J
Justyna J. Miszkiewicz
Researcher at Australian National University
Publications - 51
Citations - 618
Justyna J. Miszkiewicz is an academic researcher from Australian National University. The author has contributed to research in topics: Osteon & Cortical bone. The author has an hindex of 11, co-authored 44 publications receiving 432 citations. Previous affiliations of Justyna J. Miszkiewicz include Florida State University College of Arts and Sciences & Imperial College London.
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Bone deep: variation in stable isotope ratios and histomorphometric measurements of bone remodelling within adult humans
TL;DR: The results suggest that the occipital bone, with its slow rate of bone renewal, may prove useful for isotopic studies that reconstruct diet over longer periods of time within an individual's lifetime.
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Linear Enamel Hypoplasia and Age‐at‐Death at Medieval (11th–16th Centuries) St. Gregory's Priory and Cemetery, Canterbury, UK
TL;DR: In this paper, the authors examined linear enamel hypoplasia (LEH) in the context of age-at-death in human burials from the medieval St Gregory's Priory and adjacent cemetery (11th-16th) centuries, in Canterbury, UK.
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Ancient Human Bone Microstructure in Medieval England: Comparisons between Two Socio-Economic Groups.
TL;DR: Results demonstrate that aspects of ancient human lifestyle can be inferred from bone microstructure, consistent with historical textual evidence that describes differences in mechanical loading and nutrition between the two groups.
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Deciduous enamel 3D microwear texture analysis as an indicator of childhood diet in medieval Canterbury, England
Patrick Mahoney,Christopher W. Schmidt,Chris Deter,Ashley Remy,Philip Slavin,Sarah E. Johns,Justyna J. Miszkiewicz,Pia Nystrom +7 more
TL;DR: It is concluded that microwear texture analyses can provide a non-destructive tool for revealing subtle aspects of childhood diet in the past, and that weaning had already commenced in the youngest children.
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Investigating histomorphometric relationships at the human femoral midshaft in a biomechanical context
TL;DR: Findings suggest that an increased rate of bone remodelling is associated with a decrease in geometrical properties of osteons, and an increased density of osteocyte lacunae and osteons indicates the involvement of bone maintenance cells in remodelling potentially induced by mechanical stimuli.