2016
DOI: 10.2147/rrfms.s57994
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Forensic body fluid identification: state of the art

Abstract: Body fluid identification is a key component in the forensic scientists' tool box and has been carried out both at the crime scene and in the laboratory for many years. Historically, methods relied on (bio) chemical-based tests, many of which lacked specificity. In this review, current technologies for identifying body fluids are described including the use of RNA (mRNA and miRNA), epigenetics, spectroscopic techniques such as Raman spectroscopy and microspectrophotometry, biosensors, and immunochromatographic… Show more

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Cited by 89 publications
(79 citation statements)
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References 161 publications
(294 reference statements)
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“…In both instances, development of fingermarks was successful indicating that there are other factors during the firing process that affect the fingermark recovery, such as the blowback of the hot gasses produced from the burning of the propellant powder, or some by‐products of the propellants that adhere to the surface of the cartridge and hinder visualization. Although Girelli et al's study approaches the subject as close to real crime scene samples as possible and included many cartridge cases (100), the small number of donors makes the drawing of conclusions difficult. Nizam et al used electrolysis only, which successfully developed fingermarks in 1 of 4, spent cartridge cases, and used only one donor.…”
Section: Ammunition/cartridge Casesmentioning
confidence: 99%
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“…In both instances, development of fingermarks was successful indicating that there are other factors during the firing process that affect the fingermark recovery, such as the blowback of the hot gasses produced from the burning of the propellant powder, or some by‐products of the propellants that adhere to the surface of the cartridge and hinder visualization. Although Girelli et al's study approaches the subject as close to real crime scene samples as possible and included many cartridge cases (100), the small number of donors makes the drawing of conclusions difficult. Nizam et al used electrolysis only, which successfully developed fingermarks in 1 of 4, spent cartridge cases, and used only one donor.…”
Section: Ammunition/cartridge Casesmentioning
confidence: 99%
“…KEYWORDS: forensic science, fingermarks, fingerprints, enhancement techniques, metallic surfaces, latent fingermarks Fingermarks are considered one of the most valuable types of physical evidence recovered from a crime scene. Fingermark casework is still the most common casework for forensic scientists despite the increase in use of DNA (1) to identify/exonerate suspects via bodily fluids (2). The ridge patterns found in fingermarks are permanent and can be used to individualize or exclude suspects from an investigation.…”
mentioning
confidence: 99%
“…In addition, DNA methylation methods use a significant portion of the sample, are lengthy, and do not perform well with menstrual blood (Choi, Shin, Yang, & Lee, 2014;Jung et al, 2016). Please refer to the review by Harbison and Fleming for a more in-depth discussion of emerging body fluid identification methods (Fleming et al, 2013;Harbison & Fleming, 2016).…”
Section: Forensic Dna Profilingmentioning
confidence: 99%
“…There is no known presumptive test for menstrual blood due to its composition. However, this body fluid has been successfully differentiated from other body fluids using molecular approaches (Lindenbergh, et al, 2012;Harbison and Fleming, 2016).…”
Section: Menstrual Bloodmentioning
confidence: 99%