The intervertebral discs' fibrocartilage as a DNA source for genetic identification in severely charred cadavers

Forensic Sci Med Pathol. 2022 Dec;18(4):442-449. doi: 10.1007/s12024-022-00536-8. Epub 2022 Oct 8.

Abstract

Identifying charred human remains poses a challenge to forensic laboratories. High temperature completely incinerates the superficial tissues and partially destroys bones, forcing the forensics to seek an alternative, for bones and teeth, forensic material that should quickly and cheaply deliver DNA of sufficient quantity and quality. We sought, other than rib cartilage, types of cartilages that could serve as a DNA source. DNA was isolated from the fibrous cartilage of a fibrous ring of intervertebral L1-L2 discs sampled from charred cadavers or charred body fragments: 5 victims of car fires, 1 victim of combustion during a residential house gas explosion, and 3 victims of nitroglycerin explosion. DNA was isolated by the column method. DNA quality and concentration were assessed by RT-PCR and multiplex PCR for 23 autosomal and 17 Y chromosome STR loci. STR polymorphism results obtained by capillary electrophoresis served for likelihood ratio (LR) calculations. DNA concentration in relation to the cadaver's age and post-mortem interval (PMI) were analyzed. All samples (n = 9) yielded good-quality DNA in quantities (0.57-17.51 ng/µL for T. Large autosomal sequence) suitable for STR-based amplification. The isolated DNA characterized a low degradation index (0.80-1.99), and we were able to obtain complete genetic profiles. In each of the nine cases, the genotyping results allowed identifying the victims based on comparative material from the immediate family. The results demonstrate the usefulness of human intervertebral disc fibrocartilage as an alternative DNA source for the genetic identification of charred bodies or charred torso fragments.

Keywords: Charred cadavers; DNA degradation index; Fibrous cartilage; Fibrous ring; Genetic identification; Intervertebral disc.

MeSH terms

  • Cadaver
  • DNA
  • DNA Fingerprinting* / methods
  • Fibrocartilage
  • Humans
  • Intervertebral Disc*
  • Microsatellite Repeats

Substances

  • DNA