Cortical bone distribution in the femoral neck of hominoids: Implications for the locomotion of Australopithecus afarensis

Cortical bone distribution in the femoral neck of hominoids: Implications for the locomotion of Australopithecus afarensis

Contiguous high resolution computed tomography images were obtained at a 1.5 mm slice thickness perpendicular to the neck axis from the base of the femoral head to the trochanteric line in a sample of 10 specimens each of Homo sapiens, Pan troglodytes, and Gorilla gorilla, plus five specimens of Pan...

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Bibliographic Details
Published in:American journal of physical anthropology Vol. 104; no. 1; pp. 117 - 131
Main Authors: Ohman, James C., Krochta, Todd J., Lovejoy, C. Owen, Mensforth, Robert P., Latimer, Bruce
Format: Journal Article
Language:English
Published: New York Wiley Subscription Services, Inc., A Wiley Company 01-09-1997
Wiley-Liss
Subjects:
Animals
Anthropological methods
Anthropology, Physical
Australopithecines
Australopithecus afarensis
Biomechanical Phenomena
computed tomography
Femur Neck - anatomy & histology
Femur Neck - diagnostic imaging
Fossils
functional morphology
Gorilla gorilla - anatomy & histology
hominid locomotion
Hominidae - anatomy & histology
Hominids
Human paleontology
Humans
Locomotion
Methodology and general studies
Osteology
Pan troglodytes - anatomy & histology
Physical anthropology
Prehistory and protohistory
Tomography, X-Ray Computed
Hominoïds
Bipedalism
Australopithecus afarensis
Human palaeontology
Anthropology
Homo sapiens
Hominid
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Summary:Contiguous high resolution computed tomography images were obtained at a 1.5 mm slice thickness perpendicular to the neck axis from the base of the femoral head to the trochanteric line in a sample of 10 specimens each of Homo sapiens, Pan troglodytes, and Gorilla gorilla, plus five specimens of Pan paniscus. Superior, inferior, anterior, and posterior cortical thicknesses were automatically measured directly from these digital images. Throughout the femoral neck H. sapiens displays thin superior cortical bone and inferior cortical bone that thickens distally. In marked contrast, cortical bone in the femoral neck of African apes is more uniformly thick in all directions, with even greater thickening of the superior cortical bone distally. Because the femoral neck acts as a cantilevered beam, its anchorage at the neck‐shaft junction is subjected to the highest bending stresses and is the most biomechanically relevant region to inspect for response to strain. As evinced by A.L. 128‐1, A.L. 211‐1 and MAK‐VP‐1/1, Australopithecus afarensis is indistinguishable from H. sapiens, but markedly different from African apes in cortical bone distribution at the femoral neck‐shaft junction. Cortical distribution in the African ape indicates much greater variation in loading conditions consistent with their more varied locomotor repertoire. Cortical distribution in hominids is a response to the more stereotypic loading pattern imposed by habitual bipedality, and thin superior cortex in A. afarensis confirms the absence of a significant arboreal component in its locomotor repertoire. Am J Phys Anthropol 104:117–131, 1997. © 1997 Wiley‐Liss, Inc.
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ISSN:0002-9483
1096-8644
DOI:10.1002/(SICI)1096-8644(199709)104:1<117::AID-AJPA8>3.0.CO;2-O