Autopsy of an Egyptian mummy (Nakht--ROM I).
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Autopsy of a 3200-year-old Egyptian mummy by an international multidisciplinary team yielded much information about diseases of the ancient past. Major contributions were made by the disciplines of anatomy, dentistry, genetics, hematology, histology, microbiology, nuclear medicine, occupational medicine, orthopedic surgery, otolaryngology, pathology, pediatrics, plastic surgery, radiology and virology. Scientists from Toronto, Detroit, Philadelphia and Cardiff participated in the investigation. The following were the main findings of medical interest: skeleton, infection or malnutrition as suggested by Harris's lines in distal femoral metaphyses; muscle (intercostal), cyst of Trichinella spiralis; lungs, deposits of anthracotic pigment and granite particles; spleen, enlargement with evidence of possible rupture; liver, early cirrhosis and calcified ova of Schistosoma sp.; kidney, calcified ova of Schistosoma sp.; and large and small intestines, calcified ova of Schistosoma and Taenia spp. This autopsy demonstrated the value of well coordinated efforts by specialists in various medical disciplines. Such efforts are essential when such a rare scientific endeavour is to yield a maximum of useful and reliable information. (+info)
Enzymatic and immunological activity of 4000 years aged bone alkaline phosphatase.
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Structurally intact and functionally active human bone alkaline phosphatase was isolated from clavicle fragments of IDU, an Egyptian mummy of the Old Kingdom (2150 +/- 50 BC). Both anion exchange and affinity chromatographies were employed to optimise the preparation of the ancient enzyme resulting in a specific activity of 180 +/- 30 mU/mg. The intactness of the bone enzyme fractions of the wheat-germ lectin affinity chromatography was successfully demonstrated in an ELISA using the monoclonal antibody BAP A. Fortunately, the mummified bone was not contaminated by fungi or bacteria. (+info)
A brief journey into medical care and disease in ancient Egypt.
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Ancient Egypt was one of the greatest civilizations to have arisen, becoming the cradle of scientific enquiry and social development over 3 millennia; undoubtedly its knowledge of medicine has been vastly underestimated. Few artefacts survive which describe the medical organization, but from the extent of the diseases afflicting that ancient populus there would have been much to study. Evidence from papyri, tomb bas reliefs and the writings of historians of antiquity tell of an intense interest in the sciences, humanities and medicine born of an educated society which had overcome the superstitions of its nomadic ancestors. (+info)
3-D reconstruction of an ancient Egyptian mummy using X-ray computer tomography.
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Computer tomography has been used to image and reconstruct in 3-D an Egyptian mummy from the collection of the British Museum. This study of Tjentmutengebtiu, a priestess from the 22nd dynasty (945-715 BC) revealed invaluable information of a scientific, Egyptological and palaeopathological nature without mutilation and destruction of the painted cartonnage case or linen wrappings. Precise details on the removal of the brain through the nasal cavity and the viscera from the abdominal cavity were obtained. The nature and composition of the false eyes were investigated. The detailed analysis of the teeth provided a much closer approximation of age at death. The identification of materials used for the various amulets including that of the figures placed in the viscera was graphically demonstrated using this technique. (+info)
Racemization and oxidation studies of hair protein in the Homo tirolensis.
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Amino acids contained in fossil materials show an increasing extent of racemization with age, postulating time and temperature as the two major variables. The recent discovery of the Homo tirolensis made possible a comparison between racemization rates of the amino acids found in hair at identical ages (5200 years of age) but at different diagenetic temperatures ("Ginger," found in the hot, dry sand of Egypt; H. tirolensis, found on a glacier of the Otztaler Alps). The rate of racemization was higher in the H. tirolensis, which is surprising and in contrast to current concepts. Ortho-tyrosine and di-tyrosine, parameters for OH-radical attack, were also higher in the H. tirolensis, suggesting a role for free OH-radical involvement in the racemization process. (+info)
Identification of Mycobacterium tuberculosis DNA in a pre-Columbian Peruvian mummy.
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The existence of tuberculosis in the pre-Columbian Americas is controversial because the morphology of the lesion is not specific, the organism is culturally nonviable in ancient tissues, and nonpathogenic soil mycobacteria can contaminate buried bodies. We report the recovery of DNA unique to Mycobacterium tuberculosis from a lung lesion of a spontaneously mummified, 1000-year-old adult female body in southern Peru. This provides the most specific evidence possible for the pre-Columbian presence of human tuberculosis in the New World. (+info)
The paleopathology of the cardiovascular system.
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Paleopathology, the study of disease in ancient remains, adds the dimension of time to our study of health and disease. The oldest preserved heart is from a mummified rabbit of the Pleistocene epoch, over 20,000 years old. Cardiovascular disease has been identified in human mummies from Alaska and Egypt, covering a time span ranging from approximately 3,000 to 300 years ago. An experimental study suggests that the potential exists for identifying a wide range of cardiovascular pathologic conditions in mummified remains. The antiquity and ubiquity of arteriosclerotic heart disease is considered in terms of pathogenesis. (+info)
The retrieval of ancient human DNA sequences.
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DNA was extracted from approximately 600-year-old human remains found at an archaeological site in the southwestern United States, and mtDNA fragments were amplified by PCR. When these fragments were sequenced directly, multiple sequences seemed to be present. From three representative individuals, DNA fragments of different lengths were quantified and short overlapping amplification products cloned. When amplifications started from <40 molecules, clones contained several different sequences. In contrast, when they were initiated by a few thousand molecules, unambiguous and reproducible results were achieved. These results show that more experimental work than is often applied is necessary to ensure that DNA sequences amplified from ancient human remains are authentic. In particular, quantitation of the numbers of amplifiable molecules is a useful tool to determine the role of contaminating contemporary molecules and PCR errors in amplifications from ancient DNA. (+info)