| Literature DB >> 33498259 |
Cathalijn H C Leenaars1,2,3, Stevie Van der Mierden1,2, Ruud N J M A Joosten4, Marnix A Van der Weide4, Mischa Schirris4, Maurice Dematteis5, Franck L B Meijboom3, Matthijs G P Feenstra4, André Bleich1.
Abstract
Animals, including humans, frequently make decisions involving risk or uncertainty. Different strategies in these decisions can be advantageous depending the circumstances. Short sleep duration seems to be associated with more risky decisions in humans. Animal models for risk-based decision making can increase mechanistic understanding, but very little data is available concerning the effects of sleep. We combined primary- and meta-research to explore the relationship between sleep and risk-based decision making in animals. Our first objective was to create an overview of the available animal models for risky decision making. We performed a systematic scoping review. Our searches in Pubmed and Psychinfo retrieved 712 references, of which 235 were included. Animal models for risk-based decision making have been described for rodents, non-human primates, birds, pigs and honey-bees. We discuss task designs and model validity. Our second objective was to apply this knowledge and perform a pilot study on the effect of sleep deprivation. We trained and tested male Wistar rats on a probability discounting task; a "safe" lever always resulted in 1 reward, a "risky" lever resulted in 4 or no rewards. Rats adapted their preferences to variations in reward probabilities (p < 0.001), but 12 h of sleep deprivation during the light phase did not clearly alter risk preference (p = 0.21).Entities:
Keywords: gambling; probability discounting; risky decision making; scoping review; sleep deprivation
Year: 2021 PMID: 33498259 PMCID: PMC7838799 DOI: 10.3390/clockssleep3010003
Source DB: PubMed Journal: Clocks Sleep ISSN: 2624-5175