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Computational Simulation of Multiple Cannulated Screw Fixation for Femoral Neck Fractures and the Anatomic Features for Clinical Applications
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Jin Hoon Jeong, Gu Hee Jung
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J Korean Fract Soc 2018;31(2):37-44. Published online April 30, 2018
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DOI: https://doi.org/10.12671/jkfs.2018.31.2.37
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 Abstract
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- PURPOSE
To identify the anatomic features for clinical applications through a computational simulation of the fixation of three cannulated screws for a femoral neck fracture.
MATERIALS AND METHODS
Thirty cadaveric femurs underwent computed tomography and the images were transferred to the Mimics® program, resulting in three-dimensional proximal femur models. A three-dimensional scan of the 7.0 mm cannulated screw was performed to enable computerized virtual fixation of multiple cannulated screws for femoral neck fractures. After positioning the screws definitively for cortical support, the intraosseous position of the cannulated screws was evaluated in the anteroposterior image and axial image direction.
RESULTS
Three cannulated screws located at the each ideal site showed an array of tilted triangles with anterior screw attachment and the shortest spacing between posterior and central screws. The central screw located at the lower side was placed in the mid-height of the lesser trochanter and slightly posterior, and directed toward the junction of femoral head and neck to achieve medial cortical support. All the posterior screws were limited in height by the trochanteric fossa and were located below the vastus ridge, but the anterior screws were located higher than the vastus ridge in 10 cases. To obtain the maximum spacing of the anterior and posterior screws on the axial plane, they should be positioned parallel to the cervical region nearest the cortical bone at a height not exceeding the vastus ridge.
CONCLUSION
The position of cannulated screws for cortical support were irregular triangular arrangements with the anterosuperior apex. The position of the ideal central screw in the anteroposterior view was at the mid-height of the lesser trochanter toward the junction of the femoral head and neck, and the anterior and posterior screws were parallel to the neck with a maximal spread just inferior to the vastus ridge.
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Citations
Citations to this article as recorded by  - Computational Simulation of Femoral Neck System and Additional Cannulated Screws Fixation for Unstable Femoral Neck Fractures and the Biomechanical Features for Clinical Applications
Ju-Yeong Kim
Journal of the Korean Fracture Society.2023; 36(1): 1. CrossRef
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The Determination of Optimal Entry Point for Proximal Femoral Nail Antirotation-II by Fluoroscopic Simulation: A Cadaveric Study
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Jin Hoon Jeong, Gu Hee Jung
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J Korean Fract Soc 2017;30(4):173-179. Published online October 31, 2017
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DOI: https://doi.org/10.12671/jkfs.2017.30.4.173
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Abstract
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- PURPOSE
This study seeks to determine the anatomically optimal entry point of proximal femoral nail antirotation-II (PFNA-II®) according to geographic features of Korean cadaveric femoral trochanters for successful reduction of osteoporotic proximal femoral fractures.
MATERIALS AND METHODS
Forty-three adult cadaveric femurs without previous fractures or surgeries were included. Anteroposterior (AP) and lateral images of all femurs and PFNA-II® were taken with an image intensifier. Using the image synthesis process via the image editing program (Adobe Photoshop CS6), the optimal entry point was verified and compared with the tip of the greater trochanter (GT) and the cervicotro-chanteric junction on AP images, as well as the width of the trochanter and the neck on lateral images.
RESULTS
The optimal entry point of PFNA-II® was an average distance of 9.1 mm (range, 7–15 mm) medially from the tip of GT on AP images. The center of the nail was located at an average of 30% (range, 21%–44%) area from the posterior margin of the middle neck, which is an average area of 38% (range, 26%–48%) from the posterior cortex of the trochanter on lateral images. Furthermore, the ideal entry point was at the extended line of the cervico-trochanteric junction.
CONCLUSION
The optimal entry point, which was found to be medial to the tip of the GT and posterior to the center of the middle femoral neck and the trochanter, was at on the extended line of the cervicotrochanteric junction.
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Citations
Citations to this article as recorded by - Clinical Research through Computational Anatomy and Virtual Fixation
Ju Yeong Kim, Dong-Geun Kang, Gu-Hee Jung
Journal of the Korean Orthopaedic Association.2023; 58(4): 299. CrossRef - Does the Entry Point of Proximal Femoral Nail Antirotation Affect the Malalignment of Intertrochanteric Fracture? A Cadaveric Study
Chittawee Jiamton, Nonpawit Nimmankiatkul, Pongsakorn Rungchamrassopa, Wichan Kanchanatawan, Pariyut Chiarapatanakom, Wirat Kongcharoensombat
Journal of Southeast Asian Orthopaedics.2022;[Epub] CrossRef
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