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01-01-2017 | Original Article

Luminol testing in detecting modern human skeletal remains: a test on different types of bone tissue and a caveat for PMI interpretation

Authors: Giorgio Caudullo, Valentina Caruso, Annalisa Cappella, Emanuela Sguazza, Debora Mazzarelli, Alberto Amadasi, Cristina Cattaneo

Published in: International Journal of Legal Medicine | Issue 1/2017

Abstract

When forensic pathologists and anthropologists have to deal with the evaluation of the post-mortem interval (PMI) in skeletal remains, luminol testing is frequently performed as a preliminary screening method. However, the repeatability of this test on the same bone, as well as comparative studies on different bones of the same individual, has never been performed. Therefore, with the aim of investigating the influence that different types of bones may exert on the response to the luminol test, the present study analysed three different skeletal elements (femoral diaphysis, vertebra and cranial vault), gathered from ten recent exhumed skeletons (all with a 20-year PMI). The analysis was performed twice on the same bone after 2 months: the analysis at time 0 concerned the whole bone, whereas the second concerned only a part of the same bone taken during the first test (which already had been broken). The overall results showed different responses, depending on the type of bone and on the integrity of the samples. Negative results at the first analysis (6.6% out of the total of samples) are consistent with what is reported in the literature, whilst at the second analysis, the increase of about 20% of false-negative results highlights that the luminol test ought to be performed with caution in case of broken bones or elements which are taphonomically altered. Results have thus proven that the exposition to environmental agents might result in haemoglobin (Hb) loss, as detected even after only 2 months. The study also focused on the crucial issue of the type of bone subjected to testing, remarking the suitability of the femoral diaphysis (100% of positive responses at the first analysis vs only 18% of false-negative results at the second test, corresponding to 5% of total false-negative results) as opposed to other bone elements that showed a low yield. In particular, the cranial vault gave poor results, with 40% of discrepancy between results from the two analyses, which suggests caution in choosing the type of bone sample to test. In conclusion, luminol testing should be used with caution on bones different from long bones or on non-intact bones.

Bell LS, Skinner MF, Jones SJ (1669) The speed of post mortem change to the human skeleton and its taphonomic significance. Forensic Sci Int 82:129–140CrossRef

Cappella A, Gibelli D, Muccino E, Scarpulla V, Cerutti E, Caruso V, Sguazza E, Mazzarelli D, Cattaneo C (2015) The comparative performance of PMI estimation in skeletal remains by three methods (C-14, luminol test and OHI): analysis of 20 cases. Int J Legal Med. doi:10.1007/s00414-015-1152-z

Ubelaker DH (2014) Radiocarbon analysis of human remains: a review of forensic applications. J Forensic Sci 59:1466–1472CrossRefPubMed

Cook GT, MacKenzie AB (2014) Radioactive isotope analyses of skeletal materials in forensic science: a review of uses and potential uses. Int J Leg Med 128(4):685–698CrossRef

Facchini F, Pettner D (1977) Chemical and physical methods in dating human skeletal remains. Am J Phys Anthropol 47:65–70CrossRefPubMed

Berg S (1963) The determination of bone age. In: Landquist F (ed) Methods of forensic sciences, vol 2, Interscience., pp 231–252

Knight B, Lauder I (1969) Methods of dating skeletal remains. Hum Biol 41(3):322–341PubMed

Knight B, Lauder I (1967) Practical methods of dating skeletal remains: a preliminary study. Med Sci Law 7(4):205–209PubMed

McLaughlin G, Lednev IK (2011) Potential application of Raman spectroscopy for determining burial duration of skeletal remains. Anal Bioanal Chem 401(8):2511–2518CrossRefPubMed

10.

Howes JM, Stuart BH, Thomas PS, Raja S, O’Brian C (2012) An investigation of model forensic bone in soil environments studied using infrared spectroscopy. J Forensic Sci 57(5):1161–1167CrossRefPubMed

11.

Patonai Z, Maasz G, Avar P, Schmidt J, Lorand T, Bajnoczky I, Marl L (2013) Novel dating method to distinguish between forensic and archeological human skeletal remains by bone mineralization indexes. Int J Leg Med 127(2):529–533CrossRef

12.

Taylor RE, Suchey JM, Payen LA, Slota PJ Jr (1989) The use of radiocarbon (C-14) to identify human skeletal materials of forensic science interest. J Forensic Sci 34(5):1196–1205PubMed

13.

Creamer JI, Buck AM (2009) The assaying of haemoglobin using luminol chemiluminescence and its application to the dating of human skeletal remains. Luminescence 24(5):311–316CrossRefPubMed

14.

Introna F, Di Vella G, Campobasso CP (1999) The determination of postmortem interval from old skeletal remains by image analysis of luminol test results. J Forensic Sci 44:535–538PubMed

15.

Ramsthaler F, Kreutz K, Zipp K, Verhoff MA (2009) Dating skeletal remains with luminol-chemiluminescence. Validity, intra- and interobserver error. Forensic Sci Int 187:47–50CrossRefPubMed

16.

Ramsthaler F, Ebach SC, Birngruber CG, Verhoff MA (2011) Postmortem interval of skeletal remains through the detection of intraosseal hemin traces. A comparison of UV-fluorescence, luminol, Hexagon-OBTI®, and Combur® tests. Forensic Sci Int 209(1-3):59–63CrossRefPubMed

17.

Quickenden TI, Creamer JI (2001) A study of common interferences with the forensic luminol test for blood. Luminescence 16:295–298CrossRefPubMed

18.

Creamer JI, Quickenden TI, Apanah MV, Kerr KA, Robertson P (2003) A comprehensive experimental study of industrial, domestic and environmental interferences with the forensic luminol test for blood. Luminescence 18:193–198CrossRefPubMed

19.

Weber K (1966) Die anwendung der chemilumineszenz des Luminol in der gerichtlichen medizin und toxikologie. I. Der nachweis von Blutspuren. Dtsch Z Gesamte Gerichtl Med 57:410–423PubMed

20.

Cappella A, Amadasi A, Castoldi E, Mazzarelli D, Gaudio D, Cattaneo C (2014) The difficult task of assessing perimortem and postmortem fractures on the skeleton: a blind text on 210 fractures of known origin. J Forensic Sci 59(6):1598–601CrossRefPubMed

21.

Cappella A, Castoldi E, Sforza C, Cattaneo C (2014) An osteological revisitation of autopsies: comparing anthropological findings on exhumed skeletons to their respective autopsy reports in seven cases. Forensic Sci Int 244:315.e1-315.e10

Title: Luminol testing in detecting modern human skeletal remains: a test on different types of bone tissue and a caveat for PMI interpretation
Authors: Giorgio Caudullo
Valentina Caruso
Annalisa Cappella
Emanuela Sguazza
Debora Mazzarelli
Alberto Amadasi
Cristina Cattaneo
Publication date: 01-01-2017
Publisher: Springer Berlin Heidelberg
Published in: International Journal of Legal Medicine / Issue 1/2017
Print ISSN: 0937-9827
Electronic ISSN: 1437-1596
DOI: https://doi.org/10.1007/s00414-016-1493-2

At a glance: The STEP trials

Springer Medicine

Luminol testing in detecting modern human skeletal remains: a test on different types of bone tissue and a caveat for PMI interpretation

Abstract

At a glance: The STEP trials

Springer Medicine

Abstract

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