Anne Habedank scite author profile

Existing methods for analysis of home cage-based preference tests are either time-consuming, not suitable for group management, expensive, and/or based on proprietary equipment that is not freely available. To correct this, we developed an automated system for group-housed mice based on radio frequency identification: the Mouse Position Surveillance System (MoPSS). The system uses an Arduino microcontroller with compatible components; it is affordable and easy to rebuild for every laboratory because it uses free and open-source software and open-source hardware with the RFID readers as the only proprietary component. The MoPSS was validated using female C57BL/6J mice and manual video comparison. It proved to be accurate even for fast-moving mice (up to 100% accuracy after logical reconstruction), and is already implemented in several studies in our laboratory. Here, we provide the complete construction description as well as the validation data and the results of an example experiment. This tracking system will allow group-based preference testing with individually identified mice to be carried out in a convenient manner. This facilitation of preference tests creates the foundation for better housing conditions from the animals’ perspective.

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Measurement of corticosterone in mice: a protocol for a mapping review

Leenaars

Mierden

Durst

et al. 2019

Lab Anim

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Severity assessment for experiments conducted with laboratory animals is still based mainly on subjective evaluations; evidence-based methods are scarce. Objective measures, amongst which determination of the concentrations of stress hormones, can be used to aid severity assessment. Short-term increases in glucocorticoid concentrations generally reflect healthy responses to stressors, but prolonged increases may indicate impaired welfare. As mice are the most commonly used laboratory animal species, we performed a systematic mapping review of corticosterone measurements in Mus musculus, to provide a full overview of specimen types (e.g. blood, urine, hair, saliva, and milk) and analysis techniques. In this publication, we share our protocol and search strategy, and our rationale for performing this systematic analysis to advance severity assessment. So far, we have screened 13,520 references, and included 5337 on primary studies with measurements of endogenous corticosterone in M. musculus. Data extraction is currently in progress. When finished, this mapping review will be a valuable resource for scientists interested in corticosterone measurements to aid severity assessment. We plan to present the data in a publication and a searchable database, which will allow for even easier retrieval of the relevant literature. These resources will aid implementation of objective measures into severity assessment.

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O mouse, where art thou? The Mouse Position Surveillance System (MoPSS) - an RFID based tracking system

Habedank

Urmersbach

Kahnau

et al. 2020

Preprint

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Existing methods for analysis of home cage based preference tests are either time consuming, not suitable for group management, expensive and/or based on proprietary equipment that is not freely available. For this reason, we developed an automated system for group housed mice based on radio frequency identification: the Mouse Position Surveillance System (MoPSS). The system uses an Arduino microcontroller with compatible components, it is affordable and easy to rebuild for every laboratory. The MoPSS was validated using female C57BL/6J mice and manual video comparison. It proved to be accurate even for fast moving mice (up to 100 % accuracy after logical reconstruction), and is already implemented in several studies in our laboratory. Here, we provide the complete construction description as well as the validation data and the results of an example experiment. This tracking system will allow group-based preference testing with individually identified mice to be carried out in a convenient manner, creating the foundation for better housing conditions from the animals’ perspective.

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Alternate without alternative: neither preference nor learning explains behaviour of C57BL/6J mice in the T-maze

Habedank

Kahnau

Lewejohann

2021

Behav.

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In rodents, the T-maze is commonly used to investigate spontaneous alternating behaviour, but it can also be used to investigate preference between goods. However, for T-maze preference tests with mice there is no recommended protocol and researchers frequently report reproduction difficulties. Here, we tried to develop an efficient protocol with female C57BL/6J CrL mice for preference tests. We used two different designs, adapting habituation, cues and trial timing. However, in both experiments mice did not show any preference, although we used goods which we knew mice find rewarding. Instead, they alternated choices indicating that exploratory behaviour overruled preference. We argue that this behavioural strategy has evolved as an adaptive trait in saturated conditions where there is no need to take the reward immediately. Therefore, we deem the T-maze unsuitable for preference testing with the procedures we used here.

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Measuring endogenous corticosterone in laboratory mice - a mapping review, meta-analysis, and open source database

Mierden

Leenaars

Boyle

et al. 2020

ALTEX

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ular nucleus (HPN), the pituitary gland, and the adrenal cortex, which releases corticosterone into the bloodstream under the influence of adrenocorticotropic hormone (ACTH) from the pituitary gland. Corticosterone has an inhibitory effect on the HPN, creating a negative feedback loop within the HPA axis (Spiga et al., 2011).There are multiple factors inherent to the organism that can influence baseline corticosterone concentrations including, but not limited to, sex, age, genetic background, circadian rhythm, and ultradian rhythm (

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Anne Habedank

O mouse, where art thou? The Mouse Position Surveillance System (MoPSS)—an RFID-based tracking system

Measurement of corticosterone in mice: a protocol for a mapping review

O mouse, where art thou? The Mouse Position Surveillance System (MoPSS) - an RFID based tracking system

Alternate without alternative: neither preference nor learning explains behaviour of C57BL/6J mice in the T-maze

Measuring endogenous corticosterone in laboratory mice - a mapping review, meta-analysis, and open source database

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