Zygomatic bone shape in intentional cranial deformations: a model for the study of the interactions between skull growth and facial morphology

Intentional cranial deformations (ICD) were obtained by exerting external mechanical constraints on the skull vault during the first years of life to permanently modify head shape. The repercussions of ICD on the face are not well described in the midfacial region. Here we assessed the shape of the...

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Published in:Journal of anatomy 2017-04, Vol.230 (4), p.524-531
Main Authors: Ketoff, S., Girinon, F., Schlager, S., Friess, M., Schouman, T., Rouch, P., Khonsari, R. H.
Format: Article
Language:English
Subjects:
artificial skull deformation
Biological anthropology
Biomechanics
Bone Development - physiology
cross‐validation approach
Deformation
Engineering Sciences
Face - anatomy & histology
Human health and pathology
Humanities and Social Sciences
Humans
Life Sciences
Maxillofacial Development - physiology
Mechanics
mesh registration
Models, Anatomic
Original
Skull - abnormalities
Skull - anatomy & histology
Skull - growth & development
statistical shape model
Tissues and Organs
zygoma
Zygoma - abnormalities
Zygoma - anatomy & histology
Zygoma - growth & development
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container_title Journal of anatomy
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creator Ketoff, S.
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Khonsari, R. H.
description Intentional cranial deformations (ICD) were obtained by exerting external mechanical constraints on the skull vault during the first years of life to permanently modify head shape. The repercussions of ICD on the face are not well described in the midfacial region. Here we assessed the shape of the zygomatic bone in different types of ICDs. We considered 14 non‐deformed skulls, 19 skulls with antero‐posterior deformation, nine skulls with circumferential deformation and seven skulls with Toulouse deformation. The shape of the zygomatic bone was assessed using a statistical shape model after mesh registration. Euclidian distances between mean models and Mahalanobis distances after canonical variate analysis were computed. Classification accuracy was computed using a cross‐validation approach. Different ICDs cause specific zygomatic shape modifications corresponding to different degrees of retrusion but the shape of the zygomatic bone alone is not a sufficient parameter for classifying populations into ICD groups defined by deformation types. We illustrate the fact that external mechanical constraints on the skull vault influence midfacial growth. ICDs are a model for the study of the influence of epigenetic factors on craniofacial growth and can help to understand the facial effects of congenital skull malformations such as single or multi‐suture synostoses, or of external orthopedic devices such as helmets used to correct deformational plagiocephaly.
doi_str_mv 10.1111/joa.12581
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subjects artificial skull deformation
Biological anthropology
Biomechanics
Bone Development - physiology
cross‐validation approach
Deformation
Engineering Sciences
Face - anatomy & histology
Human health and pathology
Humanities and Social Sciences
Humans
Life Sciences
Maxillofacial Development - physiology
Mechanics
mesh registration
Models, Anatomic
Original
Skull - abnormalities
Skull - anatomy & histology
Skull - growth & development
statistical shape model
Tissues and Organs
zygoma
Zygoma - abnormalities
Zygoma - anatomy & histology
Zygoma - growth & development
title Zygomatic bone shape in intentional cranial deformations: a model for the study of the interactions between skull growth and facial morphology
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