Taylor Dick

Taylor Dick is a Senior Lecturer in The School of Biomedical Sciences. She was awarded her PhD in 2016 from Simon Fraser University (Vancouver, Canada). Her PhD research, in partnership with the Concord Field Station at Harvard University, focused on developing an experimental and modelling framework to predict in vivo motor function using advanced image-driven musculoskeletal models. Following this, she conducted a Postdoctoral Fellowship in the Joint Department of Biomedical Engineering at North Carolina State University- The University of North Carolina (Chapel Hill) where her research focused on using wearable assistive devices (e.g., exoskeletons and prosthetics) to augment or restore movement-with a particular focus on how devices influence lower limb biomechanics and neuromuscular function. She has implemented innovative imaging approaches to discover how humans recover from unexpected perturbations during movement, which provided critical biological insight for the design of robotic devices capable of assisting movement in real-world environments.

Taylors research team have developed a uniquely integrative and highly translational approach to studying neuromuscular function that combines motion analysis, advanced tissue imaging, and muscuoloskeletal modelling to answer fundamental questions about how movement underpins evolution, health, and disease. Her current research is focused on.

• Exploring the mechanisms of neuromuscular function using both experimental and modelling approaches
• Understanding how the anatomy and biomechanics of the musculoskeletal system adapt to challenges such as size, age, and disease. To do this, her team has developed quantitative imaging technologies to visualize and interrogate the mechanisms that underpin motor function in humans and other animals
• Designing and applying wearable assistive technologies, such as exoskeletons and prosthetics, to enhance performance in healthy individuals or to restore mobility in those with deficits.

Taylor has established herself internationally as an emerging leader in biomechanics research. This reputation is supported by prestigious awards, invited talks and review papers, and media attention. Her research has been funded through competitive grant schemes and industry partnerships, with total research support exceeding $3.6 million. Her contributions to research and mentorship have been recognized with a 2024 Queensland Tall Poppy Award, 2024 International Union of Physiologists Junior Faculty Award; 2024 International Society of Electrophysiology and Kinesiology Kevin P. Granata Award, and the 2021 International Society of Biomechanics Jaquelin Perry Emerging Scientist Award. Taylor has been nominated (2020 and 2021) for the Faculty of Medicine Rising Star of the Year Award. Taylor is an elected Executive Council member of the International Society of Biomechanics (ISB) and the elected Chairperson of the Comparative Neuromuscular Biomechanics Technical group. She is a passionate promotor of STEM for young girls—having co-developed the led a government-funded nationwide program to boost girls’ engagement in STEM, BRInC https://www.canberra.edu.au/about-uc/faculties/health/brinc

She currently advises 12 PhD candidates, 1 Master’s student, and 5 Honours students. She has successfully advised 5 PhD, 2 Master’s and 9 Honours students to completion since commencing her faculty position at UQ in 2017.

For more information about her program of research, visit her lab website: https://biomedical-sciences.uq.edu.au/research/groups/neuromuscular-biomechanics