Co-designing Innovations in Digital Storytelling with Older Adults. This project aims to investigate how emerging technologies can be leveraged to provide innovative ways for older adults to create and share their life stories to foster social wellbeing. Later life can be a time of considerable change, leaving people feeling disconnected from the people, places, and life events that are important to them. Autobiographical storytelling can help create links with one's past, but little is known ab ....Co-designing Innovations in Digital Storytelling with Older Adults. This project aims to investigate how emerging technologies can be leveraged to provide innovative ways for older adults to create and share their life stories to foster social wellbeing. Later life can be a time of considerable change, leaving people feeling disconnected from the people, places, and life events that are important to them. Autobiographical storytelling can help create links with one's past, but little is known about how technologies such as digital games and virtual reality can be used to enable older adults to share stories about their lives in a way that supports ongoing social interactions. This project is expected to co-design new forms of digital storytelling to improve social wellbeing of older adults. Read moreRead less
Designing distanced intergenerational interaction with tangible technology. Older people and their young relatives/grandchildren who are geographically distanced cannot currently experience closeness in tangible ways, which are the natural ways they would play and build relationships in “real” life. Enabling this connection would have positive impacts for both groups, and two types of technologies – Mixed Reality and Tangibles - can be explored to allow us to understand how to do this. We will d ....Designing distanced intergenerational interaction with tangible technology. Older people and their young relatives/grandchildren who are geographically distanced cannot currently experience closeness in tangible ways, which are the natural ways they would play and build relationships in “real” life. Enabling this connection would have positive impacts for both groups, and two types of technologies – Mixed Reality and Tangibles - can be explored to allow us to understand how to do this. We will develop approaches to distanced tangible intergenerational interaction which are designed specifically to increase intergenerational closeness and to be innovative and subtle so that they fit seamlessly into the lives of older people and young children.Read moreRead less
(Re)Designing Digital Justice. This project aims to address the challenge of (re)designing novel online court systems by introducing a human-centred design process to the legal process. This project will generate fundamental new knowledge in respect of how to effectively design an inclusive justice system, bridging the gap between the legal system and human-computer interaction. Expected outcomes include how to use technology to implement a more just, efficient, and fair legal system, which is a ....(Re)Designing Digital Justice. This project aims to address the challenge of (re)designing novel online court systems by introducing a human-centred design process to the legal process. This project will generate fundamental new knowledge in respect of how to effectively design an inclusive justice system, bridging the gap between the legal system and human-computer interaction. Expected outcomes include how to use technology to implement a more just, efficient, and fair legal system, which is accessible to all Australians. This should provide significant benefits for both Australian society and the legal system.Read moreRead less
Microtubule structure in nervous system repair. This Project aims to investigate the role of structural and functional cellular components known as microtubules in nervous system regeneration. This Project aims to use innovative approaches in confocal and electron microscopy, genetics, and cell biology, with the expectation of generating new knowledge into nervous system repair. Expected outcomes of this Project include a comprehensive description of how microtubules are rearranged following ner ....Microtubule structure in nervous system repair. This Project aims to investigate the role of structural and functional cellular components known as microtubules in nervous system regeneration. This Project aims to use innovative approaches in confocal and electron microscopy, genetics, and cell biology, with the expectation of generating new knowledge into nervous system repair. Expected outcomes of this Project include a comprehensive description of how microtubules are rearranged following nervous system injury and the importance of microtubule modifying proteins in promoting regeneration. This should provide significant benefits in our understanding of the cellular mechanisms behind nervous system repair, and offer new approaches for promoting regeneration after injury.Read moreRead less
Molecular determinants of an allergic response. Some humans develop allergies after exposure to environmental allergens while others do not. At present, the reason for this individual variation is not known. By comparing the processes activated in allergic versus non-allergic individuals, this study will identify critical molecules involved in making individuals susceptible to allergies, which will be used to develop safer and more effective allergy vaccines.
The molecular basis of T cell receptor cross-reactivity between MHC and MR1. This project aims to investigate how newly discovered immune cells, known as 'MR1T' cells, function in the body. Preliminary evidence shows that MR1T cells can kill stressed cells. This project expects to generate new knowledge describing precisely how MR1T cells target and kill stressed cells. Expected outcomes of this project include to refine research techniques and models, foster interinstitutional collaborations, a ....The molecular basis of T cell receptor cross-reactivity between MHC and MR1. This project aims to investigate how newly discovered immune cells, known as 'MR1T' cells, function in the body. Preliminary evidence shows that MR1T cells can kill stressed cells. This project expects to generate new knowledge describing precisely how MR1T cells target and kill stressed cells. Expected outcomes of this project include to refine research techniques and models, foster interinstitutional collaborations, and further develop our theory on MR1T cell function. This project should provide significant benefits, such as publication of research articles in high impact journals and generation of experimental tools sought after by researchers in the field.Read moreRead less
Deciphering the immune complexity that orchestrates T cell activation. The adaptive immune system consists of a complex cellular network that can efficiently distinguish exogenous required inputs, such as nutrients, from those that are potentially harmful like pathogens. Such ‘friend-foe’ discrimination has its molecular basis in a multitude of receptors with specificity to certain ligands. Critically, however, it is unclear how such discrimination is mechanistically regulated at the functional ....Deciphering the immune complexity that orchestrates T cell activation. The adaptive immune system consists of a complex cellular network that can efficiently distinguish exogenous required inputs, such as nutrients, from those that are potentially harmful like pathogens. Such ‘friend-foe’ discrimination has its molecular basis in a multitude of receptors with specificity to certain ligands. Critically, however, it is unclear how such discrimination is mechanistically regulated at the functional level. We have developed new and sophisticated experimental models that will allow us to systematically dissect and unfold the complexity of the adaptive immune system and address this critical knowledge gap. Expected outcomes will critically advance our general understanding of a fundamental biological principle.Read moreRead less
Whole-body analysis of human tissue-resident memory T cells. T cells provide critical immune protection against infection and cancer, and dysfunctional T cells cause autoimmune disease. Much of our understanding of T cells comes from studies of mice and how these immune cells work in humans is not fully understood. This project aims to determine how human T cells persist and function using a unique organ donor tissue resource. The expected outcomes are to generate fundamental new knowledge about ....Whole-body analysis of human tissue-resident memory T cells. T cells provide critical immune protection against infection and cancer, and dysfunctional T cells cause autoimmune disease. Much of our understanding of T cells comes from studies of mice and how these immune cells work in humans is not fully understood. This project aims to determine how human T cells persist and function using a unique organ donor tissue resource. The expected outcomes are to generate fundamental new knowledge about the regulation of the human immune response. This knowledge is critical for the development of vaccines and immunotherapies designed to harness T cell immunity.Read moreRead less
Improving neuronal cell function with cell permeable copper complexes. Metal-based drugs offer an exciting new approach to treatment of neurodegeneration. However, little is known about how cells metabolise these drugs and this information is critical for further drug development. This project will determine how metal-based drugs are metabolised by neuronal cells and how this may result in therapeutic benefit.
Understanding the design of exertion games to address Australia's obesity issue. In the face of an obesity epidemic, Australians have turned to physical computer games to address their weight issues. This research provides the first understanding of the role of the design of these games in motivating players to play harder, longer and more often, resulting in recommendations how to use and design games for health.