Morphometric Comparison of Clavicle Outlines from 3D Bone Scans and 2D Chest Radiographs: A Shortlisting Tool to Assist Radiographic Identification of Human Skeletons

This paper describes a computerized clavicle identification system primarily designed to resolve the identities of unaccounted‐for U.S. soldiers who fought in the Korean War. Elliptical Fourier analysis is used to quantify the clavicle outline shape from skeletons and postero‐anterior antemortem chest radiographs to rank individuals in terms of metric distance. Similar to leading fingerprint identification systems, shortlists of the top matching candidates are extracted for subsequent human visual assessment. Two independent tests of the computerized system using 17 field‐recovered skeletons and 409 chest radiographs demonstrate that true‐positive matches are captured within the top 5% of the sample 75% of the time. These results are outstanding given the eroded state of some field‐recovered skeletons and the faintness of the 1950's photofluorographs. These methods enhance the capability to resolve several hundred cold cases for which little circumstantial information exists and current DNA and dental record technologies cannot be applied.

[1]  J J Fitzpatrick,et al.  Shadow positioning technique: a method for postmortem identification. , 1985, Journal of forensic sciences.

[2]  P. Nambiar,et al.  Anatomical variability of the frontal sinuses and their application in forensic identification , 1999, Clinical anatomy.

[3]  M. Lincoln,et al.  Dentists' qualifications affect the accuracy of radiographic identification. , 2003, Journal of forensic sciences.

[4]  H. Kade,et al.  Identification of Skeletonized Remains by X-Ray Comparison , 1967 .

[5]  J Hiss,et al.  Forensic radiology. , 1999, The British journal of radiology.

[6]  M. Viner The Use of Radiology in Mass Fatality Events , 2008 .

[7]  P. Gherardini,et al.  Identification from Chest X‐Rays: Reliability of Bone Density Patterns of the Humerus * , 2010, Journal of forensic sciences.

[8]  Angi M Christensen,et al.  Testing the reliability of frontal sinuses in positive identification. , 2005, Journal of forensic sciences.

[9]  M. Potsaid,et al.  Roentgenographic identification of human remains. , 1978, JAMA.

[10]  J. Byrd,et al.  Recovery, analysis, and identification of commingled human remains , 2008 .

[11]  H. Walsh-Haney,et al.  Surgical Sutures as a Means of Identifying Human Remains * , 2010, Journal of forensic sciences.

[12]  The role of radiology in fatality investigations. , 1988, AJR. American journal of roentgenology.

[13]  J. Wicks,et al.  The accuracy of radiologic identification of humans using skeletal landmarks: a contribution of forensic pathology. , 1977, Radiology.

[14]  A C SINGLETON The roentgenological identification of victims of the "Noronic" disaster. , 1951, The American journal of roentgenology and radium therapy.

[15]  D. Sweet,et al.  Digital dental radiographic identification in the pediatric, mixed and permanent dentitions. , 1999, Journal of forensic sciences.

[16]  C. Stephan,et al.  Skeletal Identification by Radiographic Comparison: Blind Tests of a Morphoscopic Method Using Antemortem Chest Radiographs *,†,‡ , 2011, Journal of forensic sciences.

[17]  Giovanna M. Vidoli,et al.  Anthropological and Radiographic Comparison of Vertebrae for Identification of Decomposed Human Remains , 2006, Journal of forensic sciences.

[18]  Marc Goldstein,et al.  Skeletal identification using the frontal sinus region: a retrospective study of 39 cases. , 2002, Journal of forensic sciences.

[19]  J. Hiss,et al.  Positive identification by means of trabecular bone pattern comparison. , 1994, Journal of forensic sciences.

[20]  J. Hiss,et al.  Quantitative assessment of trabecular bone pattern identification. , 1998, Journal of forensic sciences.

[21]  Mark Froneman,et al.  Detection of petrol (gasoline) in fire debris by Gas chromatography/mass spectrometry/mass spectrometry (GC/MS/MS) , 2002 .

[22]  Rachel M Russo,et al.  Analysis of Fiber Dyes By Liquid Chromatography Mass Spectrometry (LC-MS) with Electrospray Ionization: Discriminating Between Dyes with Indistinguishable UV-Visible Absorption Spectra , 2005 .

[23]  R Core Team,et al.  R: A language and environment for statistical computing. , 2014 .

[24]  J M Messmer,et al.  Radiographic identification of unknown human remains and interpreter experience level. , 1994, Journal of forensic sciences.

[25]  Scott I Fairgrieve,et al.  A New Digital Method for the Objective Comparison of Frontal Sinuses for Identification * , 2009, Journal of forensic sciences.

[26]  Angi M Christensen,et al.  Assessing the variation in individual frontal sinus outlines. , 2005, American journal of physical anthropology.

[27]  Julien Claude,et al.  Morphometrics with R , 2009 .

[28]  Carl N. Stephan,et al.  The Use of Clavicle Boundary Outlines to Identify Skeletal Remains of US Personnel Recovered From Past Conflicts: Results of Initial Tests , 2011 .

[29]  T. Parsons,et al.  Diagnosing post-mortem treatments which inhibit DNA amplification from US MIAs buried at the Punchbowl. , 2008, Forensic science international.

[30]  Anne Kuefer Recovery Analysis And Identification Of Commingled Human Remains , 2016 .

[31]  J. Rich,et al.  Using pre- and post-surgical foot and ankle radiographs for identification. , 2002, Journal of forensic sciences.

[32]  C. Kuehn,et al.  Validation of chest X-ray comparisons for unknown decedent identification. , 2002, Journal of forensic sciences.

[33]  Singleton Ac The roentgenological identification of victims of the "Noronic" disaster. , 1951 .

[34]  L. Kullman,et al.  Value of the frontal sinus in identification of unknown persons. , 1990, The Journal of forensic odonto-stomatology.

[35]  David R. Senn,et al.  Computer‐aided Dental Identification: An Objective Method for Assessment of Radiographic Image Similarity * , 2009, Journal of forensic sciences.

[36]  Charles R. Giardina,et al.  Elliptic Fourier features of a closed contour , 1982, Comput. Graph. Image Process..

[37]  R. A. Hicklin,et al.  Accuracy and reliability of forensic latent fingerprint decisions , 2011, Proceedings of the National Academy of Sciences.

[38]  Stephan A Bolliger,et al.  Post-mortem radiological CT identification based on classical ante-mortem X-ray examinations. , 2007, Forensic science international.

[39]  S. Sholl,et al.  Evaluation of dental radiographic identification: an experimental study. , 2001, Forensic science international.

[40]  Pete E. Lestrel,et al.  Fourier Descriptors and their Applications in Biology , 2008 .

[41]  Todd W Fenton,et al.  Radiographic human identification using bones of the hand: a validation study. , 2005, Journal of forensic sciences.