RSS-Feed abonnieren
DOI: 10.1055/s-0035-1547359
Evaluation of Occipitocervical Arthrodesis Rates with Screw-based Fixation and Osteoinductive Fusion Adjuncts
Publikationsverlauf
27. Juni 2014
30. Dezember 2014
Publikationsdatum:
14. Juli 2015 (online)
Abstract
Occipitocervical (OC) instability may be associated with neurologic impairment and even death. There is a paucity of research on the rate of arthrodesis utilizing modern screw-based constructs coupled with adjuvant osteoinductive agents. We reviewed our experience with OC constructs and compared the fusion rate, functional outcome, and rate of adverse events between recombinant human bone morphogenetic protein (BMP)-2, autologous iliac crest bone graft (ICBG), a combination of BMP and ICBG, and local bone autograft alone. We performed a retrospective cohort analysis of all adult admissions for operative treatment of OC instability utilizing segmental screw-based constructs for OC arthrodesis between January 2003 and September 2012. Data concerning demographic characteristics, diagnostic and procedural details, radiographic pathology, and clinical course were abstracted from medical records. The primary end point was evidence of stable fixation and osseous union on either dynamic lateral radiographs or computed tomography (CT) imaging at most recent follow-up. Secondary end points included functional outcome as determined by Nurick scale and Neck disability index (NDI) at ≥ 1year postoperation, as well as perioperative morbidity and mortality at 30 days and 3 months. During the study period, 94 patients (mean age: 62 ± 18 years) underwent OC fixation with segmental screw-based constructs. The four fusion adjunct cohorts analyzed included local autograft alone (32%), ICBG (41%), BMP (14%), or a combination of ICBG and BMP (14%). Notably, demineralized bone matrix was also used in 61% of cases overall, but its use did not differ significantly among the four cohorts (p = 0.28). Median radiographic follow-up was 6 months postoperatively (range: 1.5–54 months). Clinical outcomes were assessed at a median postoperative follow-up of 45 months (range: 12–87 months). Overall, radiographic evidence of arthrodesis was present in 83% of patients assessed and was not significantly different between adjunct cohorts (local autograft 92%, ICBG 77%, BMP 88%, and combination of ICBG and BMP 83%; p = 0.79). This finding persisted despite adjustment for age, pathology, number of levels instrumented, and attendant procedures. Importantly, neither the presence of arthrodesis nor fusion adjunct was significantly associated with functional outcome in both univariate and adjusted regression models. Additionally, perioperative adverse events occurred in 23% of cases and did not vary significantly in incidence or severity between fusion adjunct cohorts. We present a large series of patients treated for OC instability with rigid fixation utilizing modern segmental screw-based constructs. The use of adjuvant osteoinductive agents (BMP, ICBG, or a combination) produced equivalent rates of arthrodesis, functional outcome, and adverse events compared with use of local autograft alone.
-
References
- 1 Nurick S. The pathogenesis of the spinal cord disorder associated with cervical spondylosis. Brain 1972; 95 (1) 87-100
- 2 Moskovich R, Crockard HA, Shott S, Ransford AO. Occipitocervical stabilization for myelopathy in patients with rheumatoid arthritis. Implications of not bone-grafting. J Bone Joint Surg Am 2000; 82 (3) 349-365
- 3 Finn MA, Bishop FS, Dailey AT. Surgical treatment of occipitocervical instability. Neurosurgery 2008; 63 (5) 961-968 ; discussion 968–969
- 4 Vender JR, Rekito AJ, Harrison SJ, McDonnell DE. The evolution of posterior cervical and occipitocervical fusion and instrumentation. Neurosurg Focus 2004; 16 (1) E9
- 5 Nockels RP, Shaffrey CI, Kanter AS, Azeem S, York JE. Occipitocervical fusion with rigid internal fixation: long-term follow-up data in 69 patients. J Neurosurg Spine 2007; 7 (2) 117-123
- 6 Winegar CD, Lawrence JP, Friel BC , et al. A systematic review of occipital cervical fusion: techniques and outcomes. J Neurosurg Spine 2010; 13 (1) 5-16
- 7 Heidecke V, Rainov NG, Burkert W. Occipito-cervical fusion with the cervical Cotrel-Dubousset rod system. Acta Neurochir (Wien) 1998; 140 (9) 969-976
- 8 Hurlbert RJ, Crawford NR, Choi WG, Dickman CA. A biomechanical evaluation of occipitocervical instrumentation: screw compared with wire fixation. J Neurosurg 1999; 90 (1, Suppl): 84-90
- 9 Schultz Jr KD, Petronio J, Haid RW , et al. Pediatric occipitocervical arthrodesis. A review of current options and early evaluation of rigid internal fixation techniques. Pediatr Neurosurg 2000; 33 (4) 169-181
- 10 Burkus JK, Transfeldt EE, Kitchel SH, Watkins RG, Balderston RA. Clinical and radiographic outcomes of anterior lumbar interbody fusion using recombinant human bone morphogenetic protein-2. Spine 2002; 27 (21) 2396-2408
- 11 Epstein NE. Pros, cons, and costs of INFUSE in spinal surgery. Surg Neurol Int 2011; 2: 10
- 12 Glassman SD, Carreon LY, Djurasovic M , et al. RhBMP-2 versus iliac crest bone graft for lumbar spine fusion: a randomized, controlled trial in patients over sixty years of age. Spine 2008; 33 (26) 2843-2849
- 13 Carreon LY, Glassman SD, Brock DC, Dimar JR, Puno RM, Campbell MJ. Adverse events in patients re-exposed to bone morphogenetic protein for spine surgery. Spine 2008; 33 (4) 391-393
- 14 Crawford III CH, Carreon LY, McGinnis MD, Campbell MJ, Glassman SD. Perioperative complications of recombinant human bone morphogenetic protein-2 on an absorbable collagen sponge versus iliac crest bone graft for posterior cervical arthrodesis. Spine 2009; 34 (13) 1390-1394
- 15 Fu R, Selph S, McDonagh M , et al. Effectiveness and harms of recombinant human bone morphogenetic protein-2 in spine fusion: a systematic review and meta-analysis. Ann Intern Med 2013; 158 (12) 890-902
- 16 Lindley TE, Dahdaleh NS, Menezes AH, Abode-Iyamah KO. Complications associated with recombinant human bone morphogenetic protein use in pediatric craniocervical arthrodesis. J Neurosurg Pediatr 2011; 7 (5) 468-474
- 17 Mroz TE, Wang JC, Hashimoto R, Norvell DC. Complications related to osteobiologics use in spine surgery: a systematic review. Spine 2010; 35 (9, Suppl): S86-S104
- 18 Sawin PD, Traynelis VC, Menezes AH. A comparative analysis of fusion rates and donor-site morbidity for autogeneic rib and iliac crest bone grafts in posterior cervical fusions. J Neurosurg 1998; 88 (2) 255-265
- 19 Shahlaie K, Kim KD. Occipitocervical fusion using recombinant human bone morphogenetic protein-2: adverse effects due to tissue swelling and seroma. Spine 2008; 33 (21) 2361-2366
- 20 Mummaneni PV, Haid RW. Atlantoaxial fixation: overview of all techniques. Neurol India 2005; 53 (4) 408-415
- 21 Kaiser MG, Mummaneni PV, Matz PG , et al; Joint Section on Disorders of the Spine and Peripheral Nerves of the American Association of Neurological Surgeons and Congress of Neurological Surgeons. Radiographic assessment of cervical subaxial fusion. J Neurosurg Spine 2009; 11 (2) 221-227
- 22 Vernon H, Mior S. The Neck Disability Index: a study of reliability and validity. J Manipulative Physiol Ther 1991; 14 (7) 409-415