Anatomic basis of anterior and posterior instrumentation of the spine: morphometric study

Study designA morphometric study of the linear and angular parameters of the spinal vertebra was conducted by computerized tomographic scans and comparison with previous studies in literature.ObjectivesDetailed knowledge of the spinal vertebral morphometry is important for proper instrumentation. The morphologic measurements vary among races. Morphometric studies have been conducted in white populations. This study aims to suggest dimensions for anterior and posterior spinal implants and to improve the instrumentation techniques.Materials and methodsThe vertebral pedicles, bodies and intervertebral disc spaces of the subaxial cervical, thoracic and lumbar spine were studied in 48 healthy individuals by computerized tomographic scan methods. The following parameters were studied: pedicle length, pedicle width, transverse pedicle angle (TPA), sagittal pedicle angle, anterior corpus height, posterior corpus height, anterior disc height, middle disc height and posterior disc height.ResultsOur results were slightly different compared to previous studies. Individual differences were found in the same subgroups. The transverse pedicle diameter was largest at L5 (14.95 mm) and smallest at C3 (5.1 mm). The pedicle was longest at L5 (19.9 mm) and shortest at T10 (15.7).The TPA was largest at C3 (47.6°) and smallest at T6 (11.3°). The vertebral body was largest at L5 (34.9 mm) and smallest at C3 and C5 (15.6 mm). The vertebral body width was largest at L5 (46.6 mm) and smallest at C4 (22 mm). The intervertebral disc space height was largest at L2–3 (10 mm) and smallest at T1–2 (2.85 mm). There were no significant differences between the left and right sides.ConclusionsIn our morphometric study of the spinal vertebrae, we found differences compared to a number of previous morphometric studies performed mainly on a white population. Also, we documented the individual morphometric differences of the same parameters in the same subgroups. These results emphasize the importance of preoperative computed tomography and conventional radiography of each patient in planning a surgical procedure and selecting the appropriate size of the instruments, thus avoiding possible postoperative complication related to implants.

[1]  N. Ebraheim,et al.  Projection of the Lumbar Pedicle and its Morphometric Analysis , 1996, Spine.

[2]  A G Patwardhan,et al.  Analysis of the Morphometric Characteristics of the Thoracic and Lumbar Pedicles , 1987, Spine.

[3]  R. Gaines,et al.  Morphologic Characteristics of Human Cervical Pedicles , 1997, Spine.

[4]  J. Weinstein,et al.  Spinal Pedicle Fixation: Reliability and Validity of Roentgenogram-Based Assessment and Surgical Factors on Successful Screw Placement , 1988, Spine.

[5]  K. Kaneda,et al.  Transpedicular screw fixation for traumatic lesions of the middle and lower cervical spine: description of the techniques and preliminary report. , 1994, Journal of spinal disorders.

[6]  F. Magerl,et al.  Transpedicular screw fixation of articular mass fracture-separation: results of an anatomical study and operative technique. , 1994, Journal of spinal disorders.

[7]  G. Borne,et al.  Treatment of pedicular fractures of the axis. A clinical study and screw fixation technique. , 1984, Journal of neurosurgery.

[8]  R Roy-Camille,et al.  Internal fixation of the lumbar spine with pedicle screw plating. , 1986, Clinical orthopaedics and related research.

[9]  A. Haims,et al.  Morphometric Comparison of the Pedicle Rib Unit to Pedicles in the Thoracic Spine , 2004, Spine.

[10]  P. Cooper,et al.  Quantitative three-dimensional anatomy of the subaxial cervical spine: implication for anterior spinal surgery. , 1996, Neurosurgery.

[11]  M. Reinhold,et al.  Cervical pedicle screw placement: feasibility and accuracy of two new insertion techniques based on morphometric data , 2006, European Spine Journal.

[12]  M H Krag,et al.  Morphometry of the Thoracic and Lumbar Spine Related to Transpedicular Screw Placement for Surgical Spinal Fixation , 1988, Spine.

[13]  J W Frymoyer,et al.  An internal fixator for posterior application to short segments of the thoracic, lumbar, or lumbosacral spine. Design and testing. , 1986, Clinical orthopaedics and related research.

[14]  R Louis,et al.  Fusion of the lumbar and sacral spine by internal fixation with screw plates. , 1986, Clinical orthopaedics and related research.

[15]  R. Yeasting,et al.  Morphometric Evaluation of Lower Cervical Pedicle and Its Projection , 1997, Spine.

[16]  M M Panjabi,et al.  Cervical Human Vertebrae Quantitative Three‐Dimensional Anatomy of the Middle and Lower Regions , 1991, Spine.

[17]  T. Albert,et al.  Placement of pedicle screws in the human cadaveric cervical spine: comparative accuracy of three techniques. , 2000, Spine.

[18]  I. Tekdemir,et al.  Surgical Anatomic Evaluation of the Cervical Pedicle and Adjacent Neural Structures , 2000, Neurosurgery.

[19]  R. Yeasting,et al.  The Vertebral Body Depths of the Cervical Spine and Its Relation to Anterior Plate‐Screw Fixation , 1998, Spine.

[20]  R. Yeasting,et al.  Projection of the thoracic pedicle and its morphometric analysis. , 1997, Spine.

[21]  F. Mendel,et al.  Morphometry of the lumbar spine: anatomical perspectives related to transpedicular fixation. , 1990, The Journal of bone and joint surgery. American volume.

[22]  Nien-Hsien Liou,et al.  Analysis of anatomic morphometry of the pedicles and the safe zone for through-pedicle procedures in the thoracic and lumbar spine , 2007, European Spine Journal.

[23]  C. Tulleken Carotid balloon occlusion for large and giant aneurysms: evaluation of a new test occlusion protocol. , 2001, Neurosurgery.

[24]  M M Panjabi,et al.  Biomechanical Evaluation of Spinal Fixation Devices: Part III. Stability Provided by Six Spinal Fixation Devices and Interbody Bone Graft , 1989, Spine.

[25]  M M Panjabi,et al.  Thoracic Human Vertebrae Quantitative Three‐Dimensional Anatomy , 1991, Spine.

[26]  K. Kaneda,et al.  One-stage posterior decompression and reconstruction of the cervical spine by using pedicle screw fixation systems. , 1999, Journal of neurosurgery.

[27]  S. Gertzbein,et al.  Accuracy of Pedicular Screw Placement In Vivo , 1990, Spine.

[28]  M M Panjabi,et al.  Human Lumbar Vertebrae: Quantitative Three-Dimensional Anatomy , 1992, Spine.