Archaeogenetics in evolutionary medicine

Kinship analysis of 5th- to 6th-century skeletons of Romanized indigenous people from the Bled-Pristava archaeological site

The familial relationship between skeletons buried together in a shared grave is important for understanding the burial practices of past human populations. Four skeletons were excavated from the Late Antiquity part of the Bled-Pristava burial site in Slovenia, dated to the 5th to 6th century. They were anthropologically characterized as two adults (a middle-aged man and a young woman) and two non-adults (of unknown sex). Based on stratigraphy, the skeletons were considered to be buried simultaneously in one grave. Our aim was to determine whether the skeletons were related. Petrous bones and teeth were used for genetic analysis. Specific precautions were followed to prevent contamination of ancient DNA with contemporary DNA, and an elimination database was established. Bone powder was obtained using a MillMix tissue homogenizer. Prior to extracting the DNA using Biorobot EZ1, 0.5 g of powder was decalcified. The PowerQuant System was used for quantification, various autosomal kits for autosomal short tandem repeat (STR) typing, and the PowerPlex Y23 kit for Y-STR typing. All analyses were performed in duplicate. Up to 28 ng DNA/g of powder was extracted from the samples analyzed. Almost full autosomal STR profiles obtained from all four skeletons and almost full Y-STR haplotypes obtained from two male skeletons were compared, and the possibility of a familial relationship was evaluated. No amplification was obtained in the negative controls, and no match was found in the elimination database. Autosomal STR statistical calculations confirmed that the adult male was the father of two non-adult individuals and one young adult individual from the grave. The relationship between the males (father and son) was additionally confirmed by an identical Y-STR haplotype that belonged to the E1b1b haplogroup, and a combined likelihood ratio for autosomal and Y-STRs was calculated. Kinship analysis confirmed with high confidence (kinship probability greater than 99.9% was calculated for all three children) that all four skeletons belonged to the same family (a father, two daughters, and a son). Through genetic analysis, the burial of members of the same family in a shared grave was confirmed as a burial practice of the population living in the Bled area in Late Antiquity.

Mawangdui-Type Ancient Human Cadavers in China and Strategies for Their Long-Term Preservation

Ancient human remains may exist as intact cadavers in various forms, including mummies as well as humid or soft corpses. These valuable human depositories have been increasingly investigated with modern molecular biological approaches, delivering breakthrough discoveries in the field of paleoanthropology. Many ancient remains are also preserved in museums for public education of the history of human civilization. The Mawangdui tomb No. 1 cadaver was unearthed in 1972 in Changsha, China, and is a well-preserved humid-type corpse of a deceased woman who lived in the Western Han Dynasty (206BC-24AD). During the past few decades, a number of other similar cadavers have been discovered in China. The Mawangdui cadaver thus appears to represent an archetype of the humid corpses that are commonly unearthed from buried coffins, but show a great extent of anatomical and histological integrity at the time of excavation. Long-term protection of these cadavers is important with regard to scientific investigation and heritage conservation, while challenges exist to develop effective preservation protocols. In this perspective article, we describe the overall features of the humid cadavers found in China, and discuss the factors that potentially contributed to their preservation before excavation. We also introduce the efforts taken for, and experience learned from, postexcavation preservation of the Mawangdui cadaver during the past four decades. Finally, we propose that research into the mechanism governing the breakdown of macromolecules may provide potential solutions for extended protection of these valuable ancient human remains.

Computed Tomography-Detected Paleopathologies in Ancient Egyptian Mummies

OBJECTIVE

Computed tomography (CT)-based analyses of mummies have been performed since the 1970s but, until now, no systematic summary of PubMed®-published data has been performed. The aim was to perform a systematic review of previously published cases and summarize artificial changes and detectable paleopathologies.

MATERIALS AND METHODS

Data collection from publications on CT analyses of mummies from ancient Egypt until the Greco-Roman period (up to 700 ad) from the PubMed® database (1973-2013) and descriptive data analysis.

RESULTS

Forty-seven publications on CT-based analyses have been identified, which reported on 189 mummies. Commonly reported artificial changes were destruction of the nasal bone and left-sided lateral abdominal incision for removal of inner organs. Dental and jaw pathologies (n = 42), chronic degenerative changes of skeletal bones (n = 39), and arteriosclerosis (n = 36) were reported in a subfraction of cases while traumatic fractures (n = 16) and other diseases were less often identified. The cause of death was rarely detectable by CT, but a cut through the throat, arrowheads, and bone fracture could be verified by CT.

CONCLUSION

Standards in documentation of CT devices have changed over the past 40 years, and insufficient documentation limits the interpretation of findings. In ancient Egyptian mummies, most organs have been removed during the mummification process while teeth and jaws are often preserved. Dental pathologies were frequent in ancient Egypt and can indicate personal circumstances and diet. The cause of death is rarely verifiable, but CT scan could be the clue. Although well known in Egyptian mummies, artificial changes may lead to misinterpretation of CT findings.