fusionless correction for early onset scoliosis (eos) emma orton bme 281
TRANSCRIPT
Fusionless Correction for Early Onset Scoliosis (EOS)
Emma OrtonBME 281
What is EOS?
• Diagnosed before the skeletal age of 10 • There is a lateral curve of the spine • Causes pulmonary problems later in life• There are three different types
– Infantile Idiopathic- diagnosed between 0 and 3 years old and the patient is otherwise healthy
– Juvenile Idiopathic-diagnosed between 4 and 10 years old– Congenital-is developed within the first 6 weeks of embryonic
formation and is when vertebrae are not formed correctly [1]
Cobb Angle
[2]
[3]
Possible Treatments• Braces
• For older patients with a less severe curve • will not be helpful for patients aged 2-7 years with curves of 50 to 60
degrees
• VECTR• Vertical prosthetic titanium prosthetic rib• Pushes ribs apart widening the thorax and straightening the spine
• Dual Growing Rods• Growing Rods with Magnetic Expansion Control• Spinal Fusion• Many other surgical treatments
Why are Fusionless Treatments Better?
• When fusion is used the curve of the spine is improved but growth stops
• Fusionless treatments are important for children especially those under 10
• Children under 5 still have up to 12.5 cm of vertical growth
• Lungs do not fully develop till about 8 years old• Fusion does work for patients who are fully grown
[4]
Criteria for Dual Growing RodsThe general criteria is:
• Significant potential axial growth remaining• A deformity that is
continuing to progress• A deformity that is
flexible or can be made flexible
Dual Growing Rods: Experiment 1• 38 patients• Followed for anywhere between 2 and 7 years
(on average 3.3 years)• Patients received lengthenings on average
every 6.8 months• The cobb angle decreased from 74 degrees to
38 degrees on average• There was axial growth (T1-S1) [5]
Dual Growing Rod: Experiment 2
• 23 patients• Cobb angle corrected from 82 degrees to 38
degrees on average• On average 1.24cm per year of axial spinal
growth• Improvement of space in the thorax• 13 complications with 11 patients
Dual Growing Rod: Experiment 3
• Group 1 had a single rod with a short apical fusion
• Group 2 had only a single rod• Group 3 had dual rod implantation• Group 1 had the worst results with 23%
correction (6.4cm of axial growth) while group three had the best with 71% correction (12.1 cm of axial growth)
Pros and Con of Dual Growing Rod
• One of the most efficient ways of treating EOS
• Opens up the thorax preventing many future pulmonary issues
• Continues to allow for growth
• Each patient must receive an invasive surgery every six months for a span of a few years (usually till age 10 for girls and age 13 for boys)
• This leads to more opportunities to contract some kind of infection
• Very physically and psychologically grueling
Pros Cons
Magnetically Controlled Growing Rods (MCRG)
• Attached in basically the same way as the dual growing rods
• Lengthened during quick follow-ups in the office without any invasive surgery every 3-4 months
• This allows for the curve to be managed until their skeletal structure has matured enough for spinal fusion
• The EOS is then tracked using radiographs
[6]
[7]
MCGR
• This technique is very new in the United States so not many hospitals are doing it
• The first one was completed in Washington DC on a ten year old boy
• The requirements are a skeletal age of 10 years old or younger and a Cobb angle of 50 degrees or greater
• Approved by the FDA in February of 2014
[8]
MCGR Experiment
Criteria• Younger than 11 years old• Major curve of at least 30 degrees• Radiographic thoracic height (T1-T12) less then 22cm• No previous spine surgery• 2 year follow-up
The Experiment• 12 MCGR patients• 12 TGR patients• All paired by gender number of rods, age, curve and type of
EOS[6]
Results Major Curve Correction
• Very similar with MCGR and TRG patients• Overall it was 32% and 33%
Spinal Height(T1-S1)• MCGR- 8.1mm/year• TGR- 9.7mm/year• This is not considered significantly different
Throacic Height(T1-T12)
MCGR TRG
Height before surgery 158mm 166mm
Height immediately following surgery 186mm 189mm
Growth per year 1.5mm/yr 2.3mm/yr
ResultsMCRG
• 16 surgeries • 137 noninvasive lengthenings• 8 implant related complications
TRG• 73 surgeries• 12 for initial implant• 56 for lengthening• 11/12 had complications• 4 surgical site infection and 13 implant related
NOTE: All of these patient were from different facilities so there could be some variations in results
[6]
Discussion of Results• MCGR-does not allow for the sagittal plane to
contour ideally because of where the actuator has to be located
• TRG-May produce better results when solely looking at numbers but when the surgeries and many complications are added in it is not ideal
• It is possible that the MCRG would have had results even more similar or better than the TRG results had there been a longer follow up (average follow up for TR patients was 1.6 years longer)
References[1] "Congenital Scoliosis." - Scoliosis Research Society (SRS). N.p., n.d. Web. 22 Sept. 2015. types of scoliosis[2] "Anatomy of the Spine." Spine Anatomy : Southern Oregon Neurosurgical & Spine Associates, PC. N.p., n.d. Web. 26 Sept. 2015. [3] "MD Lingo." MD Lingo. N.p., n.d. Web. 26 Sept. 2015.[4] Hershman, Staurt H., Justin J. Park, and Baron S. Lonner. "Fusionless Surgery for Scoliosis." Fusionless Surgery for Scoliosis (2013): n. pag. Web. 22 Sept. 2015.[5] "Frequently Asked Questions." Growing Spine Foundation. N.p., n.d. Web. 22 Sept. 2015. [6] Pawlek, Jeff B., and Growing Spine Study Group. "Traditional Growing Rods Versus Magnetically Controlled Growing Rods for the Surgical Treatment of Early-Onset Scoliosis: A Case-Matched 2-Year Study." 2.6 (2014): 493-97. Web. [7] Controlled Growing Rods Treat Scoliosis in Children." MedGadget. N.p., n.d. Web. 22 Sept. 2015. [8] Chueng, and Samartzis. "Management of EOS." N.p., n.d. Web.