An Accuracy Assessment of Forensic Computerized Facial Reconstruction Employing Cone‐Beam Computed Tomography from Live Subjects

Abstract:  The utilization of 3D computerized systems has allowed more effective procedures for forensic facial reconstruction. Three 3D computerized facial reconstructions were produced using skull models from live adult Korean subjects to assess facial morphology prediction accuracy. The 3D skeletal and facial data were recorded from the subjects in an upright position using a cone‐beam CT scanner. Shell‐to‐shell deviation maps were created using 3D surface comparison software, and the deviation errors between the reconstructed and target faces were measured. Results showed that 54%, 65%, and 77% of the three facial reconstruction surfaces had <2.5 mm of error when compared to the relevant target face. The average error for each reconstruction was −0.46 mm (SD = 2.81) for A, −0.31 mm (SD = 2.40) for B, and −0.49 mm (SD = 2.16) for C. The facial features of the reconstructions demonstrated good levels of accuracy compared to the target faces.

[1]  C H Kau,et al.  Three-dimensional cone beam computerized tomography in orthodontics. , 2005, Journal of orthodontics.

[2]  Paul Suetens,et al.  Computerized craniofacial reconstruction using CT-derived implicit surface representations. , 2006, Forensic science international.

[3]  Ricardo L. Carrau,et al.  Principles of Facial Reconstruction , 1996 .

[4]  Hongbin Zha,et al.  The Craniofacial Reconstruction from the Local Structural Diversity of Skulls , 2008, Comput. Graph. Forum.

[5]  D. Vandermeulen,et al.  Large-scale in-vivo Caucasian facial soft tissue thickness database for craniofacial reconstruction. , 2006, Forensic science international.

[6]  B. P. Gatliff,et al.  Reconstruction of facial features from the skull: an evaluation of its usefulness in forensic anthropology. , 1970, American journal of physical anthropology.

[7]  R Evenhouse,et al.  Computer-aided forensic facial reconstruction , 1991, Other Conferences.

[8]  R. Byard,et al.  Potential problems arising during international disaster victim identification (DVI) exercises , 2010, Forensic science, medicine, and pathology.

[9]  Mehmet Yaşar İşcan,et al.  Forensic analysis of the skull : craniofacial analysis, reconstruction, and identification , 1993 .

[10]  W. M. Krogman The human skeleton in forensic medicine. I. , 1963, Postgraduate medicine.

[11]  Miet Loubele,et al.  Semi-automated ultrasound facial soft tissue depth registration: method and validation. , 2005, Journal of forensic sciences.

[12]  David A. Sherris,et al.  Principles of Facial Reconstruction , 1995, Aktuelle Dermatologie.

[13]  S R Arridge,et al.  Three-dimensional visualization of the face and skull using computerized tomography and laser scanning techniques. , 1987, European Journal of Orthodontics.

[14]  Caroline Wilkinson,et al.  The reconstruction of a face showing a healed wound , 2003 .

[15]  Filip Schutyser,et al.  Three-dimensional cephalometry: spiral multi-slice vs cone-beam computed tomography. , 2006, American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics.

[16]  L A Nelson,et al.  The application of volume deformation to three-dimensional facial reconstruction: a comparison with previous techniques. , 1998, Forensic science international.

[17]  Pascal Staccini,et al.  Assessment of the accuracy of three-dimensional manual craniofacial reconstruction: a series of 25 controlled cases , 2007, International Journal of Legal Medicine.

[18]  D. Hatcher,et al.  Radiation absorbed in maxillofacial imaging with a new dental computed tomography device. , 2003, Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics.

[19]  D H Ubelaker,et al.  Computer-assisted facial reproduction. , 1992, Journal of forensic sciences.

[20]  Name,et al.  Personal Identification , 1893, British medical journal.

[21]  Hans-Peter Seidel,et al.  Reanimating the dead: reconstruction of expressive faces from skull data , 2003, ACM Trans. Graph..

[22]  J. Rhine,et al.  Thickness of facial tissues in American blacks. , 1980, Journal of forensic sciences.

[23]  Jae Bum Lee,et al.  Accuracy of facial soft tissue thickness measurements in personal computer-based multiplanar reconstructed computed tomographic images. , 2005, Forensic science international.

[24]  K. Taylor Forensic Art and Illustration , 2000 .

[25]  Robert M. George,et al.  The Lateral Craniographic Method of Facial Reconstruction , 1987 .

[26]  Sanjeev,et al.  Facial soft tissue thickness in northwest Indian adults. , 2008, Forensic science international.

[27]  Paul Suetens,et al.  Craniofacial reconstruction using a combined statistical model of face shape and soft tissue depths: methodology and validation. , 2006, Forensic science international.

[28]  Henrique S. Malvar,et al.  Making Faces , 2019, Topoi.

[29]  Caroline Wilkinson,et al.  Forensic Facial Reconstruction , 2004 .

[30]  C. Wilkinson Facial Anthropology and Reconstruction , 2007 .

[31]  Shelley L Smith,et al.  A new technique for three-dimensional ultrasound scanning of facial tissues. , 2004, Journal of forensic sciences.

[32]  M. Yoshino,et al.  Facial soft tissue thickness in skeletal type I Japanese children. , 2007, Forensic science international.

[33]  M. Yoshino,et al.  Facial soft tissue thickness in Japanese children. , 2010, Forensic science international.

[34]  Caroline M Wilkinson,et al.  In vivo facial tissue depth measurements for white British children. , 2002, Journal of forensic sciences.

[35]  Caroline Wilkinson,et al.  Facial reconstruction – anatomical art or artistic anatomy? , 2010, Journal of anatomy.

[36]  Michel Desvignes,et al.  3D Semi-Landmarks Based Statistical Face Reconstruction , 2006, J. Comput. Inf. Technol..

[37]  S. Richmond,et al.  A blind accuracy assessment of computer-modeled forensic facial reconstruction using computed tomography data from live subjects , 2006, Forensic science, medicine, and pathology.

[38]  R E Barsley,et al.  In vivo facial tissue depth measurements for children and adults. , 2000, Journal of forensic sciences.

[39]  Janalt Damstra,et al.  Accuracy and reliability of facial soft tissue depth measurements using cone beam computer tomography. , 2010, Forensic science international.

[40]  S. Benazzi,et al.  Geometric morphometric methods for three-dimensional virtual reconstruction of a fragmented cranium: the case of Angelo Poliziano , 2009, International Journal of Legal Medicine.

[41]  W D Turner,et al.  A novel method of automated skull registration for forensic facial approximation. , 2005, Forensic science international.

[42]  V M Phillips,et al.  Facial reconstruction: utilization of computerized tomography to measure facial tissue thickness in a mixed racial population. , 1996, Forensic science international.

[43]  Caroline M Wilkinson,et al.  Measurement of eyeball protrusion and its application in facial reconstruction. , 2003, Journal of forensic sciences.

[44]  Natalie Haddad de Almeida,et al.  Facial soft tissue thickness of Brazilian adults. , 2009, Forensic science international.

[45]  S. Hechler,et al.  Cone-beam CT: applications in orthodontics. , 2008, Dental clinics of North America.

[46]  Ursula Buck,et al.  Haptics in forensics: the possibilities and advantages in using the haptic device for reconstruction approaches in forensic science. , 2008, Forensic science international.

[47]  Sue Black,et al.  Forensic human identification:an introduction , 2006 .

[48]  Maxime Berar,et al.  Construction and analysis of a head CT-scan database for craniofacial reconstruction. , 2009, Forensic science international.

[49]  P Vanezis,et al.  Application of 3-D computer graphics for facial reconstruction and comparison with sculpting techniques. , 1989, Forensic science international.

[50]  Carl N Stephan,et al.  Facial Soft Tissue Depths in Craniofacial Identification (Part I): An Analytical Review of the Published Adult Data * , 2008, Journal of forensic sciences.

[51]  C N Stephan,et al.  Anthropological facial 'reconstruction--recognizing the fallacies, 'unembracing' the errors, and realizing method limits. , 2003, Science & justice : journal of the Forensic Science Society.

[52]  Francesca De Crescenzio,et al.  The face of the Poet Dante Alighieri reconstructed by virtual modelling and forensic anthropology techniques , 2009 .

[53]  Caroline Wilkinson,et al.  Skull re-assembly and the implications for forensic facial reconstruction , 2001 .

[54]  Madhur Gupta,et al.  Preliminary Study on Facial Soft Tissue Thickness by Magnetic Resonance Imaging in Northwest Indians , 2002 .

[55]  P Vanezi,et al.  Facial reconstruction using 3-D computer graphics. , 2000, Forensic science international.

[56]  G Quatrehomme,et al.  A fully three-dimensional method for facial reconstruction based on deformable models. , 1997, Journal of forensic sciences.

[57]  G. Lennerstrand,et al.  MRI measurements of normal extraocular muscles and other orbital structures , 2000, Graefe's Archive for Clinical and Experimental Ophthalmology.

[58]  B. Melsen,et al.  The use of cone-beam computed tomography in an orthodontic department in between research and daily clinic. , 2008, World Journal of Orthodontics.

[59]  Christopher Rynn,et al.  Appraisal of traditional and recently proposed relationships between the hard and soft dimensions of the nose in profile. , 2006, American journal of physical anthropology.

[60]  C N Stephan,et al.  Recognition by forensic facial approximation: case specific examples and empirical tests. , 2006, Forensic science international.

[61]  Snow Cc,et al.  From skull to visage. , 1979 .

[62]  Christopher Rynn,et al.  Prediction of nasal morphology from the skull , 2010, Forensic science, medicine, and pathology.

[63]  B. P. Gatliff,et al.  From skull to visage. , 1979, The Journal of biocommunication.

[64]  Charles A. Mosse,et al.  A laser scanning system for the measurement of facial surface morphology , 1989 .

[65]  B. P. Gatliff,et al.  Facial sculpture on the skull for identification , 1984, The American journal of forensic medicine and pathology.

[66]  D T Reay,et al.  Use of facial approximation techniques in identification of Green River serial murder victims. , 1991, The American journal of forensic medicine and pathology.

[67]  Kostas Tsiklakis,et al.  Dose reduction in maxillofacial imaging using low dose Cone Beam CT. , 2005, European journal of radiology.

[68]  Manish Motwani,et al.  The relationship between the soft tissues and the skeletal detail of the mouth. , 2003, Journal of forensic sciences.

[69]  C N Stephan,et al.  Building faces from dry skulls: are they recognized above chance rates? , 2001, Journal of forensic sciences.