Data

Time-lapsed microstructural images of human femoral epiphyses loaded to fracture

Flinders University
Martelli, Saulo ; Perilli, Egon
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.4226/86/592680cb25f8b&rft.title=Time-lapsed microstructural images of human femoral epiphyses loaded to fracture&rft.identifier=10.4226/86/592680cb25f8b&rft.publisher=Flinders University&rft.description=The dataset comprises micro-computed-tomography images for 12 entire femoral epiphyses from healthy Caucasian women (56 – 91 years of age) spanning a range of bone quality from osteoporotic (T-score = -4.75) to normal (T-score = 0.77). The time-lapsed images capture the femoral microstructure at a pixel size of 30 μm under progressively increased loadings. Four specimens were progressively loaded up to cause fracture using 4 – 5 intermediate loadings while the remaining eight were imaged under no load and a selected non-destructive loading.&rft.creator=Martelli, Saulo &rft.creator=Perilli, Egon &rft.date=2021&rft.edition=1&rft_rights= https://creativecommons.org/licenses/by-nc/4.0/&rft_subject=Clinical microbiology&rft_subject=Orthopaedics&rft_subject=Medical devices&rft_subject=Femur microstructure&rft_subject=Time-lapse micro-computed-tomography imaging&rft_subject=Bone strength&rft_subject=Hip fracture&rft_subject=Biomechanics&rft_subject=Osteoporosis&rft_subject=Medical Devices&rft.type=dataset&rft.language=English Access the data
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The dataset comprises micro-computed-tomography images for 12 entire femoral epiphyses from healthy Caucasian women (56 – 91 years of age) spanning a range of bone quality from osteoporotic (T-score = -4.75) to normal (T-score = 0.77). The time-lapsed images capture the femoral microstructure at a pixel size of 30 μm under progressively increased loadings. Four specimens were progressively loaded up to cause fracture using 4 – 5 intermediate loadings while the remaining eight were imaged under no load and a selected non-destructive loading.

Issued: 22 10 2021

Created: 22 10 2021

Modified: 31 05 2023

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Subjects
Biomechanics | Bone strength | Clinical microbiology | Femur microstructure | Hip fracture | Medical Devices | Medical devices | Orthopaedics | Osteoporosis | Time-lapse micro-computed-tomography imaging |

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