Haemodynamic investigation of flow diverter stents for the treatment of intracranial aneurysms. This project will explore the engineering of a flow diverter, an endovascular device for the treatment of brain aneurysms. The project will determine the optimal design of new types of flow diverters, which in turn could improve the effectiveness of treatments, thus reducing the associated costs of cerebral haemorrhage and stroke.
Blood pressure control by neural activation: underlying mechanisms of electric field stimulation and photostimulation of genetically targeted neurones. This project aims to understand how nerve stimulation can be used to treat drug-resistant high blood pressure. The project will lead to new benchmarks for interfacing novel technology with the nervous system and to development and enhancement of commercial devices similar to a cardiac pacemaker for patients with limited treatment options and poor ....Blood pressure control by neural activation: underlying mechanisms of electric field stimulation and photostimulation of genetically targeted neurones. This project aims to understand how nerve stimulation can be used to treat drug-resistant high blood pressure. The project will lead to new benchmarks for interfacing novel technology with the nervous system and to development and enhancement of commercial devices similar to a cardiac pacemaker for patients with limited treatment options and poor prognosis.Read moreRead less
Three dimensional (3D) optical coherence tomography in cancer. This project will establish for the first time how well 3D optical coherence tomography, a form of medical imaging, can image cancer. Based on this, a version built into a needle will be developed which will enable extension much deeper into tissues than previously possible to image cancer and to guide related surgical procedures.
High-resolution elastography – Using optical micro-imaging of tissue mechanics to identify disease. Optical elastography, the probing of tissue’s micro-mechanical properties using optical imaging, offers new tools in surgery and pathology to improve differentiation of tissues. This project lays the groundwork for optical elastography to become a new medical micro-imaging modality by removing impediments to progress in this rapidly emerging field. On the micro-scale, between the scales of cells a ....High-resolution elastography – Using optical micro-imaging of tissue mechanics to identify disease. Optical elastography, the probing of tissue’s micro-mechanical properties using optical imaging, offers new tools in surgery and pathology to improve differentiation of tissues. This project lays the groundwork for optical elastography to become a new medical micro-imaging modality by removing impediments to progress in this rapidly emerging field. On the micro-scale, between the scales of cells and organs. This project will elucidate the origins of tissue mechanical contrast and determine limits on its measurement. It will develop a suite of probes: noncontact, endoscopic and needle, to enable access to all tissues in the body. To progress toward a new modality and inform our research, the project will test our tools on breast cancer tissues and burn scars.Read moreRead less