Vocalisations as a potential indicator of parturition in C57BL/6J mice

Vocalisations as a potential indicator of parturition in C57BL/6J mice

Breeding management in laboratory rodents is challenging, particularly around parturition and the neonatal period, where cage disturbance is often avoided in an attempt to limit neonatal mortality. Nevertheless, cage-side observations and single daily checks frequently underestimate pup numbers born...

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Main Authors: Sara Capas-Peneda, Ana Ferreira, Colin Gilbert, Jan-Bas Prins, Ashley Vanderplank, Giorgio Rosati, Marco Garzola, Ingrid Anna Sofia Olsson, Gabriela Munhoz Morello
Format: Article
Language:English
Published: Cambridge University Press 2025-01-01
Series:Animal Welfare
Subjects:
Animal welfare
breeding
C57BL/6J
home cage monitoring system
laboratory mouse
parturition
vocal communication
Online Access:https://www.cambridge.org/core/product/identifier/S0962728625100225/type/journal_article
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Summary:Breeding management in laboratory rodents is challenging, particularly around parturition and the neonatal period, where cage disturbance is often avoided in an attempt to limit neonatal mortality. Nevertheless, cage-side observations and single daily checks frequently underestimate pup numbers born and miss parturition complications. Home Cage Monitoring (HCM) systems are gaining popularity in animal facilities, detecting critical events such as food availability and activity levels. Parturition is a complex event involving specific patterns of behaviour, activity and vocalisations. In this study, audio and video data were collected from parturition events of single-housed C57BL/6J females and breeding pairs housed in a prototype rack with integrated microphones. Vocalisations were detected during parturition in both housing conditions, with minimal vocalisations observed prior to parturition, except for ultrasonic sounds in pair-housed mice (Mus musculus). After parturition, all vocalisations gradually decreased. Despite limitations such as the need for post-event analysis and the focus on a single mouse strain, this study suggests that detecting vocalisations can be a promising basis for developing automated parturition detection. This highlights the potential of HCM systems for improving breeding management and welfare in laboratory rodent colonies.
ISSN:0962-7286
2054-1538

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