Development of an electrode for stimulation of a transplanted neosphincter. This project aims to develop a novel electrode as an integral component of a new treatment for severe stress urinary incontinence. Treatments for severe stress urinary incontinence are associated with complications and are not completely effective. The new electrode is designed to be activated by an implanted stimulator to control an innervated smooth muscle graft (the neosphincter) to regulate the flow of urine from the ....Development of an electrode for stimulation of a transplanted neosphincter. This project aims to develop a novel electrode as an integral component of a new treatment for severe stress urinary incontinence. Treatments for severe stress urinary incontinence are associated with complications and are not completely effective. The new electrode is designed to be activated by an implanted stimulator to control an innervated smooth muscle graft (the neosphincter) to regulate the flow of urine from the bladder. Project research into the design of the electrode will focus on providing safe, effective and efficient stimulation of the neosphincter, while ensuring minimal damage to the surrounding tissues and affording straightforward implantation at surgery.Read moreRead less
Development of an electrode assembly for the stimulation of a transplanted innervated smooth muscle sphincter. This project will design and assess a number of different electrode designs for use in a medical device being developed for the treatment of severe stress urinary incontinence. The project will identify an optimal electrode design, which will be used in future clinical trials of the device.
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