Identification of urate crystals in gouty individuals

In paleopathology cases of gout have traditionally been identified using the character of erosive bony lesions, but in clinical medicine identification of monosodium urate crystals in joint fluid plays a central role in diagnosis. Work undertaken on three skeletal individuals who had been buried, demonstrates that crystals can be identified using polarising microscopy. The crystals were identified as monosodium urate. Results from this study appear to demonstrate that identification of monosodium urate crystals could be used to assist in the diagnosis of gout in paleopathology. Further work is required to establish the full range of spatial and temporal contexts from which such crystals might be found.     

Carbon isotope measurement techniques for bone collagen: Notes for the archaeologist

Stable carbon isotope analysis of archaeological human bone collagen is becoming increasingly useful in diet reconstructions. This paper describes, for archaeologists, the techniques that we have found useful in carrying out such analyses, and discusses the requirements for measurement accuracy and inter-laboratory calibration.     

An exploration of character traits and linear measurements for sexing mountain gazelle (Gazella gazella) skeletons

The skeletal elements of mountain gazelle (Gazella gazella) have proven difficult to sex with statistical confidence due to wide overlap in the body size of the two sexes. We studied a sample of 53 modern mountain gazelle skeletons to determine which character traits and metric measurements best predict sex. The success of the character traits was determined using blind tests while the metrics were examined using discriminant function analysis. The most useful elements include the previously identified horn core, pubis and atlas, but also some new bone portions that preserve well in the archaeological record (e.g., distal tibia, distal metacarpal and metatarsal, and second phalanx). Surprisingly, two elements commonly used in sexing analyses (distal humerus and astragalus) were not among the most effective elements. Although cutting points and discriminant functions for sexing gazelle bone portions are presented here, they do not account for potential body size change and thus are not suited for direct application to archaeological assemblages. Instead, we provide guidelines for application to archaeological gazelle assemblages, most importantly a regression analysis that considers the sex ratios obtained from multiple measurements to predict the sex ratio of archaeological gazelle populations.     

Isolation and Isotopic Analysis of Individual Amino Acids from Archaeological Bone Collagen: A New Method Using Rp‐hplc

This paper presents a new method for the isolation and isotopic analysis of some individual amino acids from proteins. The technique and its constituent steps are discussed; then isotopic analyses of amino acids from several samples of bone collagen from the Late Roman site of Poundbury, Dorset, UK are presented. The applications of the method are discussed, as well as some advantages of this technique relative to other methods. Although developed for use with archaeological bone collagen, the technique is equally applicable to other proteinaceous materials. The use of reversed‐phase HPLC avoids problems of isotopic fractionation inherent in using ion‐exchange HPLC. Amino acids are isolated preparatively, allowing both carbon and nitrogen isotopic values to be measured on a single sample using CF‐IRMS. Since amino acids are isotopically analysed in an underivatized form (unlike GC‐C‐IRMS), the method also presents the possibility of collecting the CO₂ generated during CF‐IRMS: this would allow the subsequent dating by ¹⁴C‐AMS of individual amino acids isolated from archaeological samples.     

Fish bone chemistry and ultrastructure: implications for taphonomy and stable isotope analysis

This paper reviews the ultrastructure and chemistry of fish bone, with an emphasis on zooarchaeology and stable isotope analysis. On the basis of the chemical composition of the collagen and the relationships between the collagen and mineral phases, fish bone is more susceptible to biotic and abiotic degradation than mammalian bone and is therefore less likely to be recovered in archaeological deposits. The amino acid composition of fish bone differs from that of mammals, most notably with respect to hydroxyproline content. The C:N ratio of fish collagen is, however, very similar and slightly lower than mammalian collagen, and thus the traditional range of acceptable C:N ratios for archaeological bone collagen (2.9–3.6) should not be shifted or extended for fish on the basis of the amino acid composition of collagen. An extensive survey of published archaeological bone collagen C:N ratios demonstrates that fish collagen from archaeological contexts tends to have significantly higher C:N ratios than mammalian collagen. The elevated C:N ratios in fish bone collagen may be the result of abiotic degradation processes that occur within the bone after death, the presence of exogenous humic contaminants, or endogenous lipid contaminants.     

Metacarpal radiogrammetry: a useful indicator of bone loss throughout the skeleton?

Metacarpal radiogrammetry has received increasing interest in recent studies of archaeological human bone in facilitating the identification of age-related cortical bone loss and osteoporosis risk in the past. The technique is relatively simple and non-destructive, and existing comparative clinical data is an advantage in its application to archaeological samples. In order for metacarpal radiogrammetry to be useful in identifying individuals that could have been at risk of fracture in the past, cortical bone loss as measured at the second metacarpal is assumed to be reflective of bone loss occurring throughout the skeleton and across the metabolically different cortical and trabecular bone. Archaeological studies have frequently relied on literature reviews of clinical data to justify the technique as valid and useful. However, the present study has examined whether cortical bone loss measured in the second metacarpal is similar to bone loss measured at specific skeletal sites that are more frequently affected by osteoporosis-related fracture. Skeletons from two post-medieval collections from London, UK, Redcross Way and Farringdon Street (lower burial ground of St. Bride's Church) were studied. The results of the present study demonstrate that the second metacarpal is useful in identifying age-related bone loss at sites that are predilected to osteoporotic fracture, most notably the distal radius, which is prone to Colles' fractures. Metacarpal radiogrammetry also correlates well with bone loss in skeletal sites that are primarily composed of trabecular bone, including the fourth lumbar vertebra (a site of compression fractures) and the iliac crest (the location for clinical biopsies). The present study also confirms previous findings of significant differences between the pattern of cortical bone loss between the metacarpal and the femur. The poor relationship between these two areas is most likely attributable to mechanical loading.     

Estimating meagre (Argyrosomus regius) size from otoliths and vertebrae

This study presents a method for predicting meagre (Argyrosomus regius) body size (total length) from otoliths and vertebrae recovered from archaeological sites. The method involves regression equations calculated from a reference collection of 36 meagre skeletons and 113 meagre otoliths (sagitta) and allows the simultaneous estimation of original body size and minimum number of individuals (MNI) from archaeological bone structures. We selected the following measurements to predict meagre body size: greatest dorso-ventral height, greatest mediolateral breadth, and greatest anteroposterior length of the vertebrae centra; maximum anteroposterior length, medial anteroposterior length, and dorso-ventral height of the sagitta. Our results show that the original body size of meagre can be accurately predicted from many bone measurements (r² range: 0.921–0.992). We exemplify the use of the regressions in the assessment of size variation and MNI of meagre from four Portuguese Mesolithic sites. We show that regression results provide additional insight into the significant role that this fish played in the subsistence of coastal fisher-hunter-gatherers, who targeted medium-sized animals but were also capable of acquiring rather larger specimens.     

A procedural guide to metacarpal radiogrammetry in archaeology

The technique of metacarpal radiogrammetry was devised in 1960 as a clinical method to aid in the identification of thinned cortical bone, which may help in diagnosis of osteoporosis. Through taking measurements from radiographs, calculations of the amount of cortical bone can be made. The technique is relatively simple and is not destructive. This paper examines the value of the application of this technique to archaeological remains. A standardized methodology of bone assessment is incorporated to enhance the comparability of future research. Statistical tests demonstrate that the technique is robust, as the position of the bone on the film, radiographic enlargement and use of either the left or right metacarpal will not affect the results obtained. However, differences in film type and measurement position can introduce unacceptable variance into the results. Therefore, guidance is given on future applications of the technique. The technique does have value as a widely available, non‐destructive technique for assessing cortical bone loss and the probable prevalence of osteoporosis in archaeological collections. Copyright © 2004 John Wiley & Sons, Ltd.     

Two Roman and medieval cases of symmetrical erosive polyarthropathy from Normandy: anatomico-pathological and radiological evidence for rheumatoid arthritis

With continued archaeological discoveries of skeletal remains in the USA and Europe, discussion of the possible aetiology for recognized cases of symmetrical erosive polyarthropathy include the spondylarthropathies and rheumatoid arthritis. One skeleton from the fourth century site of Lisieux and a second from the eleventh century site of Rouen are characterized by numerous symmetrical marginal erosions, primarily involving the metacarpophalangeal and proximal interphalangeal joints. Results of maroscopic, microscopic and radiological examination are highly suggestive of a modern-day diagnosis of rheumatoid arthritis. These data are consistent with the presence of rheumatoid arthritis before the onset of the fourteenth century. © 1997 John Wiley & Sons, Ltd.     

Skeletal manifestations of vitamin D deficiency osteomalacia in documented historical collections

The frequency with which changes related to vitamin D deficiency are recorded in juvenile bone from archaeological contexts makes it clear that conditions conducive to such deficiency were fairly widespread at a number of points in the past. Although changes will take longer to be manifest in the adult skeleton than in juveniles, and may not be as obvious, the scarcity of reported cases suggests that it is likely that cases of osteomalacia are being overlooked in archaeological human bone. Vitamin D is probably better described as a hormone, rather than a vitamin, and the production of vitamin D within the body following exposure to sunlight allows adequate mineralisation of bone to take place. Lack of exposure to sunlight, which can be caused by a range of factors, is probably one of the main causes of vitamin D deficiency. The result of such a deficiency is a general weakening of the skeleton. The range of skeletal changes recorded across different bones of the skeleton in two documented historical pathology collections (the Galler collection, Basel, and the collection of the Federal Museum for Pathological Anatomy, Vienna), are discussed for scapulae, vertebrae, ribs, sterna, pelves and femora. The likelihood of each feature being preserved in archaeological skeletal material is considered. Although the changes associated with osteomalacia may lead to fragmentation of the skeleton, the presence of characteristic changes on bones from across the skeleton should make the condition identifiable using macroscopic examination, even where the skeleton is not well preserved. The identification of cases of osteomalacia in archaeological skeletal material is potentially significant because of the socio‐cultural information that can be implied from diagnosis of the condition. Copyright © 2005 John Wiley & Sons, Ltd.     

The estimation of live fish size from archaeological cranial bones of the New Zealand blue cod Parapercis colias

Twenty-four measurements were taken on five of the paired cranial bones and the otoliths of a modern sample of 177 blue cod. Parapercis colias. Regression analysis was performed on these measurements to estimate live fork length and ungutted weight. A number of regression models were examined (linear, logarithmic, exponential and power curve) to work out the optimum estimator for each bone measurement. It was found that live fork length of this species can be estimated with a standard error of less than ±28 mm, and the weight to less than ±140 g. Coefficients are provided for 48 equations linking bone size to live characteristics. This is followed by a study of blue cod from an archaeological site at Waihora in the Chatham Islands. Measurements were made on 8036 archaeological bones with a minimum number of individuals of 2547. It was found that the blue cod catch had near normal characteristics, with a mean fork length of 327 mm and SD of 57 mm. The mean body weight was estimated at 569 g. The usable meat weight represented by these fish is estimated to be 1.0 t. © 1997 John Wiley & Sons, Ltd.     

Seasonality and paleodiet in the Chiribaya polity of southern Peru

In the Andes, the complex Chiribaya polity, or señorío, was composed of economically specialized groups. Previous carbon and nitrogen isotope analyses of archaeological human bone from Chiribaya-affiliated sites have effectively demonstrated socioeconomic specialization and variability in paleodiet among different Chiribaya-affiliated sites. The present study complements earlier paleodietary analyses of Chiribaya populations by supplementing them with carbon and nitrogen isotope analyses of archaeological human hair from the two Chiribaya-affiliated sites of Chiribaya Alta and El Yaral. These new data demonstrate that seasonal variability in the consumption of marine products and C₄ plants such as maize was quite high for some individuals buried at Chiribaya-affiliated sites. In addition to elucidating the complex patterns of Chiribaya seasonality, this study contributes to the growing body of knowledge of archaeological analyses of human hair for paleodiet.     

Confocal laser scanning microscopy: a flexible tool for simultaneous polarization and three-dimensional fluorescence imaging of archaeological compact bone

Wide-field polarized light and epifluorescence microscopy have been used to enhance analysis of archaeological bone tissue, providing information on bone formation, modeling, pathology, preservation, age estimation, and biomechanics. Though valuable, these techniques are limited by their inability to remove out-of-focus light and view multiple levels of a sample, restricting our understanding of the three-dimensional (3-D) microarchitecture of compact bone. Modern technological advances, such as microscopic computerized tomography, allow increasing resolution in 3-D bone imaging, but do not allow fluorescence labeling or polarized-light analysis. Confocal laser scanning microscopy (CLSM) is a valuable tool for 3-D histology. However, its application to the study of compact bone is lacking, especially in archaeological and forensic sciences. The current study investigated CLSM as a tool for fluorescence and polarized-light microscopy of archaeological compact bone in order to demonstrate its advantages. Standard techniques and CLSM are compared in their suitability for imaging well preserved archaeological bones from the Dakhleh Oasis, Egypt. CLSM's high resolution, multi-channel, two- and three-dimensional capabilities augment the flexibility and creativity of compact bone imaging and have the potential to increase the accuracy of quantitative medical and anthropological histomorphometric techniques. CLSM is specifically suggested as a useful tool for the investigation of ancient bone fluorescence caused by the presence of tetracycline and/or other fluorochromes.     

First Evidence Of The Use Of Freshwater Pearls As A Cosmetic In Ancient China: Analysis Of White Makeup Powder From A Northern Song Dynasty Lv Tomb (Lantian,Shaanxi Province,China)

The Lv family tombs in Lantian, Shaanxi Province are one of the most important archaeological sites of China in recent years, providing numerous objects and a wealth of information for the study of the history of the Northern Song dynasty. There were a large number of exquisite cultural relics unearthed from the tombs, including one porcelain box containing white powder, which was identified as women's makeup. The phase composition, microstructure, thermal properties and characteristics of the trace elements in the unearthed white cosmetic powder were comprehensively analysed by X‐ray diffraction (XRD), scanning electron microscopy (SEM), differential scanning calorimetry – thermogravimetry (DSC–TG), Fourier transform infrared (FT–IR) microscopy and inductively coupled plasma atomic emission spectroscopy (ICP–AES). The white makeup powder was determined to be a product made from high‐quality freshwater pearls. These results, for the first time, showed evidence that freshwater pearl powder was used as a cosmetic in ancient China using archaeological objects, providing scientific evidence and new clues to enrich and expand research into the ancient Chinese cosmetic materials.     

An Unusual Erosive Arthropathy from Medieval England

In palaeopathology, diagnosis of skeletal disease is classically made with reference to changes wrought by known diseases in modern or recent cases. This report presents a skeleton from medieval England which shows a form of erosive arthropathy. A more precise diagnosis is problematic because the alterations appear inconsistent with any of the principle forms of erosive arthropathy in current clinical classification. The distribution of lesions in the axial and appendicular skeleton resembles that in seronegative spondyloarthropathies. The nature of the lesions however, which are almost entirely lytic and concentrated principally at synovial articulations rather than entheses, is inconsistent with seronegative spondyloarthropathies and is more consistent with pathophysiology of rheumatoid arthritis. These observations raise the possibility that the manifestations of erosive arthropathies may have altered over time and/or that our clinical understanding of the skeletal distribution of lesions in these diseases may be incomplete. These scenarios would have profound implications for our ability to identify the various forms of erosive arthritis in archaeological populations, but further work investigating erosive arthritis in patients, together with systematic studies of skeletal cases, would be required before firm conclusions can be made. Copyright © 2016 John Wiley & Sons, Ltd.     

Decorated prehistoric pottery from Castello di Annone (Piedmont,Italy): archaeometric study and pilot comparison with coeval analogous finds

Prehistoric pottery decorated with incisions or impressions filled with white and seldom coloured inlays is well documented in the archaeological literature, but the related in-depth archaeometric studies are sporadic. 43 decorated ceramic shards, dating from the Neolithic to the Bronze Age, and an Iron Age fibula from the archaeological site of Castello di Annone (Piedmont, North-Western Italy) were analysed with FTIR, Raman and XRPD for characterization of the ornamental pigments forming these inlays. Few white components were used as fillers, namely talc and bone ash (hydroxyapatite – Bone White), often as a mixture and seldom accompanied by other pigments (i.e. kaolinite and presumably secondary calcite). Comparison with freshly-heated biogenic hydroxyapatite proved that ancient Bone White pigment was calcined at about 900 °C. Such a process was kept separate from pottery firing as these white mixtures show absence of talc degradation by-products and sporadic presence of kaolinite, implying these ceramics were decorated only after firing in furnace. Actual presence of fluorapatite in bone ash could allow dating with the Fluorine Method, but lack of fluorine detection with SEM-EDS causes such an attempt to be impracticable so far. A pilot comparative study with a restricted but representative group (11) of coeval finds from other sites of Piedmont suggests that while recurrence of talc prevails in Castello di Annone from the Neolithic throughout the Bronze age, massive use of bone ash (Bone White) becomes widespread in the close Iron Age settlements, possibly consequent to a more efficient handling of its production technology.     

Histological identification of bone fragments in archaeology: telling humans apart from horses and cattle

In archaeology, it is not always possible to identify bone fragments. A novel approach was chosen to assess the potential of histology as an identification tool in those instances in which macroscopical study (e.g. by means of bone surface texture) has failed. This study concentrated on the diaphyses of long bones in three species of comparable size which are relevant to archaeology. Late juvenile and adult human diaphyseal bone structure was compared with the bone structure of horses and cattle. Since bone structure can differ even within a single bone, the restrictions in terms of bone category, bone part and species were deemed necessary for the development of a useful identification method for archaeological bone. The reference series comprised long bones from several individuals to broaden the insight into variations in diaphyseal bone structure within a single species. A general difference in the primary bone types was found between humans and the two large mammals. Human bone displayed lamellar bone types, whereas horses and cattle showed fibrous bone types. The only exceptions were separated growth layers. A difference in the secondary bone structure was also observed. A large number of connecting, primary (Volkmann's) canals, giving the secondary bone a reticular aspect, were common in horses and cattle. They were not, however, present in the human bones studied. To confirm the validity and applicability of these differences, a blind test was conducted on 15 diaphyseal fragments of identified long bones from archaeological sites. The results were very promising. Although four fragments could not be identified due to severe degradation, all the others were correctly attributed. Copyright © 2006 John Wiley & Sons, Ltd.     

Comparing the survival of osteocalcin and mtDNA in archaeological bone from four European sites

The small mineral-binding bone protein, osteocalcin, has been applied in a number of studies on ancient bone due to predictions of its long-term stability. However, the intact protein has not been shown to survive in ancient bone devoid of DNA, which is a much more phylogenetically informative biomolecule. In this investigation, the survival of osteocalcin is directly compared to the amplification of mtDNA in a set of 34 archaeological samples from four sites throughout Europe. We also present unpublished osteocalcin sequences of seven mammalian species in addition to the 19 published sequences to highlight phylogenetic limitations of this protein. The results indicate that the intact osteocalcin molecule survives less in archaeological samples than mtDNA and is more subject to the temperature of the archaeological site. Amino acid analyses show the persistence of the dominant protein collagen in samples that failed both osteocalcin and mtDNA analyses. The implications these findings present for biomolecular species identification in archaeological and palaeontological material are that, although proteins do survive beyond ancient DNA, osteocalcin does not appear to be the most ideal target.