The aim of this unit is to provide students with advanced knowledge of functional neuroanatomy and systems neuroscience, and an appreciation that neuroscience is a constantly evolving field. There will be a detailed exploration of the anatomical structures and pathways that underlie sensation and perception in each of the sensory modalities. The neural circuits and mechanisms that control somatic and autonomic motor systems, motivated behaviours, emotions, and other higher order functions will be explored in great detail based on current neuroscience literature. Practical classes will allow students to identify and learn the functions of critical anatomical structures in human brain and spinal cord specimens. Reading and interpreting images from functional and structural brain imaging techniques will be incorporated into the neuroanatomy practical classes, and develop an appreciation of how these technologies can be used in neuroscience research. The Neuroscience in the Media seminars will develop neuroscience literature searching skills as well as developing critical thinking and analysis of the accuracy of the media portrayal of neuroscience research. Building on these skills and working in small groups, students will re-frame and communicate neuroscience evidence through the production of a short video. Students will also learn the skills required to write an unbiased and accurate popular media article based on a recent neuroscience research paper. This unit will develop key attributes that are essential for science graduates as they move forward in their careers.
Two one-hour lectures per week, one guest leacture, 3 three-hour seminars
One mid-semester practical exam ( in-class), one final theory exam, one final practical exam, 'Neuroscience in the Media' 3 team-based assessment tasks during seminars and 1 individual written assignment
Nolte's. The Human Brain by Todd Vanderah and Douglas Gould. 7th Ed, Elsevier, 2015 The Human Brain in Photographs and Diagrams by John Nolte. 4th Ed, Mosby, 2013
[ANAT2010 or ANAT2910) or [BMED2401 and 12cp from (BMED2402 or BMED2403 or BMED2405 or BMED2406)]
NEUR3001 or NEUR3901 or NEUR3002 or NEUR3902 or NEUR3905