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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1996 1
1997 2
1998 1
2000 3
2001 1
2005 4
2006 3
2007 3
2008 3
2009 3
2010 1
2011 4
2012 3
2013 4
2014 10
2015 19
2016 13
2017 13
2018 11
2019 9
2020 12
2021 4
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Similar articles for PMID: 32986581

110 results
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Pull-Out Strength Comparison Among Conventional Pedicle Screw, Cortical Infero-Superior, and Cortical Supero-Inferior Trajectories in Yorkshire Porcine Lumbar Spines: A Biomechanical Study.
Tobing SDAL, Wisnubaroto RP. Tobing SDAL, et al. Int J Spine Surg. 2020 Aug;14(4):580-584. doi: 10.14444/7077. Epub 2020 Jul 31. Int J Spine Surg. 2020. PMID: 32986581 Free PMC article.
Cortical bone trajectory for lumbar pedicle screws.
Santoni BG, Hynes RA, McGilvray KC, Rodriguez-Canessa G, Lyons AS, Henson MA, Womack WJ, Puttlitz CM. Santoni BG, et al. Spine J. 2009 May;9(5):366-73. doi: 10.1016/j.spinee.2008.07.008. Epub 2008 Sep 14. Spine J. 2009. PMID: 18790684
Pedicle screw placement in the lumbar spine: effect of trajectory and screw design on acute biomechanical purchase.
Wray S, Mimran R, Vadapalli S, Shetye SS, McGilvray KC, Puttlitz CM. Wray S, et al. J Neurosurg Spine. 2015 May;22(5):503-10. doi: 10.3171/2014.10.SPINE14205. Epub 2015 Feb 13. J Neurosurg Spine. 2015. PMID: 25679236
Radiographic feasibility study of cortical bone trajectory and traditional pedicle screw dual trajectories.
Mullin JP, Perlmutter B, Schmidt E, Benzel E, Steinmetz MP. Mullin JP, et al. J Neurosurg Spine. 2016 Dec;25(6):727-732. doi: 10.3171/2016.4.SPINE151483. Epub 2016 Jul 8. J Neurosurg Spine. 2016. PMID: 27391396
Hydroxyapatite-coating of pedicle screws improves resistance against pull-out force in the osteoporotic canine lumbar spine model: a pilot study.
Hasegawa T, Inufusa A, Imai Y, Mikawa Y, Lim TH, An HS. Hasegawa T, et al. Spine J. 2005 May-Jun;5(3):239-43. doi: 10.1016/j.spinee.2004.11.010. Spine J. 2005. PMID: 15863077
Biomechanical comparison of anatomic trajectory pedicle screw versus injectable calcium sulfate graft-augmented pedicle screw for salvage in cadaveric thoracic bone.
Derincek A, Wu C, Mehbod A, Transfeldt EE. Derincek A, et al. J Spinal Disord Tech. 2006 Jun;19(4):286-91. doi: 10.1097/01.bsd.0000211203.31244.a0. J Spinal Disord Tech. 2006. PMID: 16778665
Biomechanical Comparisons of Pull Out Strengths After Pedicle Screw Augmentation with Hydroxyapatite, Calcium Phosphate, or Polymethylmethacrylate in the Cadaveric Spine.
Yi S, Rim DC, Park SW, Murovic JA, Lim J, Park J. Yi S, et al. World Neurosurg. 2015 Jun;83(6):976-81. doi: 10.1016/j.wneu.2015.01.056. Epub 2015 Mar 10. World Neurosurg. 2015. PMID: 25769482
Biomechanical Fixation Properties of the Cortical Bone Trajectory in the Osteoporotic Lumbar Spine.
Li HM, Zhang RJ, Gao H, Jia CY, Xing T, Zhang JX, Dong FL, Shen CL. Li HM, et al. World Neurosurg. 2018 Nov;119:e717-e727. doi: 10.1016/j.wneu.2018.07.253. Epub 2018 Aug 6. World Neurosurg. 2018. PMID: 30092463
Validation of a freehand technique for cortical bone trajectory screws in the lumbar spine.
Tan Z, McLachlin S, Whyne C, Finkelstein J. Tan Z, et al. J Neurosurg Spine. 2019 Apr 19:1-8. doi: 10.3171/2019.1.SPINE181402. Online ahead of print. J Neurosurg Spine. 2019. PMID: 31003218
A bicortical pedicle screw in the caudad trajectory is the best option for the fixation of an osteoporotic vertebra: An in-vitro experimental study using synthetic lumbar osteoporotic bone models.
Shibasaki Y, Tsutsui S, Yamamoto E, Murakami K, Yoshida M, Yamada H. Shibasaki Y, et al. Clin Biomech (Bristol, Avon). 2020 Feb;72:150-154. doi: 10.1016/j.clinbiomech.2019.12.013. Epub 2019 Dec 20. Clin Biomech (Bristol, Avon). 2020. PMID: 31877533
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