Operant learning is disrupted when opioid reward pathways are blocked in the domesticated hen
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[1] Laura E. Knouse,et al. Enriched environment exposure accelerates rodent driving skills , 2020, Behavioural Brain Research.
[2] T. Crowley,et al. Anticipatory Behavior for a Mealworm Reward in Laying Hens Is Reduced by Opioid Receptor Antagonism but Not Standard Feed Intake , 2020, Frontiers in Behavioral Neuroscience.
[3] Heiko G. Rödel,et al. Dolphins’ Willingness to Participate (WtP) in Positive Reinforcement Training as a Potential Welfare Indicator, Where WtP Predicts Early Changes in Health Status , 2019, Front. Psychol..
[4] H. van Steenbergen,et al. The role of the opioid system in decision making and cognitive control: A review , 2018, Cognitive, Affective, & Behavioral Neuroscience.
[5] L. Marino. Thinking chickens: a review of cognition, emotion, and behavior in the domestic chicken , 2017, Animal Cognition.
[6] M. Mendl,et al. A Screen-Peck Task for Investigating Cognitive Bias in Laying Hens , 2016, PloS one.
[7] P. Tobler,et al. Dopamine D2/3- and μ-opioid receptor antagonists reduce cue-induced responding and reward impulsivity in humans , 2016, Translational psychiatry.
[8] David J. Mellor,et al. Updating Animal Welfare Thinking: Moving beyond the “Five Freedoms” towards “A Life Worth Living” , 2016, Animals : an open access journal from MDPI.
[9] A. Radford,et al. Effect of reward downshift on the behaviour and physiology of chickens , 2015, Animal Behaviour.
[10] C. Nicol. The Behavioural Biology of Chickens , 2015 .
[11] D. Mellor. Enhancing animal welfare by creating opportunities for positive affective engagement , 2015, New Zealand veterinary journal.
[12] W. E. Pratt,et al. The effects of nucleus accumbens μ-opioid and adenosine 2A receptor stimulation and blockade on instrumental learning , 2014, Behavioural Brain Research.
[13] J. Salamone,et al. Nucleus accumbens neurotransmission and effort-related choice behavior in food motivation: Effects of drugs acting on dopamine, adenosine, and muscarinic acetylcholine receptors , 2013, Neuroscience & Biobehavioral Reviews.
[14] B. Spruijt,et al. Effects of signalled reward type, food status and a μ-opioid receptor antagonist on cue-induced anticipatory behaviour in laying hens (Gallus domesticus) , 2013 .
[15] S. Ostlund,et al. Relative Response Cost Determines the Sensitivity of Instrumental Reward Seeking to Dopamine Receptor Blockade , 2012, Neuropsychopharmacology.
[16] P. Glimcher. Understanding dopamine and reinforcement learning: The dopamine reward prediction error hypothesis , 2011, Proceedings of the National Academy of Sciences.
[17] K. Befort,et al. Reward processing by the opioid system in the brain. , 2009, Physiological reviews.
[18] M. Cador,et al. Involvement of dopamine and opioids in the motivation to eat: influence of palatability, homeostatic state, and behavioral paradigms , 2009, Psychopharmacology.
[19] M. Cador,et al. Opioids for hedonic experience and dopamine to get ready for it , 2007, Psychopharmacology.
[20] M. Naguib,et al. The effects of short term enrichment on learning in chickens from a laying strain (Gallus gallus domesticus) , 2006 .
[21] Kyle S. Smith,et al. Hedonic Hot Spots in the Brain , 2006, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.
[22] R. D. Kirkden,et al. Using preference, motivation and aversion tests to ask scientific questions about animals’ feelings , 2006 .
[23] A. Kelley,et al. Nucleus accumbens opioid, GABaergic, and dopaminergic modulation of palatable food motivation: contrasting effects revealed by a progressive ratio study in the rat. , 2003, Behavioral neuroscience.
[24] I. Duncan. Poultry welfare: Science or subjectivity? , 2002 .
[25] L. Désiré,et al. Emotions in farm animals: a new approach to animal welfare in applied ethology , 2002, Behavioural Processes.
[26] J. Jarvis,et al. Measuring and modelling the photopic flicker sensitivity of the chicken (Gallus g. domesticus) , 2002, Vision Research.
[27] B. Spruijt,et al. A concept of welfare based on reward evaluating mechanisms in the brain: anticipatory behaviour as an indicator for the state of reward systems. , 2001, Applied animal behaviour science.
[28] Peter Dayan,et al. A Neural Substrate of Prediction and Reward , 1997, Science.
[29] K. Berridge. Food reward: Brain substrates of wanting and liking , 1996, Neuroscience & Biobehavioral Reviews.
[30] T. Foster,et al. Sound avoidance by hens , 1993, Behavioural Processes.
[31] W. Schultz,et al. Responses of monkey dopamine neurons to reward and conditioned stimuli during successive steps of learning a delayed response task , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[32] L. Smith,et al. Comparison of Potency and Duration of Action of Nalmefene and Naloxone , 1991, Anesthesia and analgesia.
[33] R. Kilgour,et al. Operant technology applied to solving farm animal problems. An assessment , 1991 .
[34] J. Critchley,et al. Effects of nalmefene on feeding in humans , 1990, Psychopharmacology.
[35] M. Gentle,et al. Opioid modulation of feeding and drinking in fowls. , 1989, British poultry science.
[36] S. Peciña,et al. Contrasting roles of mesostriatal dopamine and opioid systems in food 'wanting' and 'liking'. , 1998 .
[37] P. Chance. Learning and Behavior , 1979 .