Automated quantification of head-twitch response in mice via ear tag reporter coupled with biphasic detection

•Ear tag reporter for the study of mouse behavior.•Multiphase detection of head-twitch.•Modelling serotonergic behavioral pharmacology. Head-twitch response (HTR) is a manifestation of the serotonergic system behavioral pharmacology commonly used as a proxy of psychedelic drug action in rodents. We...

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Bibliographic Details
Published in:Journal of neuroscience methods 2020-03, Vol.334, p.108595-108595, Article 108595
Main Authors: de la Fuente Revenga, Mario, Vohra, Hiba Z., González-Maeso, Javier
Format: Article
Language:English
Subjects:
5-HT2A receptor
Animal models
Automated detection
Hallucinogens
Head-twitch response
Serotonergic psychedelics
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Summary:•Ear tag reporter for the study of mouse behavior.•Multiphase detection of head-twitch.•Modelling serotonergic behavioral pharmacology. Head-twitch response (HTR) is a manifestation of the serotonergic system behavioral pharmacology commonly used as a proxy of psychedelic drug action in rodents. We developed a minimally invasive magnetic ear tag reporter and designed a detection system that performs a comprehensive characterization of each potential HTR event on an electromagnetic readout. Magnetic ear tags were easy to install and generally well tolerated by the animals. On the low-threshold first phase of detection, the tags’ signal recorded in a magnetometer was filtered and screened for potential HTR events. On the second phase, the detector performed a comprehensive spectral analysis evaluation of each event and identified the HTR characteristic distribution of power density. Our system delivered satisfactory performance in the identification of pharmacologically-induced HTR and discrimination power against common non-HTR behaviors. Our system offers a high-throughput solution for studying HTR in mice employing minimally invasive procedures and superior standalone discriminative power compared to our previously reported fully-automated approach. High-throughput identification of HTR utilizing magnetic ear-tagging and biphasic detection delivers satisfactory detection and discrimination power employing less invasive procedures.
ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2020.108595