Demineralized Bone Matrix (DBM) as a Bone Void Filler in Lumbar Interbody Fusion : A Prospective Pilot Study of Simultaneous DBM and Autologous Bone Grafts |
Kim, Bum-Joon
(Department of Neurosurgery, Korea University Ansan Hospital)
Kim, Se-Hoon (Department of Neurosurgery, Korea University Ansan Hospital) Lee, Haebin (Department of Neurosurgery, Korea University Ansan Hospital) Lee, Seung-Hwan (Department of Neurosurgery, Korea University Ansan Hospital) Kim, Won-Hyung (Department of Neurosurgery, Korea University Ansan Hospital) Jin, Sung-Won (Department of Neurosurgery, Korea University Ansan Hospital) |
1 | Gruskin E, Doll BA, Futrell FW, Schmitz JP, Hollinger JO : Demineralized bone matrix in bone repair : history and use. Adv Drug Deliv Rev 64 : 1063-1077, 2012 DOI |
2 | He YX, Zhang G, Pan XH, Liu Z, Zheng LZ, Chan CW, et al. : Impaired bone healing pattern in mice with ovariectomy-induced osteoporosis : A drill-hole defect model. Bone 48 : 1388-1400, 2011 DOI |
3 | Kanayama M, Cunningham BW, Weis JC, Parker LM, Kaneda K, McAfee PC : The effects of rigid spinal instrumentation and solid bony fusion on spinal kinematics : a posterolateral spinal arthrodesis model. Spine (Phila Pa 1976) 23 : 767-773, 1998 DOI |
4 | Kim DY, Lee SH, Lee HY, Lee HJ, Chang SB, Chung SK, et al. : Validation of the Korean version of the oswestry disability index. Spine (Phila Pa 1976) 30 : E123-E127, 2005 DOI |
5 | Vadapalli S, Sairyo K, Goel VK, Robon M, Biyani A, Khandha A, et al. : Biomechanical rationale for using polyetheretherketone (PEEK) spacers for lumbar interbody fusion-a finite element study. Spine (Phila Pa 1976) 31 : E992-E998, 2006 DOI |
6 | Young PM, Berquist TH, Bancroft LW, Peterson JJ : Complications of spinal instrumentation. Radiographics 27 : 775-789, 2007 DOI |
7 | Larsen JM, Rimoldi RL, Capen DA, Nelson RW, Nagelberg S, Thomas JC Jr : Assessment of pseudarthrosis in pedicle screw fusion : a prospective study comparing plain radiographs, flexion/extension radiographs, CT scanning, and bone scintigraphy with operative findings. J Spinal Disord 9 : 117-120, 1996 |
8 | Kim DH, Lee N, Shin DA, Yi S, Kim KN, Ha Y : Matched Comparison of Fusion Rates between Hydroxyapatite Demineralized Bone Matrix and Autograft in Lumbar Interbody Fusion. J Korean Neurosurg Soc 59 : 363-367, 2016 DOI |
9 | Kubo T, Shiga T, Hashimoto J, Yoshioka M, Honjo H, Urabe M, et al. : Osteoporosis influences the late period of fracture healing in a rat model prepared by ovariectomy and low calcium diet. J Steroid Biochem Mol Biol 68 : 197-202, 1999 DOI |
10 | Lang P, Genant HK, Chafetz N, Steiger P, Morris JM : Three-dimensional computed tomography and multiplanar reformations in the assessment of pseudarthrosis in posterior lumbar fusion patients. Spine (Phila Pa 1976) 13 : 69-75, 1988 DOI |
11 | Cammisa FP Jr, Lowery G, Garfin SR, Geisler FH, Klara PM, McGuire RA, et al. : Two-year fusion rate equivalency between Grafton DBM gel and autograft in posterolateral spine fusion : a prospective controlled trial employing a side-by-side comparison in the same patient. Spine (Phila Pa 1976) 29 : 660-666, 2004 DOI |
12 | Lee KJ, Roper JG, Wang JC : Demineralized bone matrix and spinal arthrodesis. Spine J 5(6 Suppl) : S217-S223, 2005 DOI |
13 | Lind M, Bunger C : Factors stimulating bone formation. Eur Spine J 10 Suppl 2 : S102-S109, 2001 DOI |
14 | Morone MA, Boden SD : Experimental posterolateral lumbar spinal fusion with a demineralized bone matrix gel. Spine (Phila Pa 1976) 23 : 159-167, 1998 DOI |
15 | An HS, Simpson JM, Glover JM, Stephany J : Comparison between allograft plus demineralized bone matrix versus autograft in anterior cervical fusion. A prospective multicenter study. Spine (Phila Pa 1976) 20 : 2211-2216, 1995 DOI |
16 | Boden SD, Schimandle JH : Biologic enhancement of spinal fusion. Spine (Phila Pa 1976) 20(24 Suppl) : 113S-123S, 1995 DOI |
17 | Sagomonyants KB, Jarman-Smith ML, Devine JN, Aronow MS, Gronowicz GA : The in vitro response of human osteoblasts to polyetheretherketone (PEEK) substrates compared to commercially pure titanium. Biomaterials 29 : 1563-1572, 2008 DOI |
18 | Najeeb S, Khurshid Z, Zohaib S, Zafar MS : Bioactivity and osseointegration of PEEK are inferior to those of titanium-a systematic review. J Oral Implantol 42 : 512-516, 2016 DOI |
19 | Place ES, Evans ND, Stevens MM : Complexity in biomaterials for tissue engineering. Nat Mater 8 : 457-470, 2009 DOI |
20 | Ponnappan RK, Serhan H, Zarda B, Patel R, Albert T, Vaccaro AR : Biomechanical evaluation and comparison of polyetheretherketone rod system to traditional titanium rod fixation. Spine J 9 : 263-267, 2009 DOI |
21 | Santos ER, Goss DG, Morcom RK, Fraser RD : Radiologic assessment of interbody fusion using carbon fiber cages. Spine (Phila Pa 1976) 28 : 997-1001, 2003 |
22 | Torricelli P, Fini M, Giavaresi G, Giardino R : In vitro osteoinduction of demineralized bone. Artif Cells Blood Substit Immobil Biotechnol 26 : 309-315, 1998 DOI |
23 | Torricelli P, Fini M, Rocca M, Giavaresi G, Giardino R : Xenogenic demineralized bone matrix : osteoinduction and influence of associated skeletal defects in heterotopic bone formation in rats. Int Orthop 23 : 178-181, 1999 DOI |
24 | Urist MR : Bone : formation by autoinduction. Science 150 : 893-899, 1965 DOI |
25 | Fogel GR, Toohey JS, Neidre A, Brantigan JW : Fusion assessment of posterior lumbar interbody fusion using radiolucent cages : X-ray films and helical computed tomography scans compared with surgical exploration of fusion. Spine J 8 : 570-577, 2008 DOI |
26 | Chalmers J, Gray D, Rush J : Observations on the induction of bone in soft tissues. J Bone Joint Surg Br 57 : 36-45, 1975 |
27 | Farrokhi MR, Rahmanian A, Masoudi MS : Posterolateral versus posterior interbody fusion in isthmic spondylolisthesis. J Neurotrauma 29 : 1567-1573, 2012 DOI |
28 | Finkemeier CG : Bone-grafting and bone-graft substitutes. J Bone Joint Surg Am 84 : 454-464, 2002 DOI |
29 | Giannoudis PV, Dinopoulos H, Tsiridis E : Bone substitutes : an update. Injury 36 Suppl 3 : S20-S27, 2005 |