The relationship between bipedalism and growth: A metric assessment in a documented modern skeletal collection (Certosa Collection, Bologna, Italy)

Pietrobelli, Annalisa; Marchi, Damiano; Belcastro, Maria Giovanna

doi:10.1002/ajpa.24440

Cited by 4 publications

(6 citation statements)

References 123 publications

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“…According to our results, fibulae of males possess larger linear dimensions than females, due to a generally larger body size (regardless of body mass), possibly due to a relatively longer pubertal growth period, and the subsequent development of larger bones and muscles under the influence of sex genes, sex steroids (androgens and estrogens), and other hormones, such as growth hormone (GF) and insulin-like growth factor 1 (IGF1) which, concurring with mechanical loading, may further contribute to the development of skeletal sexual dimorphism [80][81][82]. Indeed, bone growth is differentiated between sex groups, mostly evident during puberty but to a lesser extent also apparent in early childhood [83][84][85], and this concurs with the observed greater cortical bone plasticity in males, modelled by greater muscle mass during ontogeny, determining greater long bone lengths and breadths, also already observed for the fibula in a similar sample [86]. During puberty, males develop higher peak bone mass, greater bone size, and, ultimately, a stronger skeleton than females [87,88], with different skeletal maturation timing for both fibular extremities according to sex [55].…”

Section: Discussionsupporting

confidence: 69%

Sexual Dimorphism in the Fibular Extremities of Italians and South Africans of Identified Modern Human Skeletal Collections: A Geometric Morphometric Approach

Pietrobelli

Sorrentino²,

Durante³

et al. 2022

Biology

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Fibular metric variations have revealed their potential in distinguishing between males and females; however the fibula remains scarcely analyzed in studies of sexual dimorphism. This work aims at investigating sexually dimorphic features in fibular proximal and distal epiphyses through geometric morphometrics methods. A total of 136 left fibulae, from two Italian and one South African identified skeletal collections were virtually acquired through CT and laser scanning and analyzed using geometric morphometric methods. Statistical analyses were performed on shape, form, and size variables. Results show that fibular epiphyses are smaller with narrower articular surfaces in females than in males in both extremities. Relevant sexual differences emerge in fibular form and size for the two Italian samples but not for the South African one, likely for its small sample size. Discriminant analysis on form principal components (PCs) offers accuracy above 80% when the samples are pooled, and reaches accuracy of 80–93% when the Italian samples are considered separately. However, our method on form PCs was not successful for the South African sample (50–53% accuracy), possibly due to the small sample size. These results show relevant morphological variation in relation to fibular form and size, with a degree of accuracy that indicates the utility of the present method for sexing human fibulae in both forensic and bioarchaeological contexts for Italian samples.

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Section: Discussionsupporting

confidence: 69%

Sexual Dimorphism in the Fibular Extremities of Italians and South Africans of Identified Modern Human Skeletal Collections: A Geometric Morphometric Approach

Pietrobelli

Sorrentino²,

Durante³

et al. 2022

Biology

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“…Age class 2 (1–5.9 years): Bipedal locomotion is present but still immature (toddling). This is therefore a long transitory phase that goes from a rudimental and still dependent locomotion to a mature gait (Adolph et al., 2003; Cowgill et al., 2010; Forssberg, 1985; Hallemans et al., 2003, 2004, 2006a, 2006b; Ivanenko et al., 2004; McGraw, 1940; Pietrobelli, Marchi, & Belcastro, 2022; Swan et al., 2020; Zeininger et al., 2018). Age class 3 (6–10.9 years), 4 (11–15.9 years), 5 (16–20.9 years), 6 (21–25.9 years), 7 (26–30 years): Even though from the age of 6, a bipedal gait is already completely acquired, the remaining individuals have also been divided into quinquennial classes (except for the last one which covers 4 years) to identify any possible morphological changes in entheses in relation to bone lengthening (classes 3–5) and entheseal “settlement” once the definitive stature has been reached (classes 6–7).…”

Section: Methodsmentioning

confidence: 99%

“…Our work is aimed at investigating the entheseal morphometric variability of the femoral insertion of gluteus maximus (hereinafter "GM") and tibial origin of soleus (hereinafter "SOL") muscles (already studied in the Neanderthal samples) in juvenile individuals in relation to age, sex and locomotor pattern during growth, adding new insights on the biological and biomechanical aspects of bipedalism, from an ontogenetic and evolutionary point of view, already explored in our research group also with other approaches (Sorrentino et al, 2020a, 2020b, 2020c, Figus et al, 2022Pietrobelli et al, 2022aPietrobelli et al, , 2022bPietrobelli et al, , 2023Colombo et al, 2019). In detail, we developed a recording standard method to better classify the entheseal (continuous) variability into discrete classes and verify its applicability in response to the locomotor pattern (detailed below).…”

Section: Introductionmentioning

confidence: 99%

Entheseal variation and locomotor behavior during growth

Mameli,

Pietrobelli,

Sorrentino

et al. 2024

Journal of Anatomy

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Entheses are acknowledged as skeletal markers capable of revealing several biological and behavioral aspects of past individuals and populations. However, entheseal changes (ECs) of juvenile individuals have not yet been studied with a systematic approach. This contribution aims at investigating the morphological changes occurring at the femoral insertion of the gluteus maximus and tibial origin of the soleus muscles to highlight a potential link between the morphological features of those entheses and skeletal maturity in relation to sex, age, and locomotor developmental patterns. The sample consisted of 119 skeletons (age‐at‐death: 0–30 years) belonging to the Documented Human Skeletal Collection of the Certosa Cemetery (Bologna, Italy). The entheseal variation during the last stages of skeletal maturation in young adults was assessed using existing recording standards. A recording protocol for each enthesis was developed for immature individuals to subdivide the morphological variability into discrete categories. Univariate, bivariate, and multivariate statistical analyses were performed to investigate the variation of entheseal morphologies and measurements in relation to bone metrics, degree of epiphyseal closure, sex, age, and locomotor developmental patterns. A statistically significant relationship was observed between ECs morphological patterns and age for both entheses, while sexual differences were negligible. A relationship between ECs morphological pattern and locomotor milestones emerged only for the gluteus maximus. Even though further testing is needed on other documented skeletal collections, our protocol could be usefully applied in forensic and archaeological fields and serving as important reference for evolutionary investigations.

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“…These collections have been the subject of a large body of research focused on various topics. The latter include methodological studies focused on estimation of age-at-death and attribution of sex [47][48][49][50][51][52][53][54][55][56][57][58][59][60][61], the study of entheseal changes in modern humans [62][63][64][65][66][67], and the discussion of their variability among extinct taxa [1][2][3][4]. Additional topics of investigation have been the various expression and demographic distribution of skeletal morphological variants and pathological changes [68][69][70][71], as well as dental and palate traits [72][73][74][75][76].…”

Section: Scientific Osteological Collections and Their Utilitymentioning

confidence: 99%

“…Similarly, anthropological methods of forensic relevance are continuously being developed and implemented on the DHOC of the University of Bologna. Age estimation methods built upon biological data of the osteological collections encompass a technique based on the observations of the timing of fusion of secondary ossification centers of the postcranium [47,48,51,54,55], morphological aspects of the os coxae [52,53], and dental features such as the pulp/tooth ratio among canine teeth [49,50] for adults, while diaphyseal linear growth was documented for the leg in subadults [61]. Sex attribution methods were developed with the aid of three-dimensional morphometrics considering the adult morphology of the human cranium and ankle [56,57,80,81,84].…”

Section: Forensic Purposes In the Use Of Human Osteological Collectionsmentioning

confidence: 99%

Scientific and Ethical Aspects of Identified Skeletal Series: The Case of the Documented Human Osteological Collections of the University of Bologna (Northern Italy)

et al. 2022

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Osteological collections are an essential source of information on human biological and cultural variability, providing insights about developmental, evolutionary, and biocultural processes. Among osteological series, documented human osteological collections (DHOC) are especially useful due to the opportunity to control biological parameters such as age-at-death and sex, which are typically unknown in archaeological or forensic cases. Raising ethical concerns about the collection, management, and study of human remains poses anthropologists with renewed responsibilities. These issues become especially pressing when dealing with DHOC. In this contribution, we discuss the scientific value and ethical issues characterizing DHOC using as case study the documented human osteological collections of the University of Bologna. This series includes more than 1000 individuals from Northern Italian and Sardinian cemeteries and is among the largest in Europe. It represents the basis for ongoing research on a large range of methodological studies, especially focused on the reconstruction of biological profile. After outlining the scientific studies performed on this DHOC, we discuss it in the context of the specific legislation featuring the Italian territory. Finally, we highlight some directions where work can be carried out to better balance scientific research, preservation needs, and ethical concerns, stressing the advantages of modern imaging techniques.

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The relationship between bipedalism and growth: A metric assessment in a documented modern skeletal collection (Certosa Collection, Bologna, Italy)

Cited by 4 publications

References 123 publications

Sexual Dimorphism in the Fibular Extremities of Italians and South Africans of Identified Modern Human Skeletal Collections: A Geometric Morphometric Approach

Sexual Dimorphism in the Fibular Extremities of Italians and South Africans of Identified Modern Human Skeletal Collections: A Geometric Morphometric Approach

Entheseal variation and locomotor behavior during growth

Scientific and Ethical Aspects of Identified Skeletal Series: The Case of the Documented Human Osteological Collections of the University of Bologna (Northern Italy)

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