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The earliest evidence for anatomically modern humans in northwestern Europe (2011)
Journal Article
Higham, T., Compton, T., Stringer, C., Jacobi, R., Shapiro, B., Trinkaus, E., Chandler, B., Gröning, F., Collins, C., Hillson, S., O’Higgins, P., FitzGerald, C., & Fagan, M. (2011). The earliest evidence for anatomically modern humans in northwestern Europe. Nature, 479(7374), 521-524. https://doi.org/10.1038/nature10484

The earliest anatomically modern humans in Europe are thought to have appeared around 43,000-42,000 calendar years before present (43-42 kyr cal BP), by association with Aurignacian sites and lithic assemblages assumed to have been made by modern hum... Read More about The earliest evidence for anatomically modern humans in northwestern Europe.

Finite element modelling of squirrel, guinea pig and rat skulls: using geometric morphometrics to assess sensitivity. (2011)
Journal Article
Cox, P. G., Fagan, M. J., Rayfield, E. J., & Jeffery, N. (2011). Finite element modelling of squirrel, guinea pig and rat skulls: using geometric morphometrics to assess sensitivity. Journal of anatomy, 219(6), 696-709. https://doi.org/10.1111/j.1469-7580.2011.01436.x

Rodents are defined by a uniquely specialized dentition and a highly complex arrangement of jaw-closing muscles. Finite element analysis (FEA) is an ideal technique to investigate the biomechanical implications of these specializations, but it is ess... Read More about Finite element modelling of squirrel, guinea pig and rat skulls: using geometric morphometrics to assess sensitivity..

The effects of the periodontal ligament on mandibular stiffness: a study combining finite element analysis and geometric morphometrics (2011)
Journal Article
Gröning, F., Fagan, M. J., & O'Higgins, P. (2011). The effects of the periodontal ligament on mandibular stiffness: a study combining finite element analysis and geometric morphometrics. Journal of biomechanics, 44(7), 1304-1312. https://doi.org/10.1016/j.jbiomech.2011.01.008

It is generally accepted that the periodontal ligament (PDL) plays a crucial role in transferring occlusal forces from the teeth to the alveolar bone. Studies using finite element analysis (FEA) have helped to better understand this role and show tha... Read More about The effects of the periodontal ligament on mandibular stiffness: a study combining finite element analysis and geometric morphometrics.

A single-channel telemetric intramedullary nail for in vivo measurement of fracture healing (2009)
Journal Article
Wilson, D. J., Morgan, R. L., Hesselden, K. L., Dodd, J. R., Janna, S. W., & Fagan, M. J. (2009). A single-channel telemetric intramedullary nail for in vivo measurement of fracture healing. Journal of orthopaedic trauma, 23(10), 702-709. https://doi.org/10.1097/bot.0b013e3181b01c49

Objective: The objective of this study was to develop a single-channel telemetric intramedullary nail that measures anterior-posterior bending strains and determine whether these forces decrease sigmoidally when normalized to the ground reaction forc... Read More about A single-channel telemetric intramedullary nail for in vivo measurement of fracture healing.

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.

Development of an artificial intervertebral disc for laboratory test spine (2001)
Presentation / Conference Contribution
Fagan, M., Gillespie, P., Julian, S., Siddall, D., & Mohsen, A. Development of an artificial intervertebral disc for laboratory test spine

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.