I am a neuropharmacologist and a neuroanatomist who is involved in utilising a multidisciplinary approach to investigate the functional role of metalloproteinases in the brain.
I am a neuroscientist employing strategies of anatomy, biochemistry, pharmacology, genetics and behavioural analysis to examine the physiological and possible pathological roles of newly discovered neuropeptides and their cognate receptors in mammalian brain. My recent research has focused on the highly-conserved, abundant peptide, relaxin-3 that was discovered at the HFI in 2002. Studies so far have revealed that relaxin-3 is a powerful modulator of rhythmic brain activity (theta) and spatial m ....I am a neuroscientist employing strategies of anatomy, biochemistry, pharmacology, genetics and behavioural analysis to examine the physiological and possible pathological roles of newly discovered neuropeptides and their cognate receptors in mammalian brain. My recent research has focused on the highly-conserved, abundant peptide, relaxin-3 that was discovered at the HFI in 2002. Studies so far have revealed that relaxin-3 is a powerful modulator of rhythmic brain activity (theta) and spatial memory, and alters feeding, body weight and arousal. Relaxin-3 levels in brain are also strongly activated by acute stress. In the future, I aim to elucidate further the role of relaxin-3 systems in normal physiology and metabolic and-or psychiatric diseases.Read moreRead less
I am a clinician-scientist performing laboratory and clinic-based research aimed at improving our understanding of disease pathogenesis, and translating this to optimise treatments that protect the optic nerve and prevent vision loss in glaucoma
Prof Paxinos ‘s work is involved in understanding brain organisation and function through the fusion of the fields of molecular genetics, comparative and developmental neuroanatomy and Neuro informatics