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Dr Hannah Radley

Senior Lecturer
Diagnostic and Therapeutic Sciences

"From an early stage, I was fascinated by human biology and the intricate ways our bodies function. Inspired by an exceptional mentor, I pursued a PhD in muscular dystrophy, which deepened my interest in muscle disorders and the impact of ageing on muscle health."
 


About

Dr Hannah Radley is a biomedical scientist whose research focuses on skeletal muscle health, ageing, and regeneration, with the goal of improving wellbeing across the lifespan.

Her research has been supported by multiple JAIN Foundation (USA) grants, including projects investigating immune disturbances in dysferlinopathy and the mechanistic basis of muscle degeneration and repair (2021–2023, totalling over $300,000). Dr Radley is also committed to advancing anatomy education, leading several teaching innovation grants at Curtin University. These include projects developing immersive 3D anatomy learning platforms and integrating Generative AI into novel online anatomy tools (2020–2024, totalling over $35,000).

As Director of Learning and Teaching (BLMP) and Chair of the Board of Examiners (Biomedical Science) at the Curtin Medical School, Dr Radley coordinates and teaches key units in human anatomy, physiology, and reproductive science, sharing her passion for human biology and inspiring future health professionals through innovative, evidence-based teaching.

 
  • 2024. Radley H, Titmus M, Miranda A, Whittaker G, Ellery P, de Oliveira BIR. GenAI in a novel online Anatomy Viewer. Curtin Medical School. $5,000.
  • 2022. de Oliveira BIR, Titmus M, Whittaker G, Miranda A, Ellery P, Radley H, Radunski M, Ng L. Anatomy Viewer: Guided Lessons and Automated Self-Testing. Curtin Uni. CSAH Research Grant. $6,000.
  • 2021. de Oliveira BIR, Titmus M, Whittaker G, Miranda A, Ellery P, Radley H, Radunski M. From the dissection lab to anywhere: Developing an online 3D anatomy digital library to replicate the wet laboratory experience. Curtin Academy Grant. $15,000.
  • JAIN Foundation (USA). 2023. Extending insight into immune disturbances in dysferlinopathy: implications for mechanistic basis of pathogenesis and targeted therapies. Jackaman C, Radley HG, Grounds M. $148,000.
  • JAIN Foundation (USA) 2021. Jackaman C, Radley HG, Grounds MD. Systematic analysis of immune cell populations in muscles and tissues throughout the lifespan of dysferlin-deficient BLAJ mice. $159,000.
  • Dementia Australia Research Foundation. 2019-2020. Dr Connie Jackaman, Dr HG Radley, Dr D Dye, Dr G Verdille. Investigating the impact of age-related inflammation on the brain in the elderly. $75,000.
  • NHMRC New Investigator Grant 2016 - 2019. Dr Connie Jackaman, Dr Hannah Radley-Crabb, Dr Danielle Dye. Reprogramming macrophage function in the elderly to rescue impaired inflammatory responses to muscle injury. $410,983.
  • 2020. Titmus M, Whittaker G, Ellery P, de Oliveira BIR, Radley H, Radunski M. From the dissection lab to anywhere. Curtin Uni. EMCA Research Grant. $10,015.

Email: Hannah.Radley@curtin.edu.au
Tel: +61 (08) 9266 9694
ORCID
Curtin Staff Profile

Publications

ABSTRACT

Design thinking (DT) is a five-stage process (empathize, define, ideate, prototype, and test) that guides the creation of user-centered solutions to complex problems. DT is in common use outside of science but has rarely been applied to anatomical education. The use of DT in this study identified the need for flexible access to anatomical specimens outside of the anatomy laboratory and guided the creation of a digital library of three-dimensional (3D) anatomical specimens (3D Anatomy Viewer). To test whether the resource was fit for purpose, a mixed-methods student evaluation was undertaken. Student surveys (n = 46) were employed using the system usability scale (SUS) and an unvalidated acceptability questionnaire. These verified that 3D Anatomy Viewer was usable (SUS of 72%) and acceptable (agreement range of 77%–93% on all Likert-type survey statements, Cronbach's alpha = 0.929). Supplementary interviews (n = 5) were analyzed through content analysis and revealed three main themes: (1) a credible online supplementary learning resource; (2) learning anatomy with 3D realism and interactivity; (3) user recommendations for expanding the number of anatomical models, test questions, and gamification elements. These data demonstrate that a DT framework can be successfully applied to anatomical education for creation of a practical learning resource. Anatomy educators should consider employing a DT framework where student-centered solutions to learner needs are required.

Titmus, M., B. I. R. de Oliveira, P. Ellery, G. Whittaker, H. Radley, M. Radunski, L. Ng, P. Helmholz, and Z. Sun. 2025. Using design thinking to create and implement a 3D digital library of anatomical specimens.Clinical Anatomy 38 (4): 419-431.

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