Theoretical and experimental studies on magnetoelectroelastic bone remodelling process. The project combines biotechnology and material science which will have national economic, social and environment impact. It can benefit industry by providing knowledge that help scientists understand remodeling under coupled fields and is used to develop bone replacement. By better understanding remodeling due to multi-field loading, we can assist scientists in aeronautical industry in developing countermeas ....Theoretical and experimental studies on magnetoelectroelastic bone remodelling process. The project combines biotechnology and material science which will have national economic, social and environment impact. It can benefit industry by providing knowledge that help scientists understand remodeling under coupled fields and is used to develop bone replacement. By better understanding remodeling due to multi-field loading, we can assist scientists in aeronautical industry in developing countermeasures that reduce or eliminate bone loss resulting from long-duration space flight. It can provide knowledge that can be used to explore underlying mechanisms controlling bone remodeling and self-repair in gaining insight into debilitating diseases such as osteoporosis, to develop high-performance prosthetics for medical injury healing.Read moreRead less
Strategies to reduce risk of heat induced illness during intermittent, high intensity activity in a tropical environment. Regular intermittent, high intensity physical activity (IHIA) affords protection against modern life-style diseases (type II diabetes, coronary heart disease and some cancers) but when conducted in the tropics, exposes persons to the risk of dehydration, heat cramps, hypotension, heat syncope, heat exhaustion and heat stroke. Australia has rapid population growth in the tropi ....Strategies to reduce risk of heat induced illness during intermittent, high intensity activity in a tropical environment. Regular intermittent, high intensity physical activity (IHIA) affords protection against modern life-style diseases (type II diabetes, coronary heart disease and some cancers) but when conducted in the tropics, exposes persons to the risk of dehydration, heat cramps, hypotension, heat syncope, heat exhaustion and heat stroke. Australia has rapid population growth in the tropics and key sporting fixtures have moved to the region. We have set up the research capability and must now move on a range of IHIA in sport, workplaces, armed and emergency services to provide strategies to reduce the risk of heat induced illness in a tropical environment.Read moreRead less