Nov 2022
Read our interview in The Strait Times in Singapore.
Read Our Research Publications
View our papers on QUT ePrints. Please contact us if you are unable to access them.
Predicting spinal column profile from surface topography via 3D non-contact surface scanning.
Rayward, Lionel, Pearcy, Mark, Izatt, Maree, Green, Daniel, Labrom, Robert, Askin, Geoffrey, Little, J. Paige (2023) Predicting spinal column profile from surface topography via 3D non-contact surface scanning. PLoS ONE, 18 (3), pp.Article number: e0282634.
citations on Web of Science
citations on Scopus
Engineering the perfect mattress: The influence of substrate mechanics on deep tissue stresses in supine
Rayward, Lionel, Pearcy, Mark, Kerr, Graham, Pivonka, Peter, Little, J. Paige (2023) Engineering the perfect mattress: The influence of substrate mechanics on deep tissue stresses in supine. Clinical Biomechanics, 110, pp.Article number: 106130.
- citations on Scopus
Patient-Customized Theatre Mattress Supports for Spinal Surgery: A Pilot Study Presenting a Novel Engineering Virtual Design and Manufacturing Technique.
Little, J. Paige, Green, Daniel, Izatt, Maree T., Moloney, Gregory, Askin, Geoffrey N. (2022) Patient-Customized Theatre Mattress Supports for Spinal Surgery: A Pilot Study Presenting a Novel Engineering Virtual Design and Manufacturing Technique. Journal of Medical Devices, 16 (2), pp.Article number: 025001.
- citations on Web of Science
- citations on Scopus
Actigraphy vs Polysomnography Measurements for Sleep Arousals
Little, J Paige, Ho, Selina, Rayward, Lionel, Uhrle, Glenice, Green, Daniel, Pearcy, Mark (2022) Actigraphy vs Polysomnography measurements for sleep arousals. In Ahram, Tareq, Falcao, Christianne (Eds.), Human Factors and Wearable Technologies: Proceedings of the 13th AHFE International Conference on Human Factors and Wearable Technologies, Open Access Science in Human Factors Engineering and Human-Centered Computing, pp.36-44.
A subject-specific FEM to predict deep tissue mechanical stresses when supine: Development of efficient contact interfaces using Shared Topology
Rayward, Lionel, Little, J. Paige (2022) A subject-specific FEM to predict deep tissue mechanical stresses when supine: Development of efficient contact interfaces using Shared Topology. Journal of Biomechanics, 137, pp.Article number: 111085.
- 1 citations on Web of Science
- 1 citations on Scopus
A subject-specific FEM to predict deep tissue mechanical stresses when lying: A preliminary study of sensitivity to substrate stiffness
Rayward, Lionel, Pivonka, Peter, Pearcy, Mark, Kerr, Graham, Little, J Paige (2021) A subject-specific FEM to predict deep tissue mechanical stresses when lying: A preliminary study of sensitivity to substrate stiffness. International Symposium on Computer Methods in Biomechanics and Biomedical Engineering: and 5th Conference on Imaging and Visualization, (17th), p.18.
Predicting spinal profile using 3D non-contact surface scanning: Changes in surface topography as a predictor of internal spinal alignment
Little, Paige, Rayward, Lionel, Pearcy, Mark, Izatt, Maree, Green, Daniel, Labrom, Robert, Askin, Geoffrey (2019) Predicting spinal profile using 3D non-contact surface scanning: Changes in surface topography as a predictor of internal spinal alignment. PLoS One, 14 (9), pp.Article number: e02224531-15.
- 6 citations on Web of Science
- 8 citations on Scopus
Determining a reliably visible and inexpensive surface fiducial marker for use in MRI: a research study in a busy Australian Radiology Department
Izatt, Maree, Lees, Deborah, Mills, Susan, Grant, Caroline, Little, Paige (2019) Determining a reliably visible and inexpensive surface fiducial marker for use in MRI: a research study in a busy Australian Radiology Department. BMJ Open, 9 (8), pp.Article number: e0270201-10.
- 6 citations on Web of Science
- 7 citations on Scopus