Dr Elyse Passmore
Dr Elyse Passmore
Dr Elyse Passmore is the Head Biomedical Engineer of the Gait Analysis Laboratory at The Royal Children's Hospital Melbourne (RCH) and a Clinician Scientist Fellow in the Developmental Imaging Group at Murdoch Children’s Research Institute (MCRI).
Elyse completed her PhD in 2017 at the University of Melbourne on musculoskeletal biomechanics in children with gait pathology. Her research focusses on developing digital tools to objectively measure and analyse motor function in children to provide diagnostic information, develop treatment plans and evaluate efficacy of novel therapies.
This includes 3D motion analysis, video images, medical imaging, machine-learning and computational simulations. Elyse is also a Clinical Data Champion in the Centre for Health Analytics, RCH.
Elyse is a Clinical Scientist Fellow generously funded by the Good Friday Appeal.
Elyse completed her PhD in 2017 at the University of Melbourne on musculoskeletal biomechanics in children with gait pathology. Her research focusses on developing digital tools to objectively measure and analyse motor function in children to provide diagnostic information, develop treatment plans and evaluate efficacy of novel therapies.
This includes 3D motion analysis, video images, medical imaging, machine-learning and computational simulations. Elyse is also a Clinical Data Champion in the Centre for Health Analytics, RCH.
Elyse is a Clinical Scientist Fellow generously funded by the Good Friday Appeal.
Dr Elyse Passmore is the Head Biomedical Engineer of the Gait Analysis Laboratory at The Royal Children's Hospital Melbourne (RCH) and a Clinician Scientist Fellow in the Developmental Imaging Group at Murdoch Children’s Research Institute (MCRI).
Dr Elyse Passmore is the Head Biomedical Engineer of the Gait Analysis Laboratory at The Royal Children's Hospital Melbourne (RCH) and a Clinician Scientist Fellow in the Developmental Imaging Group at Murdoch Children’s Research Institute (MCRI).
Elyse completed her PhD in 2017 at the University of Melbourne on musculoskeletal biomechanics in children with gait pathology. Her research focusses on developing digital tools to objectively measure and analyse motor function in children to provide diagnostic information, develop treatment plans and evaluate efficacy of novel therapies.
This includes 3D motion analysis, video images, medical imaging, machine-learning and computational simulations. Elyse is also a Clinical Data Champion in the Centre for Health Analytics, RCH.
Elyse is a Clinical Scientist Fellow generously funded by the Good Friday Appeal.
Elyse completed her PhD in 2017 at the University of Melbourne on musculoskeletal biomechanics in children with gait pathology. Her research focusses on developing digital tools to objectively measure and analyse motor function in children to provide diagnostic information, develop treatment plans and evaluate efficacy of novel therapies.
This includes 3D motion analysis, video images, medical imaging, machine-learning and computational simulations. Elyse is also a Clinical Data Champion in the Centre for Health Analytics, RCH.
Elyse is a Clinical Scientist Fellow generously funded by the Good Friday Appeal.
Top Publications
- Passmore, E, Kwong, A, Olsen, J, Eeles, A, Cheong, J, Spittle, A, Ball, G. Deep learning for automated pose estimation of infants at home from smart phone videos. Gait & Posture 81: 261 -262 2020 view publication
- Passmore, E, Graham, HK, Pandy, MG, Sangeux, M. Hip- and patellofemoral-joint loading during gait are increased in children with idiopathic torsional deformities.. Gait Posture 63: 228 -235 2018 view publication
- Yavari, M, Passmore, E, Rutz, E, Thomason, P, Ackland, DC. A data-driven modeling approach to prediction of persistent foot drop after gastroc-soleus lengthening surgery in children with cerebral palsy.. Gait Posture 124: 110010 2026 view publication
- Passmore, E, Graham, H, Sangeux, M. Static optimization underestimates co-activation during gait in patients with and without neuromuscular impairment. 2026 view publication
- Passmore, E, Pandy, M, Graham, H, Sangeux, M. Do lower-limb torsional deformities have similar effects on muscle and joint function during gait in typically-developing children and children with cerebral palsy. 2026 view publication
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