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http://dx.doi.org/10.5806/AST.2017.30.5.270

The study on the penetration and washing features of blood on the surface of fabric  

Kim, Yeounjeung (Soonchunhyang University)
Lim, Jaehee (Soonchunhyang University)
Hong, Sungwook (Soonchunhyang University)
Publication Information
Analytical Science and Technology / v.30, no.5, 2017 , pp. 270-278 More about this Journal
Abstract
The absorption of blood onto the surfaces of white cotton, polyester, rayon, and nylon fabrics was studied. Different categories of fabrics (woven and knitted) with diverse thickness, were manually folded twice to obtain four fabric layers, and $100{\mu}L$ of human blood was dropped onto the surface of the fabrics. The amount of blood that penetrated the fabric layer and the shape of bloodstain observed on the fabrics were influenced by the chemistry, thickness, and texture of the fabric. The blood bearing fabrics were left to dry for 3 days, washed by hand using tap water, and Lumiscene was then sprayed onto the fabrics to enhance the latent bloodstain for comparison of the shape of the bloodstain before and after washing by hand. The features of the bloodstain after washing varied greatly with the recipient fabrics. Additionally, stronger luminescence was observed at the surface where the blood was deposited compared to the background. However, it was confirmed that physical contact during the washing can deform the original shape of the bloodstain. The effect of the drying time on the bloodstain after hand washing was also studied. $100{\mu}L$ of blood was dropped on the surfaces of the fabrics and dried for 0, 1, 12, 24, 72 h, and 7 days, then washed by hand, before the bloodstain was enhanced with Lumiscene. The results of this experiment indicated that the increased drying time induces stronger chemiluminescence of Lumiscene. However, after drying of the bloodstain for 7 days, the luminescence of the bloodstain was decreased at the blood deposited site and increased around the blood deposited site.
Keywords
bloodstain; fabric; penetration; wash; Lumiscene;
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  • Reference
1 L. Henry, C. Palmbeach, Timothy, Miller and T. Marilyn, 'Henry Lee's Crime Scene Handbook', Academic Press, 2001.
2 S. H. James, P. E. Kish and T. P. Sutton, 'principles of bloodstain pattern analysis: theory and practice', Boca Raton, Florida, USA: Taylor & Francis Group, 2005.
3 J. M. Byrne and L. Garnia, Crime Delinquency., 52(2), 203-231 (2006).   DOI
4 W. Specht, Angew Chem., 50, 155-157 (1937).   DOI
5 Lefebvre-Despeaux, Jean-Marc. President of ROC Import Group, Personal communications, Monte-Carlo (2005).
6 M. D. Watkins and K. C. Brown, Evidence Technology Magazine, 4(2), (2006).
7 S. K. Webb, The Saint Louise Metropolitan Police, (2004).
8 J. Spector and D. Von Gemmingen, J. Can. Sot. Forensic Sci, 4, 3-9 (1971).   DOI
9 M. Cox, J. Forensic Sci., 35(6), 1335-1341 (1990).
10 S. Mushtaq, N. Rasool and S. Firiyal, Aust. J. Forensic Sci., 48(1), 87-94 (2016).   DOI
11 M. Cox, J. Forensic Sci., 36, 1503-1511 (1991).
12 F. Barni, S. W. Lewis, A. Berti, G. M. Miskelly and G. Lago, Talanta, 72(3), 896-913 (2007).   DOI
13 http://www.lociforensics.nl/
14 J. K. Kim and J. H. Park, 'Fashion fabric planning', Kyomunsa, 2013.
15 S. J. Seashols, H. D. Cross, D. L. Shrader and A. Rief, J. Forensic Sci., 58(1), 130-133 (2013).   DOI
16 J. Pex and N. Hurley, International Association of Bloodstain Pattern Analysts News December, 1990.
17 M. I. Kohan, 'Nylon Plastics Handbook', Munich: Carl Hanser Verlag, 1995.
18 J. B. Henry, E. d. 'Clinical Diagnosis and Management by Laboratory Methods', 12th Ed., W. B. Saunders Company, Philadelphia, 2001.