenhar/OculoAuricularVertebral Syndrome
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hemifacial microsomia and epibulbar dermoids
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Jarcho-Levin Syndrome/Spondylocostal dysostosis
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short trunk dwarfism, multiple vertebral and rib defects and fusion
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most commonly autosomal recessive
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often associated with thoracic insufficiency syndrome (TIS)
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caused by shortening of the thorax and rib fusions
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result is thorax is unable to support lung growth and respiratory decompensation
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Klippel-Feil syndrome
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short neck, low posterior hairline, and fusion of cervical vertebrae
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Alagille syndrome
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peripheral pulmonic stenosis, cholestasis, facial dysmorphism
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classification
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Failure of Formation
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Fully segmented hemivertebra
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-has normal disc space above and below
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Semisegmented hemivertebra
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-hemivertebra fused to adjacent vertebra on one side with disk on the other
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Unsegmented hemivertebra
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-hemivertebra fused to vertebra on each side
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Incarcerated hemivertebra
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-found within lateral margins of the vertebra above and below
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Unincarcerated hemivertebra
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-laterally positioned
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Wedge vertebra
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Failure of Segmentation
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Block vertebra
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(bilateral bony bars)
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Bar body
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(unilateral unsegmented bar is common and likely to progress)
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Mixed
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Unilateral unsegmented bar with contralateral hemivertebra
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(most rapid progression)
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Imaging
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Radiographs
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recommended views
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AP and lateral plain films usually sufficient to confirm diagnosis
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CT
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indications
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judicious use recommended due to radiation exposure
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3D CT useful to better delineate posterior bony anatomy and define type for surgical planning
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MRI
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indications
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all patients with congenital scoliosis prior to surgery to evaluate for neural axis abnormality (found in 20-40%) including
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Chiari malformation
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tethered cord
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syringomyelia
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diastematomyelia
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intradural lipoma
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technique
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sedation required in infants so may be delayed if no surgery is planned and no neuro deficits
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Additional medical studies
- important to obtain studies for associated abnormalities
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renal ultrasound or MRI
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echocardiogram if suspicion for cardiac manifestations
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- important to obtain studies for associated abnormalities
Treatment
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Nonoperative
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observation and bracing
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indications for observation
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absence of documented progression, ie:
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incarcerated hemivertebrae
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nonsegmental hemivertebrae
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some partially segmented hemivertebrae
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bracing
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not indicated in primary treatment of congenital scoliosis (no effectiveness shown)
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may be used to control supple compensatory curves, but effectiveness is unproven
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Operative
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posterior fusion (+/- osteotomies and modest correction)
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indications
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hemi-vertebrae opposite a unlateral bar that does not require a vertebrectomy at any age. this otherwise will relentlessly progress until fused.
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older patients with significant progression, neurologic deficits, or declining respiratory function
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having many pedicle screws may decrease crankshaft phenomenon adn obviate the need for an anterior fusion.
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anterior/posterior spinal fusion +/- vertebrectomy
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indications
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young patients with significant progression, neurologic deficits, or declining respiratory function
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girls < 10 yrs
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boys < 12 yrs
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- patients with failure of formation with contralateral failure of segmentation at any age that requires hemi-vertebrectomy and/or significant correction. This may be done from a posterior approach
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technique
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nutritional status of patient must be optimized prior to surgery
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distraction based growing rod construct
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indications
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may be used in an attempt to control deformity during spinal growth and delay arthrodesis
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outcomes
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need to be lengthened approximately every 6 months for best results
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osteotomies between ribs
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indications
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mulitple (>4) fused ribs wit potential for thoracic insufficiency syndrome
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outcomes
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long-term follow up is needed to determine efficacy. the downside is this may make the chest stiff and hurt pulmonary function.
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Hemi-Vertebrectomy - usally done from a posterior approach, particularly with kyphosis.
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indications - age 3-8 years (younger is difficult to get good anchor purchase)
- progressive or significant deformity
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Teqniques
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Spinal arthrodesis +/- vertebrectomy/osteotomy
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in situ arthrodesis, anterior/posterior or posterior alone
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indications
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unilateral unsegmented bars with minimal deformity
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hemiepiphysiodesis
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indications
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intact growth plates on the concave side of the deformity
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patients less than 5 yrs. with < 40-50 degree curve
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mixed results
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osteotomy
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osteotomy of bar
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hemivertebrectomy
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hemivertebrae with progressive curve causing truncal imbalance and oblique takeoff
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often caused by a lumbosacral hemivertebrae
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patients < 6 yrs. and flexible curve < 40 degrees best candidates
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spinal column shortening resection
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indications
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deformities that present late and have severe decompensation
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rigid, severe deformities
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pelvic obliquity, fixed
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Complication
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Crankshaft phenomenon
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a deformity caused by performing posterior fusion alone
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Short stature
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growth of spinal column is affected by fusion
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younger patients affected more
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Neurologic injury
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surgical risk factors include
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overdistraction or shortening
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overcorrection
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harvesting of segmental vessels
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somatosensory and motor evoked potentials important
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Soft-tissue compromise
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nutritional aspects of care essential to ensure adequate soft tissue healing
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Prognosis
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Dependent on potential for progression and early intervention
- Progression
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most rapid in the first 3 years of life
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anterior failure of formation is rapidly progressive and often results in paralysis; anterior failure of segmentation can be rapidly progressive but rarely results in paralysis
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determined by the morphology of vertebrae. Rate of progression from greatest to least is:
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unilateral unsegmented bar with contralateral hemivertebra >
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greatest potential for rapid progression (5 to10 degrees/year)
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unilateral unsegmented bar >
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fully segmented hemivertebra >
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unincarcerated hemivertebra >
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incarcerated hemivertebra >
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unsegmented hemivertebra >
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block vertebrae
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little chance for progression (<2 degrees/year)
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presence of fused ribs increases risk of progression
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