Efficacy of a novel bone preprocessing method for better DNA yield.

[1]  P. Puri,et al.  Developmental dental anomalies and their potential role in establishing identity in post-mortem cases: a review , 2019, The Medico-legal journal.

[2]  Jessica J. Miller,et al.  DNA recovery and analysis from skeletal material in modern forensic contexts , 2018, Forensic sciences research.

[3]  S. Hughes-Stamm,et al.  In-field collection and preservation of decomposing human tissues to facilitate rapid purification and STR typing. , 2018, Forensic science international. Genetics.

[4]  H. R. Dash,et al.  Microbial Degradation of Forensic Samples of Biological Origin: Potential Threat to Human DNA Typing , 2018, Molecular Biotechnology.

[5]  Walther Parson,et al.  Age Estimation with DNA: From Forensic DNA Fingerprinting to Forensic (Epi)Genomics: A Mini-Review , 2018, Gerontology.

[6]  M. São Bento,et al.  THE effect of different levels of degradation and DNA concentrations on the quality of genetic profiles , 2017 .

[7]  D. Gangitano,et al.  Preservation and rapid purification of DNA from decomposing human tissue samples. , 2016, Forensic science international. Genetics.

[8]  Y. Tsuda,et al.  Comparison of hard tissues that are useful for DNA analysis in forensic autopsy. , 2015, Legal medicine.

[9]  D. Gibelli,et al.  64. Forensic Anthropology , 2014 .

[10]  Sarah L Dallas,et al.  The osteocyte: an endocrine cell ... and more. , 2013, Endocrine reviews.

[11]  Kaustubh Sansare,et al.  Uniqueness of radiographic patterns of the frontal sinus for personal identification , 2012, Imaging science in dentistry.

[12]  Anand Marya,et al.  Role of forensic odontologist in post mortem person identification , 2012, Dental research journal.

[13]  Sylvain Amory,et al.  Automatable full demineralization DNA extraction procedure from degraded skeletal remains. , 2012, Forensic science international. Genetics.

[14]  J. Jakubowska,et al.  Comparison of three methods of DNA extraction from human bones with different degrees of degradation , 2011, International Journal of Legal Medicine.

[15]  M. David,et al.  Use of frontal sinus and nasal septum patterns as an aid in personal identification: A digital radiographic pilot study , 2010, Journal of forensic dental sciences.

[16]  T. Rogers,et al.  Personal Identification Using the Frontal Sinus * , 2010, Journal of forensic sciences.

[17]  Edward M. Robinson,et al.  Integrated DNA and Fingerprint Analyses in the Identification of 60‐Year‐Old Mummified Human Remains Discovered in an Alaskan Glacier , 2010, Journal of forensic sciences.

[18]  Ali Abbas,et al.  Forensic implications of genetic analyses from degraded DNA--a review. , 2010, Forensic science international. Genetics.

[19]  N. von Wurmb-Schwark,et al.  The impact of DNA contamination of bone samples in forensic case analysis and anthropological research. , 2008, Legal medicine.

[20]  R. Zehner "Foreign" DNA in tissue adherent to compact bone from tsunami victims. , 2007, Forensic science international. Genetics.

[21]  T. Parsons,et al.  High efficiency DNA extraction from bone by total demineralization. , 2007, Forensic science international. Genetics.

[22]  C. Lalueza-Fox,et al.  Tracking down human contamination in ancient human teeth. , 2006, Molecular biology and evolution.

[23]  Mitchell M Holland,et al.  Development of a quality, high throughput DNA analysis procedure for skeletal samples to assist with the identification of victims from the World Trade Center attacks. , 2003, Croatian medical journal.

[24]  I. Pretty,et al.  Associated postmortem dental findings as an aid to personal identification. , 2002, Science & justice : journal of the Forensic Science Society.

[25]  R. Dirnhofer,et al.  Typing of deoxyribonucleic acid (DNA) extracted from compact bone from human remains. , 1991, Journal of forensic sciences.

[26]  Suni M. Edson,et al.  Naming the Dead - Confronting the Realities of Rapid Identification of Degraded Skeletal Remains. , 2004, Forensic science review.