[Fast three-dimensional two-photon scanning methods for studying neuronal physiology on cellular and network level]

Autor: Gergely, Szalay, Linda, Judák, Zoltán, Szadai, Balázs, Chiovini, Dávid, Mezey, Dávid, Mezei, Dénes, Pálfi, Miklós, Madarász, Katalin, Ócsai, Ferenc, Csikor, Máté, Veress, Pál, Maák, Gergely, Katona
Rok vydání: 2015
Předmět:
Zdroj: Orvosi hetilap. 156(52)
ISSN: 0030-6002
Popis: Two-photon microscopy is the ideal tool to study how signals are processed in the functional brain tissue. However, early raster scanning strategies were inadequate to record fast 3D events like action potentials.The aim of the authors was to record various neuronal activity patterns with high signal-to-noise ratio in an optical manner.Authors developed new data acquisition methods and microscope hardware.Multiple Line Scanning enables the experimenter to select multiple regions of interests, doing this not just increases repetition speed, but also the signal-to-noise ratio of the fluorescence transients. On the same principle, an acousto-optical deflector based 3D scanning microscope has been developed with a sub-millisecond temporal resolution and a millimeter z-scanning range. Its usability is demonstrated by obtaining 3D optical recordings of action potential backpropagation in several hundred micrometers long neuronal processes of single neurons and by 3D random-access scanning of Ca(2+) transients in hundreds of neurons in the mouse visual cortex.Region of interest scanning enables high signal-to-noise ratio and repetition speed, while keeping good depth penetration of the two-photon microscopes.
Databáze: OpenAIRE