Professor Heidi Johansen-Berg
Wellcome Centre for Integrative Neuroimaging
Oxford Centre for Functional MRI of the Brain (FMRIB), Nuffield Department of Clinical Neurosciences
Abstract
Animal studies show that the adult brain shows remarkable plasticity in response to learning or recovery from injury. Non-invasive brain聽imaging聽techniques can be used to detect systems-level structural and functional plasticity in the human brain. This talk will focus on how brain聽imaging聽has allowed us to monitor healthy brains learning new motor skills, to assess how brains recover after damage, such as stroke, and how they adapt to change, such as limb amputation.
Although聽imaging聽is useful to detect such adaptations, many brain聽imaging聽measures are non-specific and do not allow us to pinpoint the underlying cellular changes that are driving observed effects. The talk will also discuss studies in animal models in which both聽imaging聽and histological approaches can be used to shed light on the underlying biological drivers for structural plasticity detected using MRI.
Finally, the talk will discuss how brain stimulation can be used to manipulate brain remodelling. 聽For example, using transcranial direct current stimulation (tDCS) to the motor cortex we can speed people鹿s learning of a new task, alter their brain chemistry, or improve function in stroke patients. FMRI identifies changes in cortical activity that may mediate these functional benefits. In future,聽imaging聽could be used to guide individually targeted brain stimulation to enhance adaptive brain plasticity
Bio
Professor Johansen-Berg heads the Plasticity Group at the Oxford Centre for Functional MRI of the Brain (FMRIB).聽 Our research focuses on how the brain changes with learning, experience, and damage.聽 As well as shedding light on how the healthy brain responds to change, our work also has implications for understanding and treating disease. For example, we are testing new methods for rehabilitation after stroke and we are assessing whether taking up exercise could slow the effects of age on the brain