Coherence Seminar: Coherent, bright and focused light to resolve neural circuits, 23/11/2018, CO-1-10, 11:00

QUICK INFORMATION
Type
Seminar
Start Date
23-11-2018 11:00
End Date
23-11-2018 12:00
Location
CO-1-10 (Common Building)
Speaker's name
Alexandra Pacureanu
Speaker's institute
ESRF
Contact name
Sabine Schreiber
Host name
Oier Bikondoa
Add event to calendar
iCal | vCal

Scientists have been seeking for over a century to uncover the neural circuits controlling sensory, motor or cognitive brain functions. This requires visualization of complex nanometre size structures over millimetre size tissue volumes. Today only electron microscopes are capable of generating data with sufficient resolving power to access directly the neural connections. But mapping just one cubic mm of brain tissue would entail years of sample sectioning and data collection, leading to prohibitive costs. For these reasons, this goal has not been reached yet. The largest brain ever mapped corresponds to a fruit fly and it took about five years of team work. In this context, I will discuss the potential of phase contrast X-ray microscopy to probe large tissue samples at nanometre scale in a short time. X-ray holographic nano-tomography is a coherent imaging technique which is capable of generating exceptional contrast in soft tissue through phase shift retrieval. The penetrating power of X-rays and the full-field, free space propagation setup enable rapid multiscale 3D imaging of large samples which are opaque to visible light. By combining a highly brilliant X-ray nanoprobe, a carefully designed nanopositioning system, a cutting edge detection system and cryogenics for sample preservation, isotropic 3D spatial resolution better than 30 nm is conceivable. Furthermore, I will discuss the possibility to use machine learning approaches, specifically convolutional neural networks, to extract the knowledge from complex and large 3D images. This makes possible to understand fundamental mechanisms of brain function and disorders. Moreover, it provides a basis for developing therapeutic approaches and artificial intelligence devices.

 

 

 

Visitors from off-site please contact Sabine Schreiber tel +33 (0)476882052 to arrange for a gate pass.
Requests made by e-mail will be confirmed.
If you do not receive a confirmation e-mail, please contact us by phone.