Virtual anthropology (VA) is based on applying anthropological methods currently used to analyse bones to 3D models of human remains. While great advances have been made in this endeavour in the past decade, several interrogations concerning how reliable these models are and what their proper use should be remain unanswered. In this research, a fundamental assumption of VA has been investigated: if the way we perceive and apply an anthropological method is truly similar when looking at bones macroscopically and through various 3D media. In order to answer, 10 skulls of known age and sex were scanned using a computed tomography (CT) scanner and a 3D surface scanner. Two observers separately applied a defined staging method to eight suture sites on these skulls, first looking at the bone macroscopically, then at the 3D surface scan, and finally on the CT scan. Two rounds of observation were carried out by each observer. Intra-and inter-observer error were evaluated, and two sample t-tests used to evaluate if the different types of medium used yielded significantly different observations. The results show a high degree of inter-observer error, and that data obtained from 3D surface scans differ from macroscopic observation (confidence level 95%, P 0.05). CT scans, in these settings, yielded results comparable to those obtained through macroscopic observations. These results offer many possibilities for future research, including indications on the kind of anthropological methods and anatomical landmarks that might be reliably transferable to the virtual environment. All current methods used in traditional anthropology should be tested, and if they prove unreliable, new techniques to analyse bones from virtual models should be developed.
KEY POINTSLarge discrepancies between observation on dry bones and computer-generated 3D models (surface scans or CT scans) could lead to the re-evaluation of the suitability of traditional anthropological methods for application on 3D models. This preliminary study evaluates whether macroscopic, 3D surface scans, and CT scans viewings generate different observations. The results indicate that the data are not always coherent across all three media of observation. Explanations include the aspect given to the bone by the 3D software, differences between handling bones in real life versus on a computer, and level of expertise of the observers.
Endocranial lesions known as serpens endocrania symmetrica (SES) appear relatively frequently in the paleopathological record, but their significance often goes undiscussed. For the past decade, however, research has proved conclusively that their presence is an indicator of illnesses within the corpus. As such, cases found in the archaeological record can provide clues as to the kinds of diseases that prehistoric populations endured. We report four cases of young individuals from Neolithic Western Switzerland bearing SES on their craniums and discuss the implications of such findings in terms of the paleopathological profile of these populations. The following article provides documentation for each case as well as a differential diagnosis including tuberculosis, meningitis, trauma, and metabolic conditions such as scurvy. These four individuals represent the oldest cases of such lesions described for this region.
This research focuses on the Neolithic populations of Western Switzerland (5500–2200 BCE) and on establishing their paleopathological profile. This chronological period presents varying burial practices, and the aim was to be able to synthesise all information regarding the pathologies these populations exhibited, in such a way that statistical tests could be performed to determine whether geographical (site location), biological (age, sex, stature) and chronological factors played a role in lesion distribution. As a result, a methodology was devised to consider bone lesions in both a quantified and qualified manner, and able to handle individualised, multiple and commingled remains. The statistical analysis showed that pathological profiles differed depending on site location, with some exhibiting patterns that raise further questions as to the socio-economical functioning of these prehistoric societies. Biological factors also appear to play a role in lesion distribution, with immature individuals exhibiting more metabolic deregulations, whilst the adults—as expected—showed more signs of degenerative pathologies. Some chronological evolution of health is also perceivable; however, the small sample size available for some periods means these results are tentative at best. These remains, however, proved more than an accumulation of bone lesions, and the qualified data collected from them also yielded individual and collective narratives of health. Instances of infectious diseases were discovered, indicating that pathologies such as tuberculosis were a persistent presence at the time, with all the consequences this entails.
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