Author:
Gensolen F.,Ammour L.,Bautista M.,Heymes J.,Fieux S.,Kachel M.,Lefebvre F.,Pangaud P.,Pinot L.,Lanièce P.,Baudot J.,Gisquet P.,Zimmer L.,Verdier M-A.,Morel C.
Abstract
Radioisotope imaging is a powerful tool to understand the biological mechanisms in-vivo, especially in the brain of small animals, providing a significant model to study the human brain.
In this context, we have developed and built a pixelated intracerebral positron probe to be embedded on awake and freely moving small animals, typically rats. This pixelated probe will represent a key instrument for neuroscientists to study neural mechanisms and correlate them to behavioral experiments.
We describe in this paper the simulations carried out to design the intracerebral sensor, its architecture, and the detection of positrons in a volume with a couple of sensors assembled back-to-back. We also depict the architecture of the wireless acquisition system. Finally, we present the first measurements performed in real-time by this miniaturized probe with sealed radioactive sources and a 18F solution.
Cited by
1 articles.
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