The emerging interdisciplinary field, mechanobiology, is focused on understanding how cells sense their surroundings and transfer biomechanical signals to initiate cellular changes. I aim to develop hydrogel platforms with differential stiffness patterns to study cellular mechanotransduction and to generate heart muscle cells. The findings have the potential to greatly improve the clinical outcomes where more than 10 clinical trials failed to show successful regeneration after heart attack.
Understanding The Mechanisms Underlying Airway Remodelling
Funder
National Health and Medical Research Council
Funding Amount
$451,716.00
Summary
Changes in the structure of the lung contribute to the development of disease, but are not responsive to our current therapies. I have found two key structural proteins that are altered in asthma. This research will characterise the regulation and role of these proteins in the disease process. In addition, it will determine if these proteins also contribute to the development of other serious fibrotic diseases, for which there are no current treatments.