³Ô¹ÏÍøÕ¾

2024 Australian Mental Health Prize for pioneering Deakin researcher

Deakin

Deakin Distinguished has been named a recipient of the 2024 Australian Mental Health Prize in recognition of his professional innovation in mental health research.

, established in 2016 by the University of New South Wales (UNSW), recognises Australians who have made outstanding contributions to promoting mental health or preventing and treating mental illness. It aims to generate public awareness that will ultimately lead to improvements in treatment, services and individual outcomes.

Director of Deakin University’s Professor Berk is a distinguished mental health researcher whose work has significantly reshaped the treatment landscape of psychiatric disorders in Australia and globally. His early research led to the first randomised controlled trials showing the effectiveness of atypical antipsychotics for bipolar disorder, which are now standard treatments worldwide.

Professor Berk’s team’s work focuses on bridging the gap between research and clinical practice to provide real-world solutions for those suffering from mental health conditions.

‘The key to advancing mental health care lies in bridging the gap between innovative preclinical research and practical clinical applications,’ he says.

Professor Berk has led pioneering studies that have revolutionised the way we treat mental health care disorders. One of his team’s most innovative contributions is using stem cell technology to discover new ways current drugs can be repurposed for different disorders.

By developing a platform with patient-derived stem cells, Professor Berk’s stem cell team, led by IMPACT’s deputy director , can identify existing medications to treat psychiatric disorders, speeding up the development of new treatments. This research is paving the way for new approaches to conditions like schizophrenia and chronic fatigue syndrome.

Specifically, Professor Berk’s team has identified a medication that improves mitochondrial function, initially aimed at bipolar disorder, and now being explored for chronic fatigue syndrome.

‘Our stem cell platform allows us to quickly test and repurpose existing drugs, potentially offering new hope for conditions like bipolar disorder, schizophrenia and chronic fatigue syndrome, where treatment options are limited,’ he says.

‘Stem cell technology offers a revolutionary path to identifying new treatments for complex psychiatric conditions. By using patient-derived stem cells, we can repurpose existing medications, accelerating the development of therapies for mental health conditions and disorders like chronic fatigue syndrome, which currently has no approved medications.’

As a leader in the field, Professor Berk heads major research initiatives, including the (CREDIT) and the (MAGNET), Australia’s first mental health clinical trials network. These platforms facilitate collaboration among researchers and clinicians, ensuring that scientific discoveries are effectively translated into therapies that benefit patients.

Professor Berk’s contributions to mental health research have been recognised with numerous awards and accolades. He is consistently listed as , ranking among the top experts in psychiatry, depression, and bipolar disorders. His accolades include the Brain and Behaviour Foundation (NARSAD) Colvin Award for Mood Disorders, the Victoria Prize for Science and Innovation, and the Royal Australian and New Zealand College of Psychiatrists Senior Research Award.

Creative Commons Statement: The text of this article is licensed under the  license. We’d love for you to share it, so feel free! Please note that images, videos, graphics and logos are not covered by the CC BY license and may not be used without permission from Deakin University or their respective copyright holder. If you have any questions please contact .

Thanks for reading! You can find more stories like this at . We ask that Deakin University and individuals are appropriately credited and that you include links back to this website. Quotes in this article can be extracted for other articles provided individuals are appropriately credited and you include a link back to the article URL.

/University Public Release. View in full .