Unravelling the brain circuits linking emotions and heart rate variability. We are all familiar with the rapid breathing and heart pounding that occurs when we are frightened. Is the feeling of panic because we sense our heart pounding, or does our heart pound because we panic? This age-old question has resisted attempts to understand its neurobiological basis. This project aims to address this lack of knowledge using novel cutting-edge neuroscience methods that enable mapping of connected brain ....Unravelling the brain circuits linking emotions and heart rate variability. We are all familiar with the rapid breathing and heart pounding that occurs when we are frightened. Is the feeling of panic because we sense our heart pounding, or does our heart pound because we panic? This age-old question has resisted attempts to understand its neurobiological basis. This project aims to address this lack of knowledge using novel cutting-edge neuroscience methods that enable mapping of connected brain pathways and the ability to change the activity of specific brain cells with millisecond time resolution. The project will identify, and functionally characterise, the link between the heart and emotions, to gain new insights into the interaction between the autonomic nervous system and disordered emotional regulation.Read moreRead less
Periodontal disease is an inflammatory disorder leading to tooth loosening and, if untreated, tooth loss. Once bone destruction has occurred around teeth the treatment outcomes are severely compromised and are mainly focussed towards slowing the process of destruction rather than repairing the damage. Over the last decade, treatment of advanced periodontal disease has focussed on ways in which the damaged tissues may be regenerated. We now have gained considerable insight into the molecular and ....Periodontal disease is an inflammatory disorder leading to tooth loosening and, if untreated, tooth loss. Once bone destruction has occurred around teeth the treatment outcomes are severely compromised and are mainly focussed towards slowing the process of destruction rather than repairing the damage. Over the last decade, treatment of advanced periodontal disease has focussed on ways in which the damaged tissues may be regenerated. We now have gained considerable insight into the molecular and cellular events associated with periodontal regeneration. Despite efforts to induce regeneration through the selective use of growth and differentiation factors it is becoming obvious that the most significant factor in successful clinical outcomes is the recruitment of special cells to the site of damage which have the potential to repair tissue damage. Thus, we intend to engineer different types of periodontal matrices in the laboratory and then transplant these newly formed tissues into sites affected by periodontal disease in an attempt to repair the damage caused by the disease process.Read moreRead less