Visualising vascular adaptation at the micro-scale in humans. The project aims to investigate fundamental issues in the mechanisms underlying vascular remodelling. It plans to develop novel optical scanning techniques to acquire high-resolution images of the cutaneous microvasculature, alongside absolute blood flow quantification. These novel tools would allow us to visualise and quantify functional and structural adaptations in the microvasculature in response to physiological stimuli such as h ....Visualising vascular adaptation at the micro-scale in humans. The project aims to investigate fundamental issues in the mechanisms underlying vascular remodelling. It plans to develop novel optical scanning techniques to acquire high-resolution images of the cutaneous microvasculature, alongside absolute blood flow quantification. These novel tools would allow us to visualise and quantify functional and structural adaptations in the microvasculature in response to physiological stimuli such as heat exposure and exercise. The non-invasive tool aims to enable us to assess adaptations in microvasculature health, improving our understanding of cardiovascular diseases and type 2 diabetes and potentially reducing the impact of costly and debilitating morbidities such as nephropathy, neuropathy, retinopathy, impotence and skin ulceration.Read moreRead less
Defining the direct effects of exercise on arterial adaptation. Understanding the mechanisms responsible for the beneficial effects of exercise is fundamental to optimising the design of preventative programs aimed at healthy ageing. These experiments will contribute to our understanding of the direct effects of changes in blood flow and pressure during exercise on vascular adaptations in humans.
Impact of shear stress on vascular adaptations in humans. Large arteries are important for the delivery of blood and oxygen to organs such as the heart and brain. A primary physiological stimulus which controls the size and function of these crucial arteries is the magnitude of flow or, more accurately, shear force that the inner wall of the artery is exposed to. We have developed novel software which enables non-invasive assessment of arterial wall velocity, diameter and blood flow. We will ass ....Impact of shear stress on vascular adaptations in humans. Large arteries are important for the delivery of blood and oxygen to organs such as the heart and brain. A primary physiological stimulus which controls the size and function of these crucial arteries is the magnitude of flow or, more accurately, shear force that the inner wall of the artery is exposed to. We have developed novel software which enables non-invasive assessment of arterial wall velocity, diameter and blood flow. We will assess the impact of acute and chronic changes in wall flow and shear on arterial size and function. We will also develop new software which measures other aspects of artery wall behaviour. These basic human physiology studies have direct implications for assessment of artery health in humans.Read moreRead less
Enhancing Clinical Management Of Paediatric Malaria In Endemic Areas With Transmission Of Multiple Plasmodium Species
Funder
National Health and Medical Research Council
Funding Amount
$867,511.00
Summary
Malaria remains a major problem for children in developing countries especially where different types of the disease are common. This set of complementary studies, based at an established research site in PNG aims to develop new treatment strategies for childhood malaria. A novel method of giving medicine via a spray under the tongue for sick children before arrival at hospital and modified dosing schedules of an old drug used for treating parasites hidden in the liver will be studied.
Smoking Cessation For Youth Project Booster And Cohort Tracking Study
Funder
National Health and Medical Research Council
Funding Amount
$135,550.00
Summary
Adolescence is a critical period for the establishment of adult drug use behaviours. If smoking does not commence in teenage years it is unlikely to occur. This innovative project not only continues to address tobacco control with this important age group but also builds on evidence from a randomised intervention trial involving over 4,000 Year 9 students tracked over two years. This project was called the Smoking Cessation for Youth Project (SCYP). Preliminary longitudinal analyses of the SCYP ....Adolescence is a critical period for the establishment of adult drug use behaviours. If smoking does not commence in teenage years it is unlikely to occur. This innovative project not only continues to address tobacco control with this important age group but also builds on evidence from a randomised intervention trial involving over 4,000 Year 9 students tracked over two years. This project was called the Smoking Cessation for Youth Project (SCYP). Preliminary longitudinal analyses of the SCYP data indicate that the intervention students were significantly less likely to smoke heavily (smoking five or more days per week) than the control group and that intervention students were also significantly less likely to have tried smoking than the control group. These results represent a world first in evidence that population-based smoking cessation interventions among teenagers can be successful. The proposed project will determine the extent to which these positive intervention effects are sustainable, two years post intervention, as our cohort moves into Year 12. In addition to tracking the possible decay of SCYP intervention effects, the proposed project will also measure the effects of a booster intervention delivered students when they are in Year 12 (2002). The Year 12 intervention will comprise an innovative self-help 'magazine style' booster and a supportive environmental intervention involving school nurses and local GPs. This proposal represents a cost-effective opportunity to measure the effectiveness of a Year 12 tobacco cessation booster intervention. Further data on tobacco smoking behaviour in 2002 will also enable us to determine how long the SCYP intervention appears to affect behaviour and whether 'boosters' are needed in later secondary school years to maintain the benefits.Read moreRead less
Modelling and estimation methods for discrete multi-dimensional systems. Multi-dimensional signal processing plays a role in a variety of application areas, ranging from remote sensing for environmental monitoring and geological mapping, to medical imaging and the automatic control of industrial processes. The success of the project will provide mathematical tools for the advancement of the state-of-the-art in these broad areas.
Discovering how termites use vibrations to thrive in a predators' world. Our recent research revealed termites use vibrations to avoid predators/competitors for survival. However, the enabling mechanisms of this amazing ability remain unknown. The project aims at unlocking the secrets of these mechanisms by relating the mechanical properties of termite, legs, antennae and sensing organs (measured with advanced micro measurement techniques) to vibration signatures of ants and termites (extracted ....Discovering how termites use vibrations to thrive in a predators' world. Our recent research revealed termites use vibrations to avoid predators/competitors for survival. However, the enabling mechanisms of this amazing ability remain unknown. The project aims at unlocking the secrets of these mechanisms by relating the mechanical properties of termite, legs, antennae and sensing organs (measured with advanced micro measurement techniques) to vibration signatures of ants and termites (extracted using innovative signal processing techniques and nonlinear dynamics). We will develop novel bio-dynamics models that incorporate machine learning. We will test the models’ ability to manipulate termites foraging behaviour, with the ultimate objective of developing chemical-free, vibration-based pest control devices. Read moreRead less
Developing a wildlife health intelligence and vaccine distribution system. This project aims to establish an industry-linked pipeline for vaccines to be delivered to animals in edible baits and a near real-time monitoring system for assessing the impact of management actions. This project will develop ultrasensitive diagnostic tests and incorporate biomarkers into baits from Australia's leading pest animal control company. Bait uptake and disease status in the field will be monitored using artif ....Developing a wildlife health intelligence and vaccine distribution system. This project aims to establish an industry-linked pipeline for vaccines to be delivered to animals in edible baits and a near real-time monitoring system for assessing the impact of management actions. This project will develop ultrasensitive diagnostic tests and incorporate biomarkers into baits from Australia's leading pest animal control company. Bait uptake and disease status in the field will be monitored using artificial intelligence technology developed in Tasmania. This integrated wildlife health intelligence and scalable vaccine platform can help protect the iconic Tasmanian devil from disease and increase Australia's preparedness for looming threats to the livestock industry such as African swine fever.Read moreRead less
Coordination control of underactuated ocean vehicles for ocean forecasting. Australia is surrounded by oceans. Ocean forecasting is essential for effective and efficient operations on and within the ocean for a number of applications such as coastal zone management, military operations and scientific research. The successful completion of this project promises to put Australia in a leading position in this area. Due to the multi-disciplinary nature of this project, the project development will a ....Coordination control of underactuated ocean vehicles for ocean forecasting. Australia is surrounded by oceans. Ocean forecasting is essential for effective and efficient operations on and within the ocean for a number of applications such as coastal zone management, military operations and scientific research. The successful completion of this project promises to put Australia in a leading position in this area. Due to the multi-disciplinary nature of this project, the project development will also stimulate the development in many other areas such as new ocean vehicles, sensors and actuators, electronics and control.Read moreRead less