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Rigid-body analysis of a lizard skull: modelling the skull of Uromastyx hardwickii (2008)
Journal Article
Moazen, M., Curtis, N., Evans, S. E., O'Higgins, P., & Fagan, M. J. (2008). Rigid-body analysis of a lizard skull: modelling the skull of Uromastyx hardwickii. Journal of biomechanics, 41(6), 1274-1280. https://doi.org/10.1016/j.jbiomech.2008.01.012

Lizard skulls vary greatly in their detailed morphology. Theoretical models and practical studies have posited a definite relationship between skull morphology and bite performance, but this can be difficult to demonstrate in vivo. Computer modelling... Read More about Rigid-body analysis of a lizard skull: modelling the skull of Uromastyx hardwickii.

Accurate quantification of the influence of benthic macro- and meio-fauna on the geometric properties of estuarine muds by micro computer tomography (2007)
Journal Article
Mazik, K., Curtis, N., Fagan, M. J., Taft, S., & Elliott, M. (2008). Accurate quantification of the influence of benthic macro- and meio-fauna on the geometric properties of estuarine muds by micro computer tomography. Journal of experimental marine biology and ecology, 354(2), 192-201. https://doi.org/10.1016/j.jembe.2007.11.006

This paper describes the novel application of high resolution micro computer tomography (microCT) to the quantification of the properties of marine biogenic structures. CT scanning has been used to examine sediments in the past but the resolution of... Read More about Accurate quantification of the influence of benthic macro- and meio-fauna on the geometric properties of estuarine muds by micro computer tomography.

Development of a (silent) speech recognition system for patients following laryngectomy (2007)
Journal Article
Fagan, M. J., Ell, S. R., Gilbert, J. M., Sarrazin, E., & Chapman, P. M. (2008). Development of a (silent) speech recognition system for patients following laryngectomy. Medical engineering & physics, 30(4), 419-425. https://doi.org/10.1016/j.medengphy.2007.05.003

Surgical voice restoration post-laryngectomy has a number of limitations and drawbacks. The present gold standard involves the use of a tracheo-oesophageal fistula (TOF) valve to divert air from the lungs into the throat, which vibrates, and from thi... Read More about Development of a (silent) speech recognition system for patients following laryngectomy.

Assessing mechanical function of the zygomatic region in macaques: validation and sensitivity testing of finite element models (2006)
Journal Article
Kupczik, K., Dobson, C. A., Fagan, M. J., Crompton, R. H., Oxnard, C. E., & O'Higgins, P. (2007). Assessing mechanical function of the zygomatic region in macaques: validation and sensitivity testing of finite element models. Journal of anatomy, 210(1), 41-53. https://doi.org/10.1111/j.1469-7580.2006.00662.x

Crucial to the interpretation of the results of any finite element analysis of a skeletal system is a test of the validity of the results and an assessment of the sensitivity of the model parameters. We have therefore developed finite element models... Read More about Assessing mechanical function of the zygomatic region in macaques: validation and sensitivity testing of finite element models.

Three dimensional stereolithography models of cancellous bone structures from μCT data: Testing and validation of finite element results (2006)
Journal Article
Dobson, C. A., Sisias, G., Phillips, R., Langton, C. M., & Fagan, M. J. (2006). Three dimensional stereolithography models of cancellous bone structures from μCT data: Testing and validation of finite element results. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 220(3), 481-484. https://doi.org/10.1243/09544119H00405

Stereolithography (STL) models of complex cancellous bone structures have been produced from three-dimensional micro-computed tomography data sets of human cancellous bone histological samples from four skeletal sites. The STL models have been mechan... Read More about Three dimensional stereolithography models of cancellous bone structures from μCT data: Testing and validation of finite element results.

Patient-specific spine models. Part 1: Finite element analysis of the lumbar intervertebral disc—a material sensitivity study (2002)
Journal Article
Fagan, M. J., Julian, S., Siddall, D. J., & Mohsen, A. M. (2002). Patient-specific spine models. Part 1: Finite element analysis of the lumbar intervertebral disc—a material sensitivity study. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 216(5), 299-314. https://doi.org/10.1243/09544110260216577

If patient-specific finite element models of the spine could be developed, they would offer enormous opportunities in the diagnosis and management of back problems. Several generic models have been developed in the past, but there has been very littl... Read More about Patient-specific spine models. Part 1: Finite element analysis of the lumbar intervertebral disc—a material sensitivity study.

Algorithms for accurate rapid prototyping replication of cancellous bone voxel maps (2002)
Journal Article
Sisias, G., Phillips, R., Dobson, C., Fagan, M., & Langton, C. (2002). Algorithms for accurate rapid prototyping replication of cancellous bone voxel maps. Rapid Prototyping Journal, 8(1), 6-24. https://doi.org/10.1108/13552540210413266

A set of algorithms has been developed and evaluated for 3D and 21/2D rapid prototyping replication of 3D reconstructions of cancellous bone samples. The algorithms replicate a voxel map without any loss of fidelity, so as to increase the validity of... Read More about Algorithms for accurate rapid prototyping replication of cancellous bone voxel maps.

Smoothing of pixelated finite element models of cancellous bone structures and the effect on the predicted structural properties of the bone (2002)
Journal Article
Dobson, C. A., Sisias, G., Phillips, R., Langton, C. M., & Fagan, M. J. (2002). Smoothing of pixelated finite element models of cancellous bone structures and the effect on the predicted structural properties of the bone. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 216(2), 145-149. https://doi.org/10.1243/0954411021536360

Many areas of biomedical engineering involve the modelling of biological systems, often using data from medical scanning techniques such as computed microtomography (μCT), and the prediction of the mechanical properties of these systems via finite el... Read More about Smoothing of pixelated finite element models of cancellous bone structures and the effect on the predicted structural properties of the bone.

Development of an artificial intervertebral disc for laboratory test spine (2001)
Journal Article
Fagan, M., Gillespie, P., Julian, S., Siddall, D., & Mohsen, A. (2001). Development of an artificial intervertebral disc for laboratory test spine. Journal of biomechanics, 34(Supplement 1), S59 - S60. https://doi.org/10.1016/S0021-9290%2801%2900129-4

A patient-specific finite element model of the spine is currently beingdeveloped to aid the surgeon in the diagnosis and clinical managementof spinal conditions1. To validate the application of the computermodel, a laboratory validation spine is bein... Read More about Development of an artificial intervertebral disc for laboratory test spine.

Stochastically simulated assessment of anabolic treatment following varying degrees of cancellous bone resorption (2000)
Journal Article
Langton, C., Haire, T., Ganney, P., Dobson, C., Fagan, M., Sisias, G., & Phillips, R. (2000). Stochastically simulated assessment of anabolic treatment following varying degrees of cancellous bone resorption. Bone, 27(1), 111-118. https://doi.org/10.1016/s8756-3282%2800%2900290-8

The aim of this study was to investigate the recovery in cancellous bone stiffness resulting from anabolic treatment following varying degrees of resorption, using a stochastic simulation applied to a simplistic structure consisting of five vertical... Read More about Stochastically simulated assessment of anabolic treatment following varying degrees of cancellous bone resorption.