Morphometry of auditory ossicles in medieval human remains from Central Europe.

Human auditory ossicles, the malleus, the incus, and the stapes, are located in the tympanic cavity in the temporal bone and through forming a chain for the sound transmission from the tympanic membrane to the cochlea, they play an important role in the hearing process. Despite their clinical, phylogenetic, and evolutionary significance, the morphometry of the human ear bones has not been examined systematically. The ear ossicles are the smallest bones of the human skeleton, attaining their final size and morphology already at birth. Initially, they have been found to exhibit minimal morphometric variation, but further studies brought the opposite results. The aim of this study was to examine the morphometric variation of human auditory ossicles recovered from medieval and postmedieval subadult skeletons from Poland, Central Europe. The analysis involved in a total of 166 ear bones. Their measurements were performed on microscopic images using CorelDraw x4, according to a protocol of Quam and Rak with modification of Flohr et al. and Wadhwa et al. Our study showed a significant metric variation in the measurements taken at areas of the greatest morphological variability of the ossicles. We found that greater linear dimensions were associated with lower values of angular measurements. These results reveal the inherent variation found in these supposed functionally constrained structures. Representation of even greater number of populations, time periods, and developmental stages are needed. Further study will expand our understanding of the global scope of variation found in ear ossicular morphology and its functional implications for paleoanthropology.

Morfología y morfometría comparada entre los huesecillos auditivos del cerdo común (Sus scrofa domestica) y el Humano (Homo sapiens sapiens) / Comparative study of the morphology between the ossicles of the common pig (Sus scrofa domestica) and human (Homo sapiens sapiens)

El cerdo doméstico (Sus scrofa domestica) ha sido utilizado como modelo para estudiar métodos de implante en el oído medio previo a estudios clínicos humanos. Diferentes investigaciones han destacado la utilidad en este ámbito, como también su alta comparabilidad morfológica en relación con los humanos. Sin embargo, las descripciones anatómicas sobre sus huesecillos auditivos son insuficientes, al igual que las comparaciones en relación con el humano. Por ello, con el objetivo de realizar una descripción detallada de la anatomía de dichos huesecillos comparados con los del humano, se procedió a disecar seis cabezas de cerdo, de las cuales se extrajeron sus huesecillos para observar su morfología. Los resultados preliminares demostraron que la cadena de huesecillos del Cerdo comparte la presencia de las mismas formaciones anatómicas que se pueden identificar en los huesecillos del hombre, pero aún así existen diferencias descriptivas y morfométricas en la morfología de ellas. Los resultados permitieron concluir que existe alta comparabilidad morfológica entre ambas cadenas de huesecillos debido a sus diferencias y similitudes, lo cual lo hace ser un buen modelo didáctico para el estudio y la enseñanza de la morfología auditiva en distintos niveles educacionales.

The domestic Pig (Sus scrofa domestica)has been used as a model to study implants methods in clinical cases of the human middle ear. Different studies have highlighted the usefulness in this area, as well as its high morphological comparability with regard to humans. However, the anatomical descriptions about its ear bones are scarce, as comparisons in relation to the human. Therefore, in order to make a detailed description of the anatomy of these bones compared to human, it was necessary to dissect six pig heads of which its ossicles were removed to observe its morphology. Preliminary results showed that the pig'sossicles share the same anatomical formations that can be identified in the human ones, but there are some descriptive and morphometric differences in its morphology. The results concluded that there is high comparability between both morphological ossicular chains due to their differences and similarities, which makes it a great teaching model for the study and teaching of auditory morphology at different educational levels.

Mammalian development does not recapitulate suspected key transformations in the evolutionary detachment of the mammalian middle ear.

The ectotympanic, malleus and incus of the developing mammalian middle ear (ME) are initially attached to the dentary via Meckel's cartilage, betraying their origins from the primary jaw joint of land vertebrates. This recapitulation has prompted mostly unquantified suggestions that several suspected--but similarly unquantified--key evolutionary transformations leading to the mammalian ME are recapitulated in development, through negative allometry and posterior/medial displacement of ME bones relative to the jaw joint. Here we show, using µCT reconstructions, that neither allometric nor topological change is quantifiable in the pre-detachment ME development of six marsupials and two monotremes. Also, differential ME positioning in the two monotreme species is not recapitulated. This challenges the developmental prerequisites of widely cited evolutionary scenarios of definitive mammalian middle ear (DMME) evolution, highlighting the requirement for further fossil evidence to test these hypotheses. Possible association between rear molar eruption, full ME ossification and ME detachment in marsupials suggests functional divergence between dentary and ME as a trigger for developmental, and possibly also evolutionary, ME detachment. The stable positioning of the dentary and ME supports suggestions that a 'partial mammalian middle ear' as found in many mammaliaforms--probably with a cartilaginous Meckel's cartilage--represents the only developmentally plausible evolutionary DMME precursor.