Deer antlers are deciduous bony structures that develop from permanent frontal outgrowths, the pedicles. While growth and bone architecture of antlers have been studied in greater detail, information on pedicle formation and structure is scarce. The present study provides information on the structure of pedicle and hard antler bone in the European roe deer. A pronounced seasonal variation in pedicle architecture was observed, with high porosity around antler casting and a very compact bone structure during the hard antler stage. These observations suggest a corresponding marked variation also in the biomechanical properties of the pedicles. The seasonally alternating extensive resorption and formation processes make the pedicles of older deer heavily remodeled structures. Pedicles increase in thickness by apposition of primary bone that subsequently becomes replaced by secondary osteons. The antler cortex of roe deer is largely composed of a tubular framework of woven bone trabeculae with some remnants of mineralized cartilage, and primary osteons that have filled in the intertrabecular spaces. Secondary osteons are scarce, denoting little remodeling in antlers, which can be related to their short lifespan. The occurrence of cement lines around primary osteons indicates resorption on the trabecular scaffold prior to infilling of the intertrabecular spaces. The outer cortex showed a higher autofluorescence and a more immature structure than the main cortex, suggesting that it was secondarily formed by periosteal activity. Pedicles and antlers constitute a functional entity, and future histological and/or biomechanical studies should therefore consider both components of the cranial appendages.
Ear ossicles have thus far received little attention in biological anthropology. For the use of these bones as a source of biological information, it is important to know how reproducibly they can be measured. We determined inter-observer errors for measurements recorded by two observers on mallei (N ¼ 119) and incudes (N ¼ 124) obtained from human skeletons recovered from an early medieval cemetery in southern Germany. Measurements were taken on-screen on images of the bones obtained with a digital microscope. In the case of separately acquired images, mean inter-observer error ranged between 0.50 and 9.59% (average: 2.63%) for malleus measurements and between 0.67 and 7.11% (average: 2.01%) for incus measurements. Coefficients of reliability ranged between 0.72 and 0.99 for the malleus measurements and between 0.61 and 0.98 for those of the incus. Except for one incus measurement, readings performed by the two observers on the same set of photographs produced lower inter-observer errors and higher coefficients of reliability than the method involving separate acquisition of images by the observers. Across all linear measurements, absolute inter-observer error was independent of the mean size of the measured variable for both bones. So far, studies on human ear ossicles have largely neglected the issue of measurement error and its potential implication for the interpretation of the data. Knowledge of measurement error is of special importance if results obtained by different researchers are combined into a single database. It is, therefore, suggested that the reproducibility of measurements should be addressed in all future studies of ear ossicles. Anat Rec, 293:2094Rec, 293: -2106
Mastoiditis is a disease that follows otitis media and may lead to severe endocranial complications. Most studies on mastoiditis and middle ear diseases in archaeological skeletal remains are based on radiological investigations. The following study describes the morphological changes in the pneumatised cells of the mastoid process due to mastoiditis in archaeological skeletal remains, based on macroscopic, endoscopic, light and scanningelectron microscopic investigations. For the purposes of this study, we used an early medieval Frankish population from Dirmstein, State of Rhineland-Palatinate, Germany.
Since antibiotics have become available, mastoiditis has become a rare disease in modern Western societies. However, it is still common in developing countries. It can be hypothesized that in earlier historical and prehistoric times, mastoiditis must have posed a serious threat to people's lives, and that the prevalence of this disease is probably underrepresented in the paleopathological literature. The present study identifies pathological changes in the pneumatized cells of the mastoid process in human skeletal samples from two early medieval cemeteries from Germany (Dirmstein: n = 152 mastoids, Rhens: n = 71 mastoids), using macroscopic, endoscopic, low-power microscopic, scanning-electron and light microscopic techniques, and draws some epidemiological conclusions as to the frequency of the disease diagnosed in the archaeological samples. Osseous changes because of mastoiditis were diagnosed in 83.4% of the temporal bones. The frequency in the skeletal sample from Dirmstein was higher than in the sample from Rhens. In both populations, males were more often affected than females and older individuals more often than younger individuals. The high frequency of mastoiditis observed was most likely due to an accumulation of osseous changes during individual lifetimes and supports the hypothesis that mastoiditis was a serious health problem in pre-antibiotic times. It may be assumed that subclinical forms of mastoiditis and their osseous manifestations may even nowadays occur more often than was previously thought. It is suggested that the disease should be given more consideration in paleopathological investigations.
Mastoid hypocellularity is frequently used as an indicator of chronic otits media in paleopathological investigations. The condition can be caused by a poor development of air cells during infancy and early childhood (primary hypocellularity) or by obliteration of air cells with bone during later life (secondary hypocellularity). We performed a macroscopic, radiographic, and microscopic study of pneumatization patterns in 151 mastoid processes of individuals from an early-medieval cemetery in Germany, with emphasis on the architecture of the nonpneumatized portion of hypocellular mastoid processes. Two types of primary mastoid hypocellularity were distinguished. The first was characterized by a poorly defined boundary between the pneumatized portion and the nonpneumatized portion and a trabecular thickening in the spongy bone of the latter. The second showed a well-defined boundary between the pneumatized portion and the nonpneumatized portion and normal spongy bone architecture in the latter. The key feature for the diagnosis of secondary hypocellularity was the recognition of the walls of former air cells. Our observations closely match the histopathological findings by Wittmaack (Wittmaack: Uber die normale und die pathologische Pneumatisation des Schläfenbeins. Jena: Gustav Fischer [1918]), who developed a concept of the normal pneumatization process of the temporal bone and the pathogenesis of aberrant pneumatization. We agree with Wittmaack's view that two types of primary mastoid hypocellularity can be distinguished morphologically. Regarding the pathogenesis of these types, we, however, conclude that Wittmaack's concept needs to be revised and updated. Further studies are required to establish the relationship between morphological findings in cases of mastoid hypocellularity and the health status of individuals.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.