CELLULAR MECHANISMS OF TRAUMATIC BRAIN INJURY & CONCUSSION
With
Professor Melinda (Lindy) Fitzgerald, Deputy Vice Chancellor, Research & Professor of Neurotrauma, Curtin University, Western Australia John Curtin Distinguished Professor & CEO Connectivity Traumatic Brain Injury Australia
RESEARCHER PROFILE
Filmed in Perth, Western Australia | February 2026
Professor Melinda Fitzgerald is Deputy Vice Chancellor, Research at Curtin University, John Curtin Distinguished Professor and CEO of Connectivity Traumatic Brain Injury Australia.
She has published over 135 papers; recent highlights include Lancet Neurology, J Neuroscience, Nature Nano, ACS Nano, Biomaterials. Currently held grants/Projects total $10.1 million; CIA for $5.2 million of these; $18.5 million total research and equipment funding, $9.9 million as CIA; continuous category 1 grant funding as CIA since 2009.
Prof Fitzgerald was Ministerially appointed and re-appointed as Chair and Co-Chair of the Expert Working Group of the Federal Government MRFF Mission for TBI, 2019 and 2024 ($50m over 10 years).
Prof Fitzgerald is a Member of the Executive Committee for International TBI Research (InTBIR2) and Co-Chair of the InTBIR2 Working Group on Observational and Comparative Effectiveness Studies.
She has supervised more than 35 Honours students or equivalent, 20 PhD students (14 completions), and 12 post-doctoral researchers (5 currently); of whom 3 are Group Leaders and 15 are developing independent scientific and research careers.
As CEO of Connectivity Traumatic Brain Injury Australia, Prof Fitzgerald has led dissemination of best practice knowledge to the community. Connectivity’s work on raising awareness of traumatic brain injury has been viewed more than 6.93 million times, including 255,000 individual users of the website and more than 641,000 views on YouTube, accessing research-informed, best practice evidence-based information about concussion and more severe traumatic brain injury, including 110,000 views of our Aboriginal and Torres Strait Islander prevention campaign. Provision of concussion online short courses, currently more than 20,000 completions.
Source: Supplied
Arranged by: Curtin Medical Research Institute
https://orcid.org/0000-0002-4823-8179
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CASE STUDY Link between levels of extracellular vesicles in the blood and tissue damage caused by diseases
A landmark study led by WEHI and La Trobe University has found a potential new diagnostic marker that could be used to better detect the level of tissue damage in our bodies.
This study revealed, for the first time, a link between levels of EVs in the blood and tissue damage caused by diseases such as leukaemia.
Researchers hope to leverage the critical new insight to develop a blood test to monitor cancer patients with tissue damage, which could, in future, enhance treatment strategies for blood cancers and other diseases.
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Systems genetics to determine risk of developing diabetes complications
Professor Morahan invented the term “Systems Genetics” for the science field that examines how genetic variants can affect whole networks of genes and whole systems; there are now several laboratories and institutes of systems genetics around the world. He also developed the next-generation genetic resource, The Gene Mine, the most powerful of its type in the world, used globally in rapid mapping and identification of genes. Collaborators nationally and internationally have tested The Gene Mine for traits and diseases in which they specialise.
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Clinical guidelines for diagnostics and early intervention in Primary Aldosteronism
Primary Aldosteronism (PA), or Conn Syndrome, is the most commonly under-diagnosed cause of high blood pressure affecting millions of people. Associate Professor Jun Yang’s goal is to facilitate the diagnosis of every case of PA and make treatment widely available to all communities including the disadvantaged.
