Comparison of cervical disk implants and cervical disk fusion treatments in human cadaveric models

被引：11

作者：

Davies, M. A.

Bryant, S. C.

Larsen, S. P.

Murrey, D. B.

Nussman, D. S.

Laxer, E. B.

Darden, B. V., III

机构：

[1] Univ N Carolina, Charlotte, NC 28223 USA

[2] Charlotte Orthoped Res Inst, Charlotte Spine Ctr, Charlotte, NC 28203 USA

来源：

JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME | 2006年 / 128卷 / 04期

关键词：

D O I：

10.1115/1.2205373

中图分类号：

Q6 [生物物理学];

学科分类号：

071011 [生物物理学];

摘要：

Articulating cervical disk implants have been proposed as an alternative to disk fusion in the treatment of cervical disk disease. To examine the mechanical effect of articulating cervical disk implants (ACDI) versus simulated cervical disk fusion, a mechanical test device was constructed and cadaveric tests were carried out. While results show little effect on the pressures above and below the treatment level, the percent hysteretic behavior of the specimens trended to be higher for the ACDI, indicating that these implants retain more of the natural energy absorption capability of the cervical spine.

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收藏

页码：481 / 486

页数：6

相关论文

共 21 条

[1]

INTERSEGMENTAL SPINAL FLEXIBILITY WITH LUMBOSACRAL INSTRUMENTATION - AN INVITRO BIOMECHANICAL INVESTIGATION [J].

ASAZUMA, T ;

STOKES, IAF ;

MORELAND, MS ;

SUZUKI, N .

SPINE, 1990, 15 (11) :1153-1158

[2]

The artificial disc: Theory, design and materials [J].

Bao, QB ;

McCullen, GM ;

Higham, PA ;

Dumbleton, JH ;

Yuan, HA .

BIOMATERIALS, 1996, 17 (12) :1157-1167

[3]

Multiple muscle force simulation in axial rotation of the cervical spine [J].

Bernhardt, P ;

Wilke, HJ ;

Wenger, KH ;

Jungkunz, B ;

Böhm, A ;

Claes, LE .

CLINICAL BIOMECHANICS, 1999, 14 (01) :32-40

[4]

BIOMECHANICS OF THE SB CHARITE LUMBAR INTERVERTEBRAL-DISK ENDOPROSTHESIS [J].

BUTTNERJANZ, K ;

SCHELLNACK, K ;

ZIPPEL, H .

INTERNATIONAL ORTHOPAEDICS, 1989, 13 (03) :173-176

[5]

BUTTNERJANZ K, 1988, Patent No. 4759766

[6]

AN APPARATUS FOR APPLYING PURE NONCONSTRAINING MOMENTS TO SPINE SEGMENTS IN-VITRO [J].

CRAWFORD, NR ;

BRANTLEY, AGU ;

DICKMAN, CA ;

KOENEMAN, EJ .

SPINE, 1995, 20 (19) :2097-2100

[7]

In vitro axial preload application during spine flexibility testing: towards reduced apparatus-related artefacts [J].

Cripton, PA ;

Bruehlmann, SB ;

Orr, TE ;

Oxland, TR ;

Nolte, LP .

JOURNAL OF BIOMECHANICS, 2000, 33 (12) :1559-1568

[8]

A minimally disruptive technique for measuring intervertebral disc pressure in vitro: application to the cervical spine [J].

Cripton, PA ;

Dumas, GA ;

Nolte, LP .

JOURNAL OF BIOMECHANICS, 2001, 34 (04) :545-549

[9]

Biomechanical testing of an artificial cervical joint and an anterior cervical plate [J].

DiAngelo, DJ ;

Roberston, JT ;

Metcalf, NH ;

McVay, BJ ;

Davis, RC .

JOURNAL OF SPINAL DISORDERS & TECHNIQUES, 2003, 16 (04) :314-323

[10]

Biomechanical study on the effect of cervical spine fusion on adjacent-level intradiscal pressure and segmental motion [J].

Eck, JC ;

Humphreys, SC ;

Lim, TH ;

Jeong, ST ;

Kim, JG ;

Hodges, SD ;

An, HS .

SPINE, 2002, 27 (22) :2431-2434