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European Spine Journal
Published in: European Spine Journal 5/2020

01-05-2020 | Orthosis | Original Article

Craniovertebral junction fixation in children less than 5 years

Authors: Patrick J. Grover, Lauren S. Harris, Dominic N. P. Thompson

Published in: European Spine Journal | Issue 5/2020

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Abstract

Purpose

Whilst rigid fixation for craniovertebral instability is the gold standard, in very young, small children conventional management may have to be modified. We present a single-centre experience of craniocervical fixation in children under 5 years.

Methods

A retrospective review of cases that had undergone atlantoaxial (AA) or occipitocervical (OC) fixation aged under 5 years. Fusion was assessed using computerised tomography or flexion extension X-rays.

Results

Twenty-six children (median age 2.3, range 0.8–4.9 years, 19 under the age of 3) underwent OC (n = 19) or AA (n = 7) fusion between 1999 and 2016. Pathology comprised 17 congenital, five trauma, two tumour and two post-infection cases. Twenty-one patients underwent sublaminar cable fixation with calvarial, autologous bone graft and halo-body orthosis immobilisation. An occipital plate and rods to sublaminar wire construct were used in four cases. A rigid instrumented fixation with occipital plate and C2 pedicle screws was utilised in one case. Follow-up was for a median of 2.8 years (range 0.03–16.3 years). Initial fusion rate was 91%, reaching 100% following two re-operations. Ninety-two per cent of patients were neurologically stable or improved following surgery. Twenty-one patients had a good overall outcome. Two patients had post-operative neurological deteriorations, and four died due to non-procedure related causes. Pin site morbidity secondary to halo use occurred in five cases.

Conclusion

High fusion rates with good outcomes are achievable using semi-rigid fixation in the under 5-year-olds. Full thickness, autologous calvarial bone graft secured with wire cables and halo external orthosis offers a safe and effective alternative technique when traditional screw instrumentation is not feasible.

Graphic abstract

These slides can be retrieved under Electronic Supplementary Material.
Appendix
Available only for authorised users
Literature
1.
Menezes AH (2008) Craniocervical developmental anatomy and its implications. Childs Nerv Syst 24(10):1109–1122PubMedCrossRef
2.
3.
4.
Rahimi SY, Stevens EA, Yeh DJ, Flannery AM, Choudhri HF, Lee MR (2003) Treatment of atlantoaxial instability in pediatric patients. Neurosurg Focus 15(6):ECP1PubMedCrossRef
5.
Wang J, Vokshoor A, Kim S, Elton S, Kosnik E, Bartkowski H (1999) Pediatric atlantoaxial instability: management with screw fixation. Pediatr Neurosurg 30(2):70–78PubMedCrossRef
6.
Parisini P, Di Silvestre M, Greggi T, Bianchi G (2003) C1-C2 posterior fusion in growing patients: long-term follow-up. Spine 28(6):566–572 (discussion 572) PubMed
7.
Ahmed R, Traynelis VC, Menezes AH (2008) Fusions at the craniovertebral junction. Childs Nerv Syst 24(10):1209–1224PubMedCrossRef
8.
Klimo P, Astur N, Gabrick K, Warner WC, Muhlbauer MS (2013) Occipitocervical fusion using a contoured rod and wire construct in children: a reappraisal of a vintage technique. J Neurosurg Pediatr 11(2):160–169PubMedCrossRef
9.
Klimo P, Binning M, Brockmeyer DL, Apfelbaum RI (2007) The lasso technique for posterior C1-C2 fusion. Neurosurgery 61(3 Suppl):94–99 (discussion 99) PubMed
10.
Rodgers WB, Coran DL, Kharrazi FD, Hall JE, Emans JB (1997) Increasing lordosis of the occipitocervical junction after arthrodesis in young children: the occipitocervical crankshaft phenomenon. J Pediatr Orthop 17(6):762–765PubMed
11.
Toyama Y, Matsumoto M, Chiba K, Asazuma T, Suzuki N, Fujimura Y et al (1994) Realignment of postoperative cervical kyphosis in children by vertebral remodeling. Spine 19(22):2565–2570PubMedCrossRef
12.
Kennedy BC, D’Amico RS, Youngerman BE, McDowell MM, Hooten KG, Couture D et al (2015) Long-term growth and alignment after occipitocervical and atlantoaxial fusion with rigid internal fixation in young children. J Neurosurg Pediatr 17:1–9
13.
Hankinson TC, Avellino AM, Harter D, Jea A, Lew S, Pincus D et al (2010) Equivalence of fusion rates after rigid internal fixation of the occiput to C-2 with or without C-1 instrumentation. J Neurosurg Pediatr 5(4):380–384PubMedCrossRef
14.
Gluf WM, Brockmeyer DL (2005) Atlantoaxial transarticular screw fixation: a review of surgical indications, fusion rate, complications, and lessons learned in 67 pediatric patients. J Neurosurg Spine 2(2):164–169PubMedCrossRef
15.
Schultz KD, Petronio J, Haid RW, Rodts GE, Erwood SC, Alexander J et al (2000) Pediatric occipitocervical arthrodesis. A review of current options and early evaluation of rigid internal fixation techniques. Pediatr Neurosurg 33(4):169–181PubMedCrossRef
16.
Haque A, Price AV, Sklar FH, Swift DM, Weprin BE, Sacco DJ (2009) Screw fixation of the upper cervical spine in the pediatric population. Clinical article. J Neurosurg Pediatr 3(6):529–533PubMedCrossRef
17.
Ji X-T, Li A, Wang Q, Zhao D-S, Huang G, Liu W-P et al (2013) Posterior reduction and instrumentation with rod-screw construct for atlanto-axial dislocation: a single institutional study with 21 consecutive cases. Clin Neurol Neurosurg 115(8):1433–1439PubMedCrossRef
18.
Kale SS, Ailawadhi P, Yerramneni VK, Chandra PS, Kumar R, Sharma BS et al (2011) Pediatric bony craniovertebral junction abnormalities: Institutional experience of 10 years. J Pediatr Neurosci 6(Suppl 1):S91–S95PubMedPubMedCentralCrossRef
19.
Anderson RCE, Kan P, Gluf WM, Brockmeyer DL (2006) Long-term maintenance of cervical alignment after occipitocervical and atlantoaxial screw fixation in young children. J Neurosurg 105(1 Suppl):55–61PubMed
20.
Winegar CD, Lawrence JP, Friel BC, Fernandez C, Hong J, Maltenfort M et al (2010) A systematic review of occipital cervical fusion: techniques and outcomes. J Neurosurg Spine 13(1):5–16PubMedCrossRef
21.
Geck MJ, Truumees E, Hawthorne D et al (2014) Feasibility of rigid upper cervical instrumentation in children: Tomographic analysis of children aged 2–6. J Spinal Disord Technol 27(3):E110–E117CrossRef
22.
Tauchi R, Imagama S, Ito Z, Ando K, Hirano K, Muramoto A et al (2012) Complications and outcomes of posterior fusion in children with atlantoaxial instability. Eur Spine J 21(7):1346–1352PubMedCrossRef
23.
Yerramneni VK, Chandra PS, Kale SS, Lythalling RK, Mahapatra AK (2011) A 6-year experience of 100 cases of pediatric bony craniovertebral junction abnormalities: treatment and outcomes. Pediatr Neurosurg 47(1):45–50PubMedCrossRef
24.
Anderson RCE, Ragel BT, Mocco J, Bohman L-E, Brockmeyer DL (2007) Selection of a rigid internal fixation construct for stabilization at the craniovertebral junction in pediatric patients. J Neurosurg 107(1 Suppl):36–42PubMed
25.
Bauman JA, Hardesty DA, Heuer GG, Storm PB (2011) Use of occipital bone graft in pediatric posterior cervical fusion: an alternative paramedian technique and review of the literature. J Neurosurg Pediatr 7(5):475–481PubMedCrossRef
26.
Brockmeyer DL, Apfelbaum RI (1999) A new occipitocervical fusion construct in pediatric patients with occipitocervical instability. Technical note. J Neurosurg 90(2 Suppl):271–275PubMed
27.
Brockmeyer D, Apfelbaum R, Tippets R, Walker M, Carey L (1995) Pediatric cervical spine instrumentation using screw fixation. Pediatr Neurosurg 22(3):147–157PubMedCrossRef
28.
Chamoun RB, Relyea KM, Johnson KK, Whitehead WE, Curry DJ, Luerssen TG et al (2009) Use of axial and subaxial translaminar screw fixation in the management of upper cervical spinal instability in a series of 7 children. Neurosurgery 64(4):734–739 (discussion 739) PubMedCrossRef
29.
Couture D, Avery N, Brockmeyer DL (2010) Occipitocervical instrumentation in the pediatric population using a custom loop construct: initial results and long-term follow-up experience. J Neurosurg Pediatr 5(3):285–291PubMedCrossRef
30.
Fargen KM, Anderson RCE, Harter DH, Angevine PD, Coon VC, Brockmeyer DL et al (2011) Occipitocervicothoracic stabilization in pediatric patients. J Neurosurg Pediatr 8(1):57–62PubMedCrossRef
31.
Hedequist D, Proctor M (2009) Screw fixation to C2 in children: a case series and technical report. J Pediatr Orthop 29(1):21–25PubMedCrossRef
32.
Jea A, Taylor MD, Dirks PB, Kulkarni AV, Rutka JT, Drake JM (2007) Incorporation of C-1 lateral mass screws in occipitocervical and atlantoaxial fusions for children 8 years of age or younger. Technical note. J Neurosurg 107(2 Suppl):178–183PubMed
33.
McGrory BJ, Klassen RA (1994) Arthrodesis of the cervical spine for fractures and dislocations in children and adolescents. A long-term follow-up study. J Bone Joint Surg Am 76(11):1606–1616PubMedCrossRef
34.
Nakagawa T, Yone K, Sakou T, Yanase M (1997) Occipitocervical fusion with C1 laminectomy in children. Spine 22(11):1209–1214PubMedCrossRef
35.
Odent T, Bou Ghosn R, Dusabe J-P, Zerah M, Glorion C (2015) Internal fixation with occipital hooks construct for occipito-cervical arthrodesis. Results in 14 young or small children. Eur Spine J 24(1):94–100PubMedCrossRef
36.
Reilly CW, Choit RL (2006) Transarticular screws in the management of C1–C2 instability in children. J Pediatr Orthop 26(5):582–588PubMedCrossRef
37.
Taggard DA, Menezes AH, Ryken TC (2000) Treatment of down syndrome-associated craniovertebral junction abnormalities. J Neurosurg 93(2 Suppl):205–213PubMed
38.
Reintjes SL, Amankwah EK, Rodriguez LF, Carey CC, Tuite GF (2015) Allograft versus autograft for pediatric posterior cervical and occipito-cervical fusion: a systematic review of factors affecting fusion rates. J Neurosurg Pediatr 23:1–16
39.
Brockmeyer D (2001) Concerning the article by Schultz et al., Pediatr Neurosurg 2000;33:169–181. Pediatric occipitocervical arthrodesis: a review of current options and early evaluation of rigid internal fixation techniques. Pediatr Neurosurg 34(3):168PubMedCrossRef
40.
Reilly TM, Sasso RC, Hall PV (2003) Atlantoaxial stabilization: clinical comparison of posterior cervical wiring technique with transarticular screw fixation. J Spinal Disord Technol 16(3):248–253CrossRef
41.
Glaser JA, Whitehill R, Stamp WG, Jane JA (1986) Complications associated with the halo-vest. A review of 245 cases. J Neurosurg 65(6):762–769PubMedCrossRef
42.
Wong WB, Haynes RJ (1994) Osteology of the pediatric skull. Considerations of halo pin placement. Spine 19(13):1451–1454PubMedCrossRef
43.
Casey AT, Hayward RD, Harkness WF, Crockard HA (1995) The use of autologous skull bone grafts for posterior fusion of the upper cervical spine in children. Spine 20(20):2217–2220PubMedCrossRef
44.
Chadduck WM, Boop FA (1994) Use of full-thickness calvarial bone grafts for cervical spinal fusions in pediatric patients. Pediatr Neurosurg 20(1):107–112PubMedCrossRef
45.
Walters BC (1993) Cranial bone grafts for use in posterior fixation of the cervical spine. Technical note. J Neurosurg 79(2):286–288PubMedCrossRef
46.
Robertson SC, Menezes AH (1998) Occipital calvarial bone graft in posterior occipitocervical fusion. Spine 23(2):249–254 (discussion 254–5) PubMedCrossRef
47.
Tong CKW, Chen JCH, Cochrane DD (2012) Spinal cord infarction remote from maximal compression in a patient with Morquio syndrome. J Neurosurg Pediatr 9(6):608–612PubMedCrossRef
48.
Borlot F, Arantes PR, Capel Cardoso AC, Kim CA (2014) Remote spinal cord injury in mucopolysaccharidosis type IVA after cervical decompression. Neurology 82(15):1382–1383PubMedCrossRef
Metadata
Title
Craniovertebral junction fixation in children less than 5 years
Authors
Patrick J. Grover
Lauren S. Harris
Dominic N. P. Thompson
Publication date
01-05-2020
Publisher
Springer Berlin Heidelberg
Published in
European Spine Journal / Issue 5/2020
Print ISSN: 0940-6719
Electronic ISSN: 1432-0932
DOI
https://doi.org/10.1007/s00586-020-06313-x

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