Contemporary neuroscience relies on precise measurements of neural activity and behaviour obtained using sophisticated instruments controlled by computer programs. Commercial software packages are available for controlling behavioural and neural data acquisition but they are often expensive, closed, inflexible and specialised in a data modality, requiring researchers to constantly patch together diverse pieces of software. Moreover, the experimental approaches used to acquire data in the first place are complex and interdisciplinary, not to mention technically-challenging. Students and novel practitioners are therefore often overwhelmed, resorting to a
"black box", "need-to-know" strategy when learning these techniques and procedures.
Our ultimate goal with the course "Advanced Neurophysiology and Behavior: Empowering and Open Source Experimental Neuroscience" is to break down these barriers of understanding in two specific domains: the computerised control of data acquisition and experimental protocols, and the theory and practise of neurophysiology.
In one component of the course, we will provide training in basic concepts of the Bonsai visual programming language, which can be used to develop software for recording, controlling, analysing, and manipulating video, as well as behavioural and neural activity data. In the other, we will train students in the theory and practise of neurophysiology, with special emphasis on patch-clamp. Instead of equivalent circuit diagrams and other electronic engineering concepts, we will keep real, biological neurons front and centre, focusing on how these concepts apply to understanding neuronal and brain function.
This course concentrates top-level international expertise in a single hands-on program focused on applications to experimental systems neuroscience. The goal of the course is to empower students with the tools and skills to design and construct their own experimental instruments and setups, as well as to encourage a spirit of critical thinking, experimental boldness and theoretical de-mystification. This will enable participants to go back to their labs and immediately apply the acquired knowledge to design experiments that go beyond the available turn-key solutions.
This course will be held from May 6th to 10th, 2019* [09:00-13:00 / 14:00-18:00].
Click here to download the programme.
*For the students enrolled in the MSc and PhD programs of the School of Medicine, the course will have 2 mandatory additional weeks (April 29 - May 3 and May 13-17, 2019).