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Items: 1 to 20 of 100

1.

The most appropriate cervical vertebra for the measurement of occipitocervical inclination parameter: a validation study of C3, C4, and C5 levels using multi-positional magnetic resonance imaging.

Paholpak P, Formanek B, Vega A, Tamai K, Buser Z, Wang JC.

Eur Spine J. 2019 Jun 13. doi: 10.1007/s00586-019-06028-8. [Epub ahead of print]

PMID:
31197542
2.

Occipitocervical inclination: new radiographic parameter of neutral occipitocervical position.

Yoon SD, Lee CH, Lee J, Choi JY, Min WK.

Eur Spine J. 2017 Sep;26(9):2297-2302. doi: 10.1007/s00586-017-5161-0. Epub 2017 May 29.

PMID:
28555311
3.

C7 sagittal vertical axis is the determinant of the C5-C7 angle in cervical sagittal alignment.

Matsubayashi Y, Chikuda H, Oshima Y, Taniguchi Y, Fujimoto Y, Shimizu T, Tanaka S.

Spine J. 2017 May;17(5):622-626. doi: 10.1016/j.spinee.2016.11.007. Epub 2016 Nov 15.

PMID:
27871819
4.

The Occupancy of the Components in the Cervical Spine and Their Changes with Extension and Flexion.

Sayıt E, Aghdasi B, Daubs MD, Wang JC.

Global Spine J. 2015 Oct;5(5):396-405. doi: 10.1055/s-0035-1550089. Epub 2015 May 15.

5.

Biomechanical comparison of adjacent segmental motion after ventral cervical fixation with varying angles of lordosis.

Hwang SH, Kayanja M, Milks RA, Benzel EC.

Spine J. 2007 Mar-Apr;7(2):216-21.

PMID:
17321972
6.

Kinematic analysis of cervical spine canal diameter and its association with grade of degeneration.

Jiang X, Chen D, Lou Y, Li Z.

Eur Spine J. 2016 Jul;25(7):2166-72. doi: 10.1007/s00586-016-4624-z. Epub 2016 May 28.

PMID:
27236657
7.

The Evaluation and Observation of "Hidden" Hypertrophy of Cervical Ligamentum Flavum, Cervical Canal, and Related Factors Using Kinetic Magnetic Resonance Imaging.

Zeng C, Xiong J, Wang JC, Inoue H, Tan Y, Tian H, Aghdasi B.

Global Spine J. 2016 Mar;6(2):155-63. doi: 10.1055/s-0035-1557140. Epub 2015 Jul 9.

8.

Comparison between sheep and human cervical spines: an anatomic, radiographic, bone mineral density, and biomechanical study.

Kandziora F, Pflugmacher R, Scholz M, Schnake K, Lucke M, Schröder R, Mittlmeier T.

Spine (Phila Pa 1976). 2001 May 1;26(9):1028-37.

PMID:
11337621
9.

Can multi-positional magnetic resonance imaging be used to evaluate angular parameters in cervical spine? A comparison of multi-positional MRI to dynamic plain radiograph.

Paholpak P, Tamai K, Shoell K, Sessumpun K, Buser Z, Wang JC.

Eur Spine J. 2018 May;27(5):1021-1027. doi: 10.1007/s00586-017-5306-1. Epub 2017 Sep 25.

PMID:
28948406
10.

The Impact of Cervical Spinal Muscle Degeneration on Cervical Sagittal Balance and Spinal Degenerative Disorders.

Tamai K, Grisdela P Jr, Romanu J, Paholpak P, Nakamura H, Wang JC, Buser Z.

Clin Spine Surg. 2019 May;32(4):E206-E213. doi: 10.1097/BSD.0000000000000789.

PMID:
30762839
11.

Pediatric occipitocervical fusion: long-term radiographic changes in curvature, growth, and alignment.

Martinez-Del-Campo E, Turner JD, Soriano-Baron H, Newcomb AG, Kalb S, Theodore N.

J Neurosurg Pediatr. 2016 Nov;18(5):644-652. Epub 2016 Jul 29.

PMID:
27472669
12.

Subaxial Cervical Intradiscal Pressure and Segmental Kinematics Following Atlantoaxial Fixation in Different Angles.

Liu Q, Guo Q, Yang J, Zhang P, Xu T, Cheng X, Chen J, Guan H, Ni B.

World Neurosurg. 2016 Mar;87:521-8. doi: 10.1016/j.wneu.2015.09.025. Epub 2015 Sep 25.

PMID:
26409072
13.

Quantifying the effects of age, gender, degeneration, and adjacent level degeneration on cervical spine range of motion using multivariate analyses.

Simpson AK, Biswas D, Emerson JW, Lawrence BD, Grauer JN.

Spine (Phila Pa 1976). 2008 Jan 15;33(2):183-6. doi: 10.1097/BRS.0b013e31816044e8.

PMID:
18197104
14.

Variations in Occipitocervical and Cervicothoracic Alignment Parameters Based on Age: A Prospective Study of Asymptomatic Volunteers Using Full-Body Radiographs.

Iyer S, Lenke LG, Nemani VM, Fu M, Shifflett GD, Albert TJ, Sides BA, Metz LN, Cunningham ME, Kim HJ.

Spine (Phila Pa 1976). 2016 Dec 1;41(23):1837-1844.

PMID:
27116113
15.

Kinematics of the subaxial cervical spine in rotation in vivo three-dimensional analysis.

Ishii T, Mukai Y, Hosono N, Sakaura H, Fujii R, Nakajima Y, Tamura S, Sugamoto K, Yoshikawa H.

Spine (Phila Pa 1976). 2004 Dec 15;29(24):2826-31.

PMID:
15599286
16.

Small C7-T1 lordotic angle and muscle degeneration at C7 level were independent radiological characteristics of patients with cervical imbalance: a propensity score-matched analysis.

Tamai K, Romanu J, Grisdela P Jr, Paholpak P, Zheng P, Nakamura H, Buser Z, Wang JC.

Spine J. 2018 Sep;18(9):1505-1512. doi: 10.1016/j.spinee.2018.01.012. Epub 2018 Jan 31.

PMID:
29355790
17.

The impact of the difference in O-C2 angle in the development of dysphagia after occipitocervical fusion: a simulation study in normal volunteers combined with a case-control study.

Meng Y, Wu T, Liu Z, Wen D, Rong X, Chen H, Lou J, Liu H.

Spine J. 2018 Aug;18(8):1388-1397. doi: 10.1016/j.spinee.2018.01.005. Epub 2018 Feb 2.

PMID:
29410299
18.

The magnitude of angular and translational displacement of dens fractures is dependent on the sagittal alignment of the cervical spine rather than the force of injury.

Blizzard SR, Krishnamoorthy B, Shinseki M, Betsch M, Yoo J.

Spine J. 2017 Dec;17(12):1859-1865. doi: 10.1016/j.spinee.2017.06.021. Epub 2017 Jul 8.

PMID:
28694217
19.

Occipital-C2 transarticular fixation for occipitocervical instability associated with occipitalization of the atlas in patients with klippel-feil syndrome, using intraoperative 3-dimensional navigation system.

Tian W, Weng C, Li Q, Liu B, Sun YQ, Yuan Q, Xing YG, He D.

Spine (Phila Pa 1976). 2013 Apr 15;38(8):642-9. doi: 10.1097/BRS.0b013e31827a330a.

PMID:
23124258
20.

Restrictions of cervical flexion after laminoplasty increase in the mechanical stress at the occipitocervical junction in non-rheumatoid arthritis patients.

Dohzono S, Toyoda H, Takahashi S, Suzuki A, Terai H, Nakamura H.

J Clin Neurosci. 2017 Nov;45:187-192. doi: 10.1016/j.jocn.2017.06.001. Epub 2017 Jun 27.

PMID:
28666651

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