Three-dimensional surface scanners compared with standard anthropometric measurements for head shape.

Three-dimensional (3D) surface imaging devices designed to capture and quantify craniofacial surface morphology are becoming more common in clinical environments. Such scanners overcome the limitations of two-dimensional photographs while avoiding the ionizing radiation of computed tomography. The purpose of this study was to compare standard anthropometric cranial measurements with measurements taken from images acquired with 3D surface scanners. Two 3D scanners of different cost were used to acquire head shape data from thirteen adult volunteers: M4D scan and Structure Sensor. Head circumference and cephalic index were measured directly on the patients as well as on 3D scans acquired with the two scanners. To compare head volume measurements with a gold standard, magnetic resonance imaging scans were used. Repeatability and accuracy of both devices were evaluated. Intra-rater repeatability for both scanners was excellent (intraclass correlation coefficients > 0.99, p < 0.001). Direct and digital measures of head circumference, cephalic index and head volume were strongly correlated (0.85 < r < 0.91, p < 0.001). Compared to direct measurements, accuracy was highest for M4D scan. Both 3D scanners provide reproducible data of head circumference, cephalic index and head volume and show a strong correlation with traditional measurements. However, care must be taken when using absolute values.

[1]  L. Farkas,et al.  Growth and Development of Regional Units in the Head and Face Based on Anthropometric Measurements , 1992 .

[2]  J. Ascherman,et al.  Intracranial Volumes in a Large Series of Healthy Children , 2009, Plastic and reconstructive surgery.

[3]  Janalt Damstra,et al.  Evaluation of anthropometric accuracy and reliability using different three-dimensional scanning systems. , 2011, Forensic science international.

[4]  Y. N. Jayaratne,et al.  Application of Digital Anthropometry for Craniofacial Assessment , 2014, Craniomaxillofacial trauma & reconstruction.

[5]  Paul G M Knoops,et al.  Comparison of three-dimensional scanner systems for craniomaxillofacial imaging. , 2017, Journal of plastic, reconstructive & aesthetic surgery : JPRAS.

[6]  L. Farkas,et al.  Accuracy of Anthropometric Measurements: Past, Present, and Future , 1996 .

[7]  Silvia Schievano,et al.  Quantifying the effect of corrective surgery for trigonocephaly: A non-invasive, non-ionizing method using three-dimensional handheld scanning and statistical shape modelling. , 2017, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[8]  A. Beckett,et al.  AKUFO AND IBARAPA. , 1965, Lancet.

[9]  L. Farkas,et al.  Growth and development of regional units in the head and face based on anthropometric measurements. , 1992, The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association.

[10]  Anthony McGarry,et al.  Head shape measurement standards and cranial orthoses in the treatment of infants with deformational plagiocephaly , 2008, Developmental medicine and child neurology.

[11]  Susanne K. Williams,et al.  Measuring Cranial Vault Volume With Three-Dimensional Photography: A Method of Measurement Comparable to the Gold Standard , 2010, The Journal of craniofacial surgery.

[12]  J. Hoffmann,et al.  Metopic synostosis: Measuring intracranial volume change following fronto-orbital advancement using three-dimensional photogrammetry. , 2015, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[13]  Wolfram Burkhardt,et al.  Three-Dimensional Digital Capture of Head Size in Neonates – A Method Evaluation , 2013, PloS one.

[14]  A. Stellzig-Eisenhauer,et al.  Three-dimensional analysis of cranial growth from 6 to 12 months of age. , 2014, European journal of orthodontics.

[15]  J M Bland,et al.  Statistical methods for assessing agreement between two methods of clinical measurement , 1986 .

[16]  Silvia Schievano,et al.  Three-Dimensional Handheld Scanning to Quantify Head-Shape Changes in Spring-Assisted Surgery for Sagittal Craniosynostosis , 2016, The Journal of craniofacial surgery.

[17]  H. Schaaf,et al.  Accuracy of Photographic Assessment Compared with Standard Anthropometric Measurements in Nonsynostotic Cranial Deformities , 2010, The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association.

[18]  Reyes Enciso,et al.  Precision, repeatability and validation of indirect 3D anthropometric measurements with light-based imaging techniques , 2004, 2004 2nd IEEE International Symposium on Biomedical Imaging: Nano to Macro (IEEE Cat No. 04EX821).

[19]  H. Schaaf,et al.  Value and reliability of anthropometric measurements of cranial deformity in early childhood. , 2011, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[20]  J. Posnick,et al.  Craniofacial skeletal measurements based on computed tomography. , 1993, The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association.

[21]  Jan L. Bruse,et al.  D handheld scanning to quantify head shape changes in spring assisted surgery for sagittal craniosynostosis , 2016 .

[22]  A. Woo,et al.  Comparison of Direct and Digital Measures of Cranial Vault Asymmetry for Assessment of Plagiocephaly , 2015, The Journal of craniofacial surgery.

[23]  J. Persing,et al.  Intracranial Volume and Cephalic Index Outcomes for Total Calvarial Reconstruction among Nonsyndromic Sagittal Synostosis Patients , 2008, Plastic and reconstructive surgery.

[24]  Gary F. Rogers,et al.  Validity and Reliability of Craniofacial Anthropometric Measurement of 3D Digital Photogrammetric Images , 2008, The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association.

[25]  A. Hockley,et al.  Intracranial volume change in childhood. , 1999, Journal of neurosurgery.

[26]  Budi Kusnoto,et al.  Craniofacial Applications of Three-Dimensional Laser Surface Scanning , 2003, The Journal of craniofacial surgery.

[27]  W. Kropatsch,et al.  Comparison of three-dimensional surface-imaging systems. , 2014, Journal of plastic, reconstructive & aesthetic surgery : JPRAS.

[28]  Anne Marie Kuijpers-Jagtman,et al.  Digital three-dimensional image fusion processes for planning and evaluating orthodontics and orthognathic surgery. A systematic review. , 2011, International journal of oral and maxillofacial surgery.

[29]  H. Schaaf,et al.  Objectification of cranial vault correction for craniosynostosis by three-dimensional photography. , 2012, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[30]  Sybill Naidoo,et al.  Anthropometric Precision and Accuracy of Digital Three-Dimensional Photogrammetry: Comparing the Genex and 3dMD Imaging Systems with One Another and with Direct Anthropometry , 2006, The Journal of craniofacial surgery.