A. Taborelli scite author profile

A. Taborelli

5Publications

44Citation Statements Received

84Citation Statements Given

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University of Milan

Publications

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Gunshot Residues on Dry Bone After Decomposition—A Pilot Study

Taborelli

Gibelli

Rizzi

et al. 2012

Journal of Forensic Sciences

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Very little literature exists concerning radiochemical and microscopic analyses of gunshot wounds in decomposed material, and even less concerning skeletonized samples; the most advanced technologies may provide useful indications for the diagnosis of suspect lesions, especially if gunshot wounds are no longer recognizable. However, we know very little of the survival of gunshot residues (GSR) in skeletonized samples. This study examined nine gunshot wounds produced on pig heads which then underwent skeletonization for 4 years, and four gunshot entries on human heads from judicial cases which were then macerated to the bone in water; the samples underwent scanning electron microscopy coupled with energy dispersive X-ray (SEM-EDX) analysis. Positive results for GSR were observed only in four of the nine animal samples and in all four human samples. Among the human samples, two lesions showed Pb and Sb, one lesion only Pb, and one Pb, Sb, and Ba. This pilot study showed the survival of GSR in skeletal material and therefore the crucial importance of SEM-EDX analyses on skeletonized material. Further studies are needed in order to ascertain the role of environmental modifications of GSR.

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Decomposition and entomological colonization of charred bodies – a pilot study

et al. 2013

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AimTo use forensic entomological approach to estimate the post mortem interval (PMI) in burnt remains.MethodsTwo experiments were performed in a field in the outskirts of Milan, in winter and summer 2007. Four 60-kg pigs were used: two for each experiment. One pig carcass was burnt until it reached the level 2-3 of the Glassman-Crow scale and the not-burnt carcass was used as a control. In order to describe the decomposition process and to collect the data useful for minimum PMI estimation, macroscopic, histological, and entomological analyses were performed.ResultsIn the winter part of the experiment, the first insect activity on the burnt carcass began in the third week (Calliphora vomitoria) and at the beginning of the fourth week an increase in the number of species was observed. In the summer part, adult flies and first instar maggots (Phormia regina) appeared a few minutes/hours after the carcass exposure. Both in winter and summer, flies belonging to the first colonization wave (Calliphoridae) appeared on burnt and control pigs at the same time, whereas other species (Diptera and Coleoptera) appeared earlier on burnt pigs.ConclusionIn forensic practice, burnt bodies are among the most neglected fields of entomological research, since they are supposed to be an inadequate substratum for insect colonization. Entomological approach for PMI estimation proved to be useful, although further studies on larger samples are needed.

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The use of the anti-Glycophorin a antibody in the detection of red blood cell residues in human soft tissue lesions decomposed in air and water: a pilot study

Taborelli¹,

Andreola²,

Giancamillo

et al. 2011

Med Sci Law

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The distinction between antemortem and postmortem wounds is one of the most important medico-legal problems. In fresh cadavers the macroscopic examination of haemorrhagic infiltration can be sufficient to reveal the vitality of a wound but in more difficult cases (putrefied corpses) histological and histochemical analyses need to be performed. The scope of this study was to detect the vitality of soft tissue samples in an advanced state of putrefaction using a monoclonal anti-human Glycoforin A antibody in order to evaluate the presence of red blood cells or red blood cell residues. Samples of skin wounds were taken from cadavers with a known time survival between trauma and death, and then submitted to a simulated putrefaction procedure. The skin samples were left to decompose for 30 days in air and in water and analyzed at a time interval of 3-6-15-30 days. These samples were stained with haematoxylin eosin stain, trichrome stain and with immunohistochemical stains. Results showed that in the air red blood cells could be seen for up to six days and granular deposits of Glycophorin reactive material for up to 15 days whereas no red blood cells were recognizable after 30 days. In water red cell putrefaction (or non-detection) was faster than in the air: after six days only amorphous granular deposits slightly reactive to Glycophorin could be seen. Nonetheless results showed that extravasated red blood cell residues can still be detected in skin bruises left to decompose in air and water, for up to at least 15 days in the open air and one week in water.

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Burial of Piglet Carcasses in Cement

Gibelli¹,

Giancamillo²,

Taborelli³

et al. 2013

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Scarce experimental data exist describing postmortem effects of burial in cement. The scanty literature presents several case reports, but no experimental study. To perform a pilot study, the following experimental system was designed: 4 piglet corpses, who died of natural causes, were encased in concrete. After 1, 2, 3, and 6 months, a block was opened, and autopsy and microscopic analyses were performed. At the first month, initial putrefaction had started, and hindlegs were partly skeletonized. At the second month, both forelegs and hindlegs were partly skeletonized, and the abdomen and back showed advanced putrefaction. At the third month, the samples showed areas of mummification at the abdomen within a general context of initial putrefaction. At the sixth month, the sample showed wide adipocere formation. Histological findings revealed in some analyzed tissues (epithelium, dermis, adipose, and subcutaneous muscular tissues) a well-defined histological pattern even at 3 months after encasement in concrete: this means that microscopic changes may be delayed in concrete and that it may be worth performing histological analyses even in such kind of decomposed material.

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Ependymoma

Nakachi¹,

Wang²,

Zakrzewska³

et al. 2014

Neuro-Oncology

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A. Taborelli

Gunshot Residues on Dry Bone After Decomposition—A Pilot Study

Decomposition and entomological colonization of charred bodies – a pilot study

The use of the anti-Glycophorin a antibody in the detection of red blood cell residues in human soft tissue lesions decomposed in air and water: a pilot study

Burial of Piglet Carcasses in Cement

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