Frontiers in Neuroscience (Mar 2023)

Leptin deficiency-caused behavioral change – A comparative analysis using EthoVision and DeepLabCut

  • Daniel Bühler,
  • Daniel Bühler,
  • Daniel Bühler,
  • Nicole Power Guerra,
  • Nicole Power Guerra,
  • Luisa Müller,
  • Luisa Müller,
  • Luisa Müller,
  • Olaf Wolkenhauer,
  • Olaf Wolkenhauer,
  • Martin Düffer,
  • Brigitte Vollmar,
  • Brigitte Vollmar,
  • Angela Kuhla,
  • Angela Kuhla,
  • Markus Wolfien,
  • Markus Wolfien,
  • Markus Wolfien

DOI
https://doi.org/10.3389/fnins.2023.1052079
Journal volume & issue
Vol. 17

Abstract

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IntroductionObese rodents e.g., the leptin-deficient (ob/ob) mouse exhibit remarkable behavioral changes and are therefore ideal models for evaluating mental disorders resulting from obesity. In doing so, female as well as male ob/ob mice at 8, 24, and 40 weeks of age underwent two common behavioral tests, namely the Open Field test and Elevated Plus Maze, to investigate behavioral alteration in a sex- and age dependent manner. The accuracy of these tests is often dependent on the observer that can subjectively influence the data.MethodsTo avoid this bias, mice were tracked with a video system. Video files were further analyzed by the compared use of two software, namely EthoVision (EV) and DeepLabCut (DLC). In DLC a Deep Learning application forms the basis for using artificial intelligence in behavioral research in the future, also with regard to the reduction of animal numbers.ResultsAfter no sex and partly also no age-related differences were found, comparison revealed that both software lead to almost identical results and are therefore similar in their basic outcomes, especially in the determination of velocity and total distance movement. Moreover, we observed additional benefits of DLC compared to EV as it enabled the interpretation of more complex behavior, such as rearing and leaning, in an automated manner.DiscussionBased on the comparable results from both software, our study can serve as a starting point for investigating behavioral alterations in preclinical studies of obesity by using DLC to optimize and probably to predict behavioral observations in the future.

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