Data for "Juvenile bovine bone is an appropriate surrogate for normal and reduced density human bone in biomechanical testing"
Juvenile bovine bone has the potential to be a model of normal human bone given its dimensions and comparatively reduced ethical restrictions. Previous studies have shown that demineralisation techniques can reduce bone density and alter bone properties. This project aims to establish and validate juvenile bone as a usable model for biomechanical testing including using demineralisation techniques to model reduced density bone. This data set provides the raw data for the models created. The methodology is described in detail in the related manuscript: Fletcher, J., Williams, S., Whitehouse, M., Gill, H. and Preatoni, E. "Juvenile bovine bone is an appropriate surrogate for normal and reduced density human bone in biomechanical testing: a validation study." Scientific Reports.
Cite this dataset as:
Fletcher, J.,
Williams, S.,
Whitehouse, M.,
Gill, H.,
Preatoni, E.,
2018.
Data for "Juvenile bovine bone is an appropriate surrogate for normal and reduced density human bone in biomechanical testing".
Bath: University of Bath Research Data Archive.
Available from: https://doi.org/10.15125/BATH-00410.
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Data
Database_Scient … (Final).xlsx
application/vnd.openxmlformats-officedocument.spreadsheetml.sheet (62kB)
Creative Commons: Attribution 4.0
Creators
James Fletcher
University of Bath
Sean Williams
University of Bath
Michael Whitehouse
University of Bristol
Harinderjit Gill
University of Bath
Ezio Preatoni
University of Bath
Contributors
University of Bath
Rights Holder
Documentation
Methodology link:
Fletcher, J., Williams, S., Whitehouse, M., Gill, H., and Preatoni, E., 2018. Juvenile bovine bone is an appropriate surrogate for normal and reduced density human bone in biomechanical testing: a validation study. Scientific Reports, 8(1), 1-9. Available from: https://researchportal.bath.ac.uk/en/publications/juvenile-bovine-bone-is-an-appropriate-surrogate-for-normal-and-r.
Documentation Files
ReadmeFile … Database(Final).docx
application/vnd.openxmlformats-officedocument.wordprocessingml.document (21kB)
Methods and database description
Funders
David Telling Charitable Trust
https://doi.org/10.13039/501100020276
Improving Fracture Fixation - The Role of Insertion Forces on Construct Stability
Publication details
Publication date: 5 July 2018
by: University of Bath
Version: 1
DOI: https://doi.org/10.15125/BATH-00410
URL for this record: https://researchdata.bath.ac.uk/id/eprint/410
Related papers and books
Fletcher, J., Whitehouse, M., Gill, H., and Preatoni, E., 2017. Establishing optimum screw tightening to maximise pullout force in fracture fixation. In: 23rd Congress of the European Society of Biomechanics. Available from: https://researchportal.bath.ac.uk/en/publications/establishing-optimum-screw-tightening-to-maximise-pullout-force-i.
MacLeod, A., Polak-Krasna, K., Fletcher, J., Whitehouse, M., Preatoni, E., and Gill, H., 2017. Evaluating the appropriate screw fastening torque in cortical bone - A Validated finite element model. In: 23rd Congress of the European Society of Biomechanics. Available from: https://researchportal.bath.ac.uk/en/publications/evaluating-the-appropriate-screw-fastening-torque-in-cortical-bon.
Fletcher, J., Whitehouse, M., Gill, H., and Preatoni, E., 2017. Establishing and validating an osteoporotic model using bovine tibia. In: 23rd Congress of the European Society of Biomechanics. Available from: https://researchportal.bath.ac.uk/en/publications/establishing-and-validating-an-osteoporotic-model-using-bovine-ti.
Fletcher, J. W. A., Williams, S., Whitehouse, M. R., Gill, H. S., and Preatoni, E., 2018. Juvenile bovine bone is an appropriate surrogate for normal and reduced density human bone in biomechanical testing: a validation study. Scientific Reports, 8(1). Available from: https://doi.org/10.1038/s41598-018-28155-w.
Contact information
Please contact the Research Data Service in the first instance for all matters concerning this item.
Contact person: James Fletcher
Faculty of Engineering & Design
Mechanical Engineering
Faculty of Humanities & Social Sciences
Health
