Abstract
Objective
In this study, we performed anatomic and computed tomography (CT) measurements of C2 lamina in Chinese people in order to provide the anatomic and radiographic data, and to verify the clinical applicability of trans-lamina screws to this population.
Methods
The anatomic and radiographic measurement was conducted on two separate groups, group A and group B. In group A, a total of 96 human adult (male 51, female 45) cadaver spines were included. The minimal height (H1), thickness (T), length (L1) of C2 lamina, height of the root of lamina (H2), distance from the entry point to the lateral rim of lamina (L2) and to the lateral rim of lateral mass (L3) were bilaterally measured using high precision calipers. The spino-laminar angles (angle A) were also included. In group B, a total of 112 volunteers (male 58, female 54) without upper cervical abnormality were enrolled. Angle A, H1, T, L1, H2, L2 and L3 were bilaterally measured using plain X-rays and reconstruction CT. All measurements were taken at the thinnest part of the lamina in the axial and coronal plane.
Results
All the measurements (except angle A) in males were significantly higher than those in females (P < 0.05). There was no significant difference in the values of bilateral laminae between group A and group B (P > 0.05). The thickness of 45% specimens was less than 6 mm. The length of lamina in all specimens was less than 2.5 cm, while only 5% of the specimens had a length of >3 cm from the entry point to the rim of lamina. The length from the entry point to the lateral rim of lateral mass was between 2.5 and 4.6 cm. In contrast, the length of only 5% specimens was longer than 4 cm.
Conclusions
The preoperative radiographic evaluation is very important to determine the suitable size of screws. The diameter of screws is mainly restricted by the thickness of C2 lamina. It is safe to use screws with a length of 2.5–3.0 cm for Chinese people. The radiographic measurement method we used is simple, accurate and reliable for preoperative measurement.
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References
Brooks AL, Jenkins EB (1978) Atlanto-axial arthrodesis by the wedge compression method. J Bone Joint Surg Am 60:279–284
Cassinelli EH, Lee M, Skalak A, Ahn NU, Wright NM (2006) Anatomic considerations for the placement of C2 laminar screws. Spine (Phila Pa 1976) 31(24):2767–2771
Dean CL, Lee MJ, Robbin M, Cassinelli EH (2009) Correlation between computed tomography measurements and direct anatomic measurements of the axis for consideration of C2 laminar screw placement. Spine J 9(3):258–262
Dickman CA, Sonntag VK, Papadopoulos SM, Hadley MN (1991) The interspinous method of posterior atlantoaxial arthrodesis. J Neurosurg 74:190–198
Dickman CA, Sonntag VK (1998) Posterior C1–C2 transarticular screw fixation for atlantoaxial arthrodesis. Neurosurgery 43:275–280 (discussion 280–281)
Farey ID, Nadkarni S, Smith N (1999) Modified Gallie technique versus transarticular screw fixation in C1–C2 fusion. Clin Orthop 359:126–135
Harms J, Melcher RP (2001) Posterior C1–C2 fusion with polyaxial screw and rod fixation. Spine (Phila Pa 1976) 26:2467–2471
Jeanneret B, Magerl F (1992) Primary posterior fusion C1/2 in odontoid fractures: indications, technique, and results of transarticular screw fixation. J Spinal Disord 5:464–475
Kabir SM, Casey AT (2009) Modification of Wright’s technique for C2 translaminar screw fixation: technical note. Acta Neurochir (Wien) 151(11):1543–1547
Kim YJ, Rhee WT, Lee SB, You SH, Lee SY (2008) Computerized tomographic measurements of morphometric parameters of the C2 for the feasibility of laminar screw fixation in Korean population. J Korean Neurosurg Soc 44(1):15–18
Lehman RA Jr, Sasso RC, Helgeson MD, Dmitriev AE, Gill NW, Rosner MR, Riew KD (2007) Accuracy of intraoperative plain radiographs to detect violations of intralaminar screws placed into the C2 vertebrae: a reliability study. Spine (Phila Pa 1976) 32(26):3036–3040
Nakanishi K, Tanaka M, Sugimoto Y, Misawa H, Takigawa T, Fujiwara K, Nishida K, Ozaki T (2008) Application of laminar screws to posterior fusion of cervical spine: measurement of the cervical vertebral arch diameter with a navigation system. Spine (Phila Pa 1976) 33(6):620–623
Sciubba DM, Noggle JC, Vellimana AK, Conway JE, Kretzer RM, Long DM, Garonzik IM (2008) Laminar screw fixation of the axis. J Neurosurg Spine 8(4):327–334
Nottmeier EW, Foy AB (2008) Placement of C2 laminar screws using threedimensional fluoroscopy-based image guidance. Eur Spine J 17(4):616–617
Wang MY (2006) C2 crossing laminar screws: cadaveric morphometric analysis. Neurosurgery 59(1 Suppl 1):ONS84–ONS88
Wright NM (2004) Posterior C2 fixation using bilateral, crossing C2 laminar screws: case series and technical note. J Spinal Disord Tech 17(2):158–162
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Xin-yu, L., Kai, Z., Laing-tai, G. et al. The anatomic and radiographic measurement of C2 lamina in Chinese population. Eur Spine J 20, 2261–2266 (2011). https://doi.org/10.1007/s00586-011-1876-5
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DOI: https://doi.org/10.1007/s00586-011-1876-5