Open-field PET: Simultaneous brain functional imaging and behavioural response measurements in freely moving small animals
Access status:
Open Access
Type
ArticleAuthor/s
Kyme, AndreAngelis, Georgios I.
Eisenhuth, John
Fulton, Roger R.
Zhou, Victor
Hart, Genevra
Popovic, Kata
Akhtar, Mahmood
Ryder, William J.
Clemens, Kelly J.
Balleine, Bernard W.
Parmar, Arvind
Pascali, Giancarlo
Perkins, Gary
Meikle, Steven R.
Abstract
A comprehensive understanding of how the brain responds to a changing environment requires techniques
capable of recording functional outputs at the whole-brain level in response to external stimuli. Positron emission
tomography (PET) is an exquisitely sensitive technique for ...
See moreA comprehensive understanding of how the brain responds to a changing environment requires techniques capable of recording functional outputs at the whole-brain level in response to external stimuli. Positron emission tomography (PET) is an exquisitely sensitive technique for imaging brain function but the need for anaesthesia to avoid motion artefacts precludes concurrent behavioural response studies. Here, we report a technique that combines motion-compensated PET with a robotically-controlled animal enclosure to enable simultaneous brain imaging and behavioural recordings in unrestrained small animals. The technique was used to measure in vivo displacement of [11C]raclopride from dopamine D2 receptors (D2R) concurrently with changes in the behaviour of awake, freely moving rats following administration of unlabelled raclopride or amphetamine. The timing and magnitude of [11C]raclopride displacement from D2R were reliably estimated and, in the case of amphetamine, these changes coincided with a marked increase in stereotyped behaviours and hyper-locomotion. The technique, therefore, allows simultaneous measurement of changes in brain function and behavioural responses to external stimuli in conscious unrestrained animals, giving rise to important applications in behavioural neuroscience.
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See moreA comprehensive understanding of how the brain responds to a changing environment requires techniques capable of recording functional outputs at the whole-brain level in response to external stimuli. Positron emission tomography (PET) is an exquisitely sensitive technique for imaging brain function but the need for anaesthesia to avoid motion artefacts precludes concurrent behavioural response studies. Here, we report a technique that combines motion-compensated PET with a robotically-controlled animal enclosure to enable simultaneous brain imaging and behavioural recordings in unrestrained small animals. The technique was used to measure in vivo displacement of [11C]raclopride from dopamine D2 receptors (D2R) concurrently with changes in the behaviour of awake, freely moving rats following administration of unlabelled raclopride or amphetamine. The timing and magnitude of [11C]raclopride displacement from D2R were reliably estimated and, in the case of amphetamine, these changes coincided with a marked increase in stereotyped behaviours and hyper-locomotion. The technique, therefore, allows simultaneous measurement of changes in brain function and behavioural responses to external stimuli in conscious unrestrained animals, giving rise to important applications in behavioural neuroscience.
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Date
2019Source title
NeuroImageVolume
188Publisher
ElsevierLicence
Copyright All Rights ReservedFaculty/School
Faculty of Engineering, School of Biomedical EngineeringShare