WHICH IMAGING METHOD IS MORE EFFECTIVE IN LATERAL MASS SCREW PLACEMENT: O-ARM COMPUTED TOMOGRAPHY OR X-RAY?

Object The C-7 lateral mass has been considered difficult to fit with instrumentation because of its unique anatomy. Of the methods that exist for placing lateral mass screws, none particularly accommodates this anatomical variation. The authors have related 12 distinct morphological measures of the C-7 lateral mass to the ability to place a lateral mass screw using the Magerl, Roy-Camille, and a modified Roy-Camille method. Methods Using CT scans, the authors performed virtual screw placement of lateral mass screws at the C-7 level in 25 male and 25 female patients. Complications recorded included foraminal and articular process violations, inability to achieve bony purchase, and inability to place a screw longer than 6 mm. Violations were monitored in the coronal, axial, and sagittal planes. The Roy-Camille technique was applied starting directly in the middle of the lateral mass, as defined by Pait's quadrants, with an axial angle of 15° lateral and a sagittal angle of 90°. The Magerl technique was performed by starting in the inferior portion of the top right square of Pait's quadrants and angling 25° laterally in the axial plane with a 45° cephalad angle in the sagittal plane. In a modified method, the starting point is similar to the Magerl technique in the top right square of Pait's quadrant and then angling 15° laterally in the axial plane. In the sagittal plane, a 90° angle is taken perpendicular to the dorsal portion of the lateral mass, as in the traditional Roy-Camille technique. Results Of all the morphological methods analyzed, only a combined measure of intrusion of the T-1 facet and the overall length of the C-7 lateral mass was statistically associated with screw placement, and only in the Roy-Camille technique. Use of the Magerl technique allowed screw placement in 28 patients; use of the Roy-Camille technique allowed placement in 24 patients; and use of the modified technique allowed placement in 46 patients. No screw placement by any method was possible in 4 patients. Conclusions There is only one distinct anatomical ratio that was shown to affect lateral mass screw placement at C-7. This ratio incorporates the overall length of the lateral mass and the amount of space occupied by the T-1 facet at C-7. Based on this virtual study, a modified Roy-Camille technique that utilizes a higher starting point may decrease the complication rate at C-7 by avoiding placement of the lateral mass screw into the T1 facet.

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CADAVERIC MORPHOMETRIC ANALYSIS FOR ATLANTAL LATERAL MASS SCREW PLACEMENT

Neurosurgery ◽

10.1227/01.neu.0000124753.74864.07 ◽

2004 ◽

Vol 54 (6) ◽

pp. 1436-1440 ◽

Cited By ~ 54

Author(s):

Michael Y. Wang ◽

Srinath Samudrala

Keyword(s):

Morphometric Analysis ◽

Screw Placement ◽

Lateral Mass ◽

Lateral Mass Screw

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Lateral mass screw placement in the atlas: description of a novel surgical technique, radiographic parameters, and review of the literature

Journal of Spine Surgery ◽

10.21037/jss-20-566 ◽

2021 ◽

Vol 0 (0) ◽

pp. 0-0

Author(s):

Bilal B. Butt ◽

Paul Gagnet ◽

Joshua Piche ◽

Rakesh Patel ◽

Paul Park ◽

...

Keyword(s):

Surgical Technique ◽

Screw Placement ◽

Lateral Mass ◽

Lateral Mass Screw ◽

Review Of The Literature ◽

Radiographic Parameters

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Lateral Radiologic Evaluation of Lateral Mass Screw Placement in the Cervical Spine

Spine ◽

10.1097/00007632-199802150-00010 ◽

1998 ◽

Vol 23 (4) ◽

pp. 458-462 ◽

Cited By ~ 11

Author(s):

Nabil A. Ebraheim ◽

Micheal R. Tremains ◽

Rongming Xu ◽

Richard A. Yeasting

Keyword(s):

Cervical Spine ◽

Screw Placement ◽

Lateral Mass ◽

Lateral Mass Screw ◽

Radiologic Evaluation

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Computed Tomography- and Radiography-Based Morphometric Analysis of the Lateral Mass of the Subaxial Cervical Spine in the Indian Population

Asian Spine Journal ◽

10.4184/asj.2018.12.1.18 ◽

2018 ◽

Vol 12 (1) ◽

pp. 18-28

Author(s):

Nirmal D Patil ◽

Sudhir K Srivastava ◽

Sunil Bhosale ◽

Shaligram Purohit

Keyword(s):

Computed Tomography ◽

Cervical Spine ◽

Indian Population ◽

Tertiary Care ◽

X Rays ◽

Lateral Mass ◽

Cross Sectional ◽

X Ray ◽

Subaxial Cervical Spine ◽

Screw Length

<sec><title>Study Design</title>This was a double-blinded cross-sectional study, which obtained no financial support for the research.</sec><sec><title>Purpose</title>To obtain a detailed morphometry of the lateral mass of the subaxial cervical spine.</sec><sec><title>Overview of Literature</title>The literature offers little data on the dimensions of the lateral mass of the subaxial cervical spine.</sec><sec><title>Methods</title>We assessed axial, sagittal, and coronal computed tomography (CT) cuts and anteroposterior and lateral X-rays of the lateral mass of the subaxial cervical spine of 104 patients (2,080 lateral masses) who presented to a tertiary care public hospital (King Edward Memorial Hospital, Mumbai) in a metropolitan city in India.</sec><sec><title>Results</title>For a majority of the parameters, males and females significantly differed at all levels (<italic>p</italic><0.05). Females consistently required higher (<italic>p</italic><0.05) minimum lateral angulation and lateral angulation. While the minimum lateral angulation followed the order of C5<C4<C6<C3, the lateral angulation followed the order of C3<C5<C4<C6. The lateral mass becomes longer and narrower from C3 to C7. In axial cuts, the dimensions increased from C3 to C6. The sagittal cut thickness and diagonal length increased and the sagittal cut height decreased from C3 to C7. The sagittal cut height was consistently lower in the Indian population at all levels, especially at the C7 level, as compared with the Western population, thereby questioning the acceptance of a 3.5-mm lateral mass screw. A good correlation exists between X-ray- and CT-based assessments of the lateral mass.</sec><sec><title>Conclusions</title>Larger lateral angulation is required for Indian patients, especially females. The screw length can be effectively calculated by analyzing the lateral X-ray. A CT scan should be reserved for specific indications, and a caution must be exercised while inserting C7 lateral mass screws.</sec>

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Lamina-guided lateral mass screw placement in the sub-axial cervical spine

European Spine Journal ◽

10.1007/s00586-009-1228-x ◽

2009 ◽

Vol 19 (4) ◽

pp. 660-664 ◽

Cited By ~ 16

Author(s):

Edward Bayley ◽

Zergham Zia ◽

Robert Kerslake ◽

Zdenek Klezl ◽

Bronek M. Boszczyk

Keyword(s):

Cervical Spine ◽

Screw Placement ◽

Lateral Mass ◽

Lateral Mass Screw

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Anatomy and dimensions of C1 vertebra relative to lateral mass screw placement

Journal of Anatomical Society of India ◽

10.1016/j.jasi.2016.08.108 ◽

2016 ◽

Vol 65 ◽

pp. S32

Author(s):

Anju Mary Albert ◽

I.J.P. Kumar ◽

V. Joseph

Keyword(s):

Screw Placement ◽

Lateral Mass ◽

Lateral Mass Screw

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Computed tomography of x-ray index of refraction using the diffraction enhanced imaging method

Physics in Medicine and Biology ◽

10.1088/0031-9155/45/4/309 ◽

2000 ◽

Vol 45 (4) ◽

pp. 933-946 ◽

Cited By ~ 186

Author(s):

F A Dilmanian ◽

Z Zhong ◽

B Ren ◽

X Y Wu ◽

L D Chapman ◽

...

Keyword(s):

Computed Tomography ◽

Index Of Refraction ◽

Imaging Method ◽

X Ray ◽

Diffraction Enhanced Imaging ◽

Enhanced Imaging

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Lateral Mass Screw Fixation of the Atlas: Importance of Anatomy of C1 for Lateral Mass Screw Placement

World Neurosurgery ◽

10.1016/j.wneu.2010.06.010 ◽

2010 ◽

Vol 74 (2-3) ◽

pp. 270-271 ◽

Cited By ~ 6

Author(s):

Volker K.H. Sonntag

Keyword(s):

Screw Fixation ◽

Screw Placement ◽

Lateral Mass ◽

Lateral Mass Screw

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A Bridging Method between 2D and 3D Cephalometry Using Computed Tomography Synthesized Cephalograms

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.284-287.1589 ◽

2013 ◽

Vol 284-287 ◽

pp. 1589-1595

Author(s):

Jing Jing Fang ◽

Jia Kuang Liu ◽

Chia Wei Chang ◽

Yu Cheng Lin

Keyword(s):

Computed Tomography ◽

Random Order ◽

Calibration Method ◽

Interactive System ◽

Average Error ◽

Imaging Method ◽

X Rays ◽

X Ray ◽

Imaging Model ◽

3D Cephalometry

Traditional cephalograms are X-ray films, which provide either frontal or lateral overlapped perspective medical imaging. Although computed tomography imaging provides more information in 3-dimensional anatomy, the landmarks for cephalometry are located in space which does not carry normal standards in 3-D cephalometry. The CT natural imaging method is different from X-ray in that they respectively use orthogonal and perspective projections. Thus, we cannot apply the statistical normal values gathered from traditional 2D cephometry to 3D cephalometry. This study makes use of calibrated synthesized cephalograms from computed tomography to construct a cephalometry bridge between 2-D and 3-D. In this thesis, we first review the imaging model of a specific X-ray machine (Asahi OrthoStage AUTO IIIN) by a camera calibration method. We then construct a reference system for a virtual head, and synthesize calibrated X-ray cephalograms using the volume rendering algorithm. System accuracy for the synthesis X-ray cephalograms is verified through an interactive corresponding landmark system between 2-D and 3-D. An experimental clinician was invited to manually place 17 landmarks on the X-rays and their corresponding, shuffled in random order. The systematic error, average error, and standard deviation of landmark positions are 0.15 mm, 0.97 mm, and 0.45 mm, respectively. The interactive system bridges the transformation from orthogonal 3-D to perspective 2-D cephalometry.

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