Disaster victim identification: Stable isotope analysis and the identification of unknown decedents.
Lesley A ChessonGregory E BergMary MegyesiPublished in: Journal of forensic sciences (2024)
Within the complex world of disaster victim identification, or DVI, forensic science practitioners use a variety of investigative techniques to work toward a common goal: identification of the decedents, bringing closure to the affected communities. Identification is a complex undertaking; the event (disaster) also can be extraordinarily complex, as it may be an acute event, or one that spans months or years. Compounding this time issue, remains may be heavily fragmented, dispersed, commingled, or otherwise disrupted by either the perpetrators or the disaster itself. To help solve these complexities, we explore the use of stable isotope analysis (SIA) in DVI events. SIA can be used with a variety of body tissues (hair, nail, bone, and teeth), and each represents different time depths in a decedent's life. Bone collagen and tooth enamel carbonate are useful to reconstruct an individual's diet and source water intakes, respectively, leading to likely population or geographic origin determinations. Additionally, the carbon and nitrogen isotopic signatures of bone collagen have calculated intraperson ranges. These facts allow investigators to determine likely origin of remains using isotopic data and can be used to link skeletal elements (to an individual), or perhaps more importantly, show that remains are not linked. Application of SIA can thus speed remains identification by eliminating individuals from short lists for identification, linking or decoupling remains, and reducing the need for some DNA testing. These strategies and hypothesis tests should commence early in the DVI process to achieve maximum effectiveness.
Keyphrases
- bioinformatics analysis
- bone mineral density
- randomized controlled trial
- gene expression
- systematic review
- primary care
- postmenopausal women
- intensive care unit
- physical activity
- soft tissue
- electronic health record
- genome wide
- wound healing
- body composition
- big data
- mechanical ventilation
- weight loss
- bone regeneration
- resting state
- general practice