Nearly Isotropic 3D-Imaging of Mouse Brains, Fly Brains and Human Tumors with Light Sheets Beyond the Diffraction Light - Please note new date and time.
Optics involving extremely long, thin sheets of light and a vastly increased Rayleigh range (achieved by breaking the diffraction limit of light sheets of low numerical aperture) allow an elegant application of ultramicroscopy to large samples, such as whole mouse brains or Drosophila. Due to the extremely low divergence of the light sheets, brains can be reconstructed from a single stack of optical sections with nearly isotropic resolution that reaches the single-spine level at higher magnification. Ultramicroscopy can be applied to samples of ever-increasing size. Large pieces of human tumors that have been cleared and stained by a new superfast clearing procedure can be imaged intraoperatively in three dimensions. Optically identified malignancies were subsequently confirmed by standard histological sectioning. We predict that ultramicroscopy of cleared tumors will play an increasingly important role in pathological diagnostics.
Date: 17 April 2019, 16:00 (Wednesday, -1st week, Trinity 2019)
Venue: Oxford Martin School, 34 Broad Street OX1 3BD
Venue Details: Oxford Martin School, 34 Broad Street
Speaker: Hans-Ulrich Dodt (Center for Brain Science, Medical University of Vienna )
Organising department: Department of Physiology, Anatomy and Genetics (DPAG)
Organiser: Fiona Woods (University of Oxford, Department of Physiology Anatomy and Genetics, Centre for Neural Circuits and Behaviour)
Organiser contact email address: fiona.woods@cncb.ox.ac.uk
Part of: CNCB Seminar Series
Booking required?: Not required
Audience: Members of the University only
Editor: Fiona Woods