• World Neurosurg · Feb 2019

    Case Reports

    A novel height-adjustable nano hydroxyapatite/polyamide-66 vertebral body for reconstruction of thoracolumbar structural stability after spinal tumor resection.

    • Guanghui Chen, Mengchen Yin, Weibo Liu, Baoquan Xin, Guangjian Bai, Jian Wang, Jing Wang, Xin Gao, Yang Wang, Chao Liu, Li Cheng, Jianru Xiao, and Tielong Liu.
    • Department of Orthopaedic Oncology Center, Changzheng Hospital, Second Military Medical University, Shanghai, China.
    • World Neurosurg. 2019 Feb 1; 122: e206-e214.

    BackgroundReconstruction of thoracolumbar structural stability is a formidable challenge for spine surgeons after vertebral body tumor resection. Various disadvantages of the currently used expandable or nonexpandable cages have limited their clinical applications. We sought to develop a novel prosthesis for clinical use and assess its preliminary clinical outcome in reconstruction of thoracolumbar structural stability after spinal tumor resection.MethodsUsing data obtained from a retrospective analysis of the morphological characteristics of the thoracolumbar vertebrae and endplates in previously reported studies, we modified the nano-hydroxyapatite/polyamide-66 (n-HA/PA66) strut into a novel height-adjustable vertebral body. A retrospective study was performed of 7 patients who had undergone reconstruction of thoracolumbar structural stability with this novel prosthesis from August 2016 to January 2017.ResultsA novel height-adjustable vertebral body (AHVB) composed of n-HA/PA66 with 2 separate components with a 163° contact surface at each end was manufactured. The height-adjustable range was 28-37 mm. No significant implant-related complications were observed in the process of operation. All patients experienced a significant reduction in pain, with the visual analog scale score decreasing from 7.9 to 4.0. Neurological improvement was assessed using the Frankel grading system after surgery. Postoperative radiographic and computed tomography/magnetic resonance imaging findings indicated that the operated segment was stable, the outcome of kyphosis correction was good, and no prosthesis subsidence or dislocation was observed.ConclusionThis novel prosthesis has many advantages in the reconstruction of height, lordosis, and alignment after thoracolumbar spinal tumor resection and has a favorable prospect for clinical application.Copyright © 2018 Elsevier Inc. All rights reserved.

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