Instrumented cervical fusion using patient specific end-plate conforming interbody devices with a micro-porous structure in nine dogs with disk-associated cervical spondylomyelopathy

Colin J Driver; Victor Lopez; Ben Walton; Dan Jones; Rory Fentem; Andrew Tomlinson; Jeremy Rose

doi:10.3389/fvets.2023.1208593

Instrumented cervical fusion using patient specific end-plate conforming interbody devices with a micro-porous structure in nine dogs with disk-associated cervical spondylomyelopathy

Front Vet Sci. 2023 Jun 26:10:1208593. doi: 10.3389/fvets.2023.1208593. eCollection 2023.

Authors

Colin J Driver¹, Victor Lopez^{2

3}, Ben Walton^{3

4}, Dan Jones³, Rory Fentem⁵, Andrew Tomlinson⁵, Jeremy Rose¹

Affiliations

¹ Lumbry Park Veterinary Specialists, CVS Referrals, Alton, United Kingdom.
² School of Engineering, University of Liverpool, Liverpool, United Kingdom.
³ Fusion Implants, Liverpool, United Kingdom.
⁴ Movement Referrals, Preston Brook, United Kingdom.
⁵ Small Animal Teaching Hospital, University of Liverpool, Neston, United Kingdom.

Abstract

Objective: To report the medium and long-term outcome of nine dogs with disk-associated cervical spondylomyelopathy (DA-CSM), treated by instrumented interbody fusion using patient specific end-plate conforming device that features a micro-porous structure to facilitate bone in-growth.

Study design: A retrospective clinical study.

Animals: Nine medium and large breed dogs.

Methods: Medical records at two institutions were reviewed between January 2020 and 2023. Following magnetic resonance imaging (MRI) diagnosis of DA-CSM, pre-operative computed tomography (CT) scans were exported to computer software for in-silico surgical planning. Interbody devices were 3D-manufactured by selecting laser melting in titanium alloy. These were surgically implanted at 13 segments alongside mono-or bi-cortical vertebral stabilization systems. Follow-up included neurologic scoring and CT scans post-operative, at medium-term follow up and at long-term follow-up where possible. Interbody fusion and implant subsidence were evaluated from follow-up CT scans.

Results: Nine dogs were diagnosed with DA-CSM between C5-C7 at a total of 13 operated segments. Medium-term follow up was obtained between 2 and 8 months post-operative (3.00 ± 1.82 months). Neurologic scoring improved (p = 0.009) in eight of nine dogs. Distraction was significant (p < 0.001) at all segments. Fusion was evident at 12/13 segments. Subsidence was evident at 3/13 operated segments but was only considered clinically relevant in one dog that did not improve; as clinical signs were mild, revision surgery was not recommended. Long-term follow up was obtained between 9 and 33 months (14.23 ± 8.24 months); improvement was sustained in 8 dogs. The dog that suffered worsened thoracic limb paresis at medium-term follow up was also diagnosed with immune-mediated polyarthropathy (IMPA) and was euthanased 9 months post-operative due to unacceptable side-effects of corticosteroid therapy.

Conclusion: End-plate conforming interbody devices with a micro-porous structure were designed, manufactured, and successfully implanted in dog with DA-CSM. This resulted in CT-determined fusion with minimal subsidence in the majority of operated segments.

Clinical significance: The technique described can be used to distract and fuse cervical vertebrae in dogs with DA-CSM, with favorable medium-and long-term outcomes.

Keywords: cervical spondylomyelopathy; custom implants; vertebral distraction-fusion; veterinary spinal surgery; wobbler syndrome.