University of Hertfordshire

The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages

Research output: Contribution to journalArticlepeer-review

Standard

The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages. / Saveh, Amir Hossein; Zali, Alireza; Ashrafi, Farzad; Shahzadi, Sohrab; Seddighi, Afsoun; Momenzadeh, Sirous; Behnam, Behdad; Dehpour, Omid; Chizari, Mahmoud; Gamada, Kazuyoshi.

In: International Clinical Neuroscience Journal, Vol. 2, No. 1, 2015, p. 23-25.

Research output: Contribution to journalArticlepeer-review

Harvard

Saveh, AH, Zali, A, Ashrafi, F, Shahzadi, S, Seddighi, A, Momenzadeh, S, Behnam, B, Dehpour, O, Chizari, M & Gamada, K 2015, 'The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages', International Clinical Neuroscience Journal, vol. 2, no. 1, pp. 23-25. <http://journals.sbmu.ac.ir/Neuroscience/article/view/8172>

APA

Saveh, A. H., Zali, A., Ashrafi, F., Shahzadi, S., Seddighi, A., Momenzadeh, S., Behnam, B., Dehpour, O., Chizari, M., & Gamada, K. (2015). The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages. International Clinical Neuroscience Journal, 2(1), 23-25. http://journals.sbmu.ac.ir/Neuroscience/article/view/8172

Vancouver

Saveh AH, Zali A, Ashrafi F, Shahzadi S, Seddighi A, Momenzadeh S et al. The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages. International Clinical Neuroscience Journal. 2015;2(1):23-25.

Author

Saveh, Amir Hossein ; Zali, Alireza ; Ashrafi, Farzad ; Shahzadi, Sohrab ; Seddighi, Afsoun ; Momenzadeh, Sirous ; Behnam, Behdad ; Dehpour, Omid ; Chizari, Mahmoud ; Gamada, Kazuyoshi. / The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages. In: International Clinical Neuroscience Journal. 2015 ; Vol. 2, No. 1. pp. 23-25.

Bibtex

@article{0095e09fca67493d887eef683ac38935,
title = "The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages",
abstract = "To perform an accurate approach to the spine specially for fracture stabilization a 3D model of spine surgical region may improve this mechanism and it can help the surgeon to have a deeper glance to this scenario. The pre-op planning facility is another advantage of the patient spine specific model to take a chance of making guides to direct pedicle screws safely and increase the pathomechanics of volumes of interest stability factor parallel with its mobility restoration.There are some algorithms for making 3D-reconstruction from CT or MR data-set but the main goal of in-vivo component 3D making is right component extraction from its peripheral segments to achieve the best judgment especially about the surgical approach. Here is a cervical vertebral bodies segmentation and 3D-reconstruction of two cervical adjacent levels combined with the registration process that is shown the intervertebral degree regarding to range of motion percent.",
author = "Saveh, {Amir Hossein} and Alireza Zali and Farzad Ashrafi and Sohrab Shahzadi and Afsoun Seddighi and Sirous Momenzadeh and Behdad Behnam and Omid Dehpour and Mahmoud Chizari and Kazuyoshi Gamada",
year = "2015",
language = "English",
volume = "2",
pages = "23--25",
journal = "International Clinical Neuroscience Journal",
number = "1",

}

RIS

TY - JOUR

T1 - The Spine Vertebral Bodies 3D Modeling and its Biomechanical Advantages

AU - Saveh, Amir Hossein

AU - Zali, Alireza

AU - Ashrafi, Farzad

AU - Shahzadi, Sohrab

AU - Seddighi, Afsoun

AU - Momenzadeh, Sirous

AU - Behnam, Behdad

AU - Dehpour, Omid

AU - Chizari, Mahmoud

AU - Gamada, Kazuyoshi

PY - 2015

Y1 - 2015

N2 - To perform an accurate approach to the spine specially for fracture stabilization a 3D model of spine surgical region may improve this mechanism and it can help the surgeon to have a deeper glance to this scenario. The pre-op planning facility is another advantage of the patient spine specific model to take a chance of making guides to direct pedicle screws safely and increase the pathomechanics of volumes of interest stability factor parallel with its mobility restoration.There are some algorithms for making 3D-reconstruction from CT or MR data-set but the main goal of in-vivo component 3D making is right component extraction from its peripheral segments to achieve the best judgment especially about the surgical approach. Here is a cervical vertebral bodies segmentation and 3D-reconstruction of two cervical adjacent levels combined with the registration process that is shown the intervertebral degree regarding to range of motion percent.

AB - To perform an accurate approach to the spine specially for fracture stabilization a 3D model of spine surgical region may improve this mechanism and it can help the surgeon to have a deeper glance to this scenario. The pre-op planning facility is another advantage of the patient spine specific model to take a chance of making guides to direct pedicle screws safely and increase the pathomechanics of volumes of interest stability factor parallel with its mobility restoration.There are some algorithms for making 3D-reconstruction from CT or MR data-set but the main goal of in-vivo component 3D making is right component extraction from its peripheral segments to achieve the best judgment especially about the surgical approach. Here is a cervical vertebral bodies segmentation and 3D-reconstruction of two cervical adjacent levels combined with the registration process that is shown the intervertebral degree regarding to range of motion percent.

M3 - Article

VL - 2

SP - 23

EP - 25

JO - International Clinical Neuroscience Journal

JF - International Clinical Neuroscience Journal

IS - 1

ER -