Blast suppression foam, aqueous gel blocks, and their effect on subsequent analysis of forensic evidence

Monson, Keith L.; Kyllonen, Kelsey M.; Leggitt, Jeffrey L.; Edmiston, Kelli E.; Justus, Calvin R.; Kavlick, Mark F.; Phillip, Maria; Roberts, Maria A.; Shegogue, Candie W.; Watts, Gabriel D.

doi:10.1111/1556-4029.14536

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Blast suppression foam, aqueous gel blocks, and their effect on subsequent analysis of forensic evidence
Citation	Monson KL, Kyllonen KM, Leggitt JL, Edmiston KE, Justus CR, Kavlick MF, Phillip M, Roberts MA, Shegogue CW, Watts GD. J. Forensic Sci. 2020; ePub(ePub): ePub.
Copyright	(Copyright © 2020, American Society for Testing and Materials, Publisher John Wiley and Sons)
DOI	10.1111/1556-4029.14536
PMID	32762120
Abstract	In addition to having blast mitigation properties, aqueous foam concentrate AFC-380 blast suppression foam is designed to capture aerosolized chemical, biological, and radioactive particles during render-safe procedures of explosive devices. Exposure to aqueous environments and surfactants may negatively affect forensic evidence found at the scene, but the effects of AFC-380 foam and aqueous gel on the preservation and subsequent analysis of forensic evidence have not previously been investigated. Sebaceous finger and palm prints and DNA samples on paper, cardboard, tape, and various metal and plastic items, along with hairs, carpet and yarn fibers, and inks and documents, were exposed to AFC-380 foam. Similar mock evidence was also exposed to a superabsorbent gel of the type found in aqueous gel blocks used for shrapnel containment. Exposure to foam or aqueous gel was associated with a dilution effect for recovered DNA samples, but quality of the samples was not substantially affected. In contrast, exposure to AFC-380 foam or gel was detrimental to development of latent finger and palm prints on any substrate. Neither the hair nor the fiber samples were affected by exposure to either the foam or gel. Indented writing on the document samples was detrimentally affected by foam or gel exposure, but not inks and toners. The results from this study indicate that most types of forensic evidence recovered after being exposed to aqueous gel or blast suppression foam can be reliably analyzed, but latent finger and palm prints may be adversely affected. Language: en
Keywords	blast suppression foam AFC-380; DNA; document analysis; evidence recovery; fiber analysis; forensic science; gel blocks; latent fingerprints; radiological dispersal device (RDD); superabsorbent aqueous gel