新型单节段颈椎次全切除模型中全颈椎假体的生物力学评估:一项体外人体尸体研究。
Biomechanical evaluation of a novel total cervical prosthesis in a single-level cervical subtotal corpectomy model: an in vitro human cadaveric study.
机构信息
Institute of Orthopaedics, Xijing Hospital, Fourth Military Medical University, Xi'an Shaanxi Province, China.
出版信息
J Surg Res. 2012 Jun 1;175(1):76-81. doi: 10.1016/j.jss.2011.02.022. Epub 2011 Mar 17.
BACKGROUND
Anterior cervical subtotal corpectomy and fusion provides extensive decompression in the treatment of cervical myelopathy. However, early adjacent segment degeneration may arise due to the abnormal kinematics. To the best of our knowledge, this is the first report on a newly-designed total cervical prosthesis (TCP) to preserve the normal kinematics of cervical spine. The purpose of this study was to compare the cervical range of motion (ROM) of TCP with anterior cervical plating (ACP) in a single-level cervical subtotal corpectomy model.
STUDY DESIGN
An in vitro biomechanical study of a novel total cervical prosthesis (TCP) using a cadaveric model.
MATERIALS AND METHODS
After evaluation of the ROM of the 14 human cadaveric cervical spines (C(2)-T(1)) (intact group), single-level subtotal corpectomy models at the C(5) levels were performed. All specimens were randomized, instrumented with ACP (n = 7) and TCP (n = 7) from C(4) to C(6). All specimens were tested for flexion/extension, lateral bending, and axial rotation loading. The ROM of implanted segments (C(4)-C(6)) and adjacent segments (C(3)/C(4) and C(6)/C(7)) were monitored, respectively.
RESULTS
TCP was found to accurately recapitulate the preoperative ROM both in the adjacent segments (C(3)/C(4) and C(6)/C(7)) and the implanted segments (C(4)-C(6)). In the adjacent segments, no significant difference was found in ROM(C3/C4) between the TCP group and the intact group in flexion, extension, and lateral bending. In the implanted segments, TCP preserved well the ROM(C4-C6), with 5.29° in flexion, 12.27° in extension, 8.95° in right lateral bending, and 7.50° in left lateral bending. In contrast, the mean ROM(C4-C6) in the ACP group was lower than those in the TCP group and the intact group significantly in all directions (P < 0.05). In addition, compared with the ACP group, the mean ROM(C3-C7) in TCP group increased by 32.6% (P = 0.034) in flexion, 62.9% (P = 0.008) in extension, 24.8% (P > 0.05) in lateral bending, and 36.0% (P < 0.01) in rotation. Compared with the intact group, the TCP group showed moderate decrease in flexion and moderate increases in extension, lateral bending, and rotation. But no significant differences were detected (P > 0.05).
CONCLUSIONS
Biomechanical analyses suggest that TCP preserves ROM in the implanted segments after cervical subtotal corpectomy. TCP will not induce compensatory motion in the adjacent segments, thus may possibly help prevent adjacent segment degeneration.
背景
颈椎前路次全切除融合术可提供广泛的减压,用于治疗颈椎病。然而,由于异常的运动学,早期相邻节段可能会发生退变。据我们所知,这是首例报道采用新型全颈椎假体(TCP)来保持颈椎正常运动学的研究。本研究的目的是比较单节段颈椎次全切除模型中 TCP 和颈椎前路钢板(ACP)的颈椎活动度(ROM)。
研究设计
采用尸体模型的新型全颈椎假体(TCP)的体外生物力学研究。
材料和方法
评估 14 个人体颈椎(C2-T1)(完整组)的 ROM 后,在 C5 水平进行单节段次全切除术模型。所有标本随机分为 ACP 组(n=7)和 TCP 组(n=7),从 C4 到 C6 进行仪器化。所有标本均进行屈伸、侧屈和轴向旋转加载测试。监测植入节段(C4-C6)和相邻节段(C3/C4 和 C6/C7)的 ROM。
结果
发现 TCP 在植入节段(C4-C6)和相邻节段(C3/C4 和 C6/C7)都能准确再现术前 ROM。在相邻节段,TCP 组和完整组在屈伸和侧屈时,ROM(C3/C4)无显著差异。在植入节段,TCP 很好地保留了 ROM(C4-C6),屈伸 5.29°,伸展 12.27°,右侧侧屈 8.95°,左侧侧屈 7.50°。相比之下,ACP 组的平均 ROM(C4-C6)在各个方向均显著低于 TCP 组和完整组(P<0.05)。此外,与 ACP 组相比,TCP 组的 ROM(C3-C7)在屈伸时增加 32.6%(P=0.034),在伸展时增加 62.9%(P=0.008),在侧屈时增加 24.8%(P>0.05),在旋转时增加 36.0%(P<0.01)。与完整组相比,TCP 组屈伸时的 ROM 中度减少,伸展、侧屈和旋转时的 ROM 中度增加,但无显著差异(P>0.05)。
结论
生物力学分析表明,颈椎前路次全切除术后,TCP 可保留植入节段的 ROM。TCP 不会引起相邻节段的代偿运动,因此可能有助于预防相邻节段退变。
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