Biomedical Engineering Reference
In-Depth Information
tissue structures, such as the spinal cord, adjacent to
the implant components. Finally, the versatility of
PEEK biomaterials allows for spinal devices to be
designed with a tailored range of stiffnesses,
depending on rigidity desired for a particular spine
implant application. In the following chapters, we
turn to orthopedic and trauma applications in which
isoelasticity, or matching implant stiffness to that of
bone, has been a long-term objective.
[7] S.D. Boden, J. Kang, H. Sandhu, J.G. Heller,
Use of recombinant human bone morphoge-
netic protein-2 to achieve posterolateral lumbar
spine fusion in humans: a prospective,
randomized clinical pilot trial: 2002 Volvo
Award in Clinical Studies, Spine (Phila., PA,
1976) 27 (2002) 2662 e 2673.
[8] K.L. Ong, M.L. Villarraga, E. Lau,
L.Y. Carreon, S.M. Kurtz, S.D. Glassman, Off-
label use of bone morphogenetic proteins in the
United States using administrative data, Spine
35 (2010) 1794 e 1800.
[9] R.C. Huang, F.P. Girardi, M.R. Lim,
F.P. Cammisa Jr., Advantages and disadvan-
tages of nonfusion technology in spine surgery,
Orthop. Clin. North Am. 36 (2005) 263 e 269.
[10] K. Singh, H.S. An, Motion preservation tech-
nologies: alternatives to spinal fusion, Am. J.
Orthop. (Belle Mead, NJ) 35 (2006) 411 e 416.
[11] S.D. Christie,
Acknowledgments
The author thanks Marta Villarraga, Exponent,
and Frank Chan, Medtronic, for their helpful editorial
suggestions; Bill Christianson, DePuy Spine, for
assistance with certain figures and many helpful
discussions about the history of the Brantigan cage.
Thanks are also extended to Brian Murell, Medtronic
Spinal and Biologics; Hassan Serhan, DePuy Spine;
Michael Veldman, Invibio; and Dr. Todd Lanman for
helpful discussions and editorial feedback about
PEEK rod systems.
J.K. Song, R.G. Fessler,
Dynamic
interspinous process
technology,
Spine 30 (2005) S73 e S78.
[12] S.M. Kurtz, Total disc arthroplasty, in:
S.M. Kurtz, A.A. Edidin (Eds.), Spine Tech-
nology Handbook, Academic Press, New York,
2006, pp. 303 e 370.
[13] F.H. Albee, Transplantation of a portion of the
tibia into the spine for Pott's disease, J. Am.
Med. Assoc. 57 (1911) 855 e 858.
[14] H. Briggs, P.R. Milligan, Chip fusion of the
low back following exploration of the spinal
canal, J. Bone Joint Surg. Am. 26 (1944)
125 e 130.
[15] B.H. Burns, An operation for spondylolis-
thesis, Lancet 1 (1933) 1233.
[16] R.B. Cloward, The treatment of ruptured
lumbar intervertebral disc by vertebral body
fusion. III. Method of use of banked bone,
Ann. Surg. 136 (1952) 987 e 992.
[17] R.B. Cloward, Vertebral body fusion for
ruptured cervical discs, Am. J. Surg. 98 (1959)
722 e 727.
[18] P.C. McAfee, Interbody fusion cages in
reconstructive operations on the spine, J. Bone
Joint Surg. Am. 81 (1999) 859 e 880.
[19] G. Bagby, The Bagby and Kuslich (BAK)
method of lumbar interbody fusion, Spine
(Phila., PA, 1976) 24 (1999) 1857.
[20] S.D. Kuslich, C.L. Ulstrom, S.L. Griffith,
J.W. Ahern, J.D. Dowdle, The Bagby and
References
[1] S.A. Brown, R.S. Hastings, J.J. Mason,
A. Moet, Characterization of short-fibre rein-
forced thermoplastics for fracture fixation
devices, Biomaterials 11 (1990) 541 e 547.
[2] H.B. Skinner, Composite technology for total
hip arthroplasty, Clin. Orthop. Relat. Res.
(1988) 224 e 236.
[3] M.L. Villarraga, Historical review of spinal
instrumentation for fusion: rods, screws, and
plates, in: S.M. Kurtz, A.A. Edidin (Eds.),
Spine Technology Handbook, Academic Press,
New York, 2006, pp. 183 e 208.
[4] K. Ong, E. Lau, S.M. Kurtz, K. Chin,
A. Ianuzzi, M.L. Villarraga, Cervical, thoracic,
and lumbar fusion rates in the U.S.: perspective
from two health databases, Transactions of the
53rd Orthopedic Research Society (2007) 1016.
[5] K. Ong, E. Lau, S.M. Kurtz, K. Chin,
A. Ianuzzi, M.L. Villarraga, Projections to 2030
of the prevalence of primary and revision spine
fusions in the U.S., Transactions of the 53rd
Orthopedic Research Society (2007) 1070.
[6] S. Mendenhall, 2010 spinal industry update,
Orthopedic Network News 21 (2010) 3 e 6.
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