The Presence of the Human Auditory Ossicles—Detected Postmortem by CT Scan—As a Taphonomic Indicator

IF 1.4 4区 医学 Q3 MEDICINE, LEGAL Forensic Sciences Research Pub Date : 2023-11-02 DOI:10.3390/forensicsci3040039
Edda E. Guareschi, Sara Poggesi, Marco Palmesino, Paola A. Magni
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Abstract

Introduction: Three tiny bones compose the human ossicular chain: malleus, incus and stapes. Also known as auditory ossicles, they are united by joints in the middle ear cavity of the petrous part of the temporal bone. Completely developed two years after birth, the ossicular chain is involved in the physiological process of hearing, by which sound waves from the environment are converted into electrochemical impulses. In the last 500 years, most studies have focused on the morphogenesis, morphological variability and clinical pathology of the ossicular chain, whilst only a few studies have added relevant knowledge to anthropology and forensic science. The auditory ossicles and the enclosing petrous bone are some of the hardest in the human skeleton. This is reflected in a relative resistance to fire and in the possibility of preservation and fossilization in millions of years. Materials and Methods: The literature and four present-day forensic cases were included in studying the postmortem loss of the auditory ossicles in skeletal or decomposing remains. Results indicate that it can be ascribed to their destruction or physical displacement, by either macro-micro-faunal action and/or any other natural or artificial disturbance. Discussion: Physical displacement is closely connected to the depositional environment of the skeletal remains, such as burial, entombment (sarcophagus, coffin, vault…), submersion or exposure to natural elements. Auditory ossicles can be recovered in situ, or very close to their anatomical location, when the skeletal material has been involved in an archaeological excavation. In the case of accessible or disturbed remains, scavengers may remove the tiny ossicles and/or they can slip out of the middle ear cavity following skull movements. Entombment offers effective protection against the displacement of the auditory ossicles, whereas aquatic submersion and aquatic movement almost invariably displace them. Conclusion: the preservation of the human auditory ossicles should be critically considered in the comprehensive context of any forensic investigation on human remains since it can assist the reconstruction of their taphonomic history. Taphonomic histories of remains can add crucial information to forensic investigations (e.g., the Post Mortem Interval, PMI). The aim of this study, limited by scarce relevant literature, is to discuss the potential role of the ossicular chain, detected by postmortem imaging techniques, as a taphonomical indicator in decomposing and/or skeletonized bodies.
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人听骨的存在-通过CT扫描检测死后-作为音标学指标
人体听骨链由三块细小的骨头组成:锤骨、砧骨和镫骨。也被称为听小骨,它们由颞骨岩部中耳腔的关节连接。听骨链在出生两年后完全发育,它参与了听觉的生理过程,通过这个过程,来自环境的声波被转化为电化学脉冲。在过去的500年里,大多数研究都集中在听骨链的形态发生、形态变异和临床病理学上,而只有少数研究将相关知识添加到人类学和法医学中。听小骨和周围的石质骨是人类骨骼中最坚硬的部分。这反映在对火的相对抵抗力和数百万年保存和石化的可能性上。材料与方法:结合文献资料和四个现代法医案例,研究了骨骸或腐解遗骸中听小骨的死后损失。结果表明,这可归因于它们的破坏或物理位移,由宏观-微观动物作用和/或任何其他自然或人为干扰引起。讨论:物理位移与骨骼遗骸的沉积环境密切相关,如埋葬、埋葬(石棺、棺材、拱顶……)、淹没或暴露于自然因素。当骨骼材料参与考古挖掘时,可以在原位或非常接近其解剖位置的地方恢复听小骨。在可接近或干扰的遗骸的情况下,清除者可能会移除微小的听骨,并且/或者它们可以随着头骨运动而滑出中耳腔。埋在水中对听小骨的移位提供了有效的保护,而水中淹没和水中运动几乎总是会使听小骨移位。结论:人类听小骨的保存应在任何对人类遗骸进行法医调查的综合背景下进行批判性考虑,因为它可以帮助重建其地语学历史。遗骸的语音学历史可以为法医调查提供重要信息(例如,死后间隔,PMI)。由于缺乏相关文献,本研究的目的是讨论通过死后成像技术检测到的听骨链在分解和/或骨骼化的尸体中作为埋藏指标的潜在作用。
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来源期刊
Forensic Sciences Research
Forensic Sciences Research MEDICINE, LEGAL-
CiteScore
3.60
自引率
7.70%
发文量
158
审稿时长
26 weeks
期刊最新文献
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