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Direct linkHolmes, Nathan M.; Westbrook, R. Frederick – Learning & Memory, 2014
Four experiments used rats to study appetitive-aversive transfer. Rats trained to eat a palatable food in a distinctive context and shocked in that context ate and did not freeze when tested 1 d later but froze and did not eat when tested 14 d later. These results were associatively mediated (Experiments 1 and 2), observed when rats were or were…
Descriptors: Animals, Fear, Food, Negative Reinforcement
Seiverling, Laura; Harclerode, Whitney; Williams, Keith – Education and Treatment of Children, 2014
The purpose of this study was to examine if sequential presentation with feeder modeling would lead to an increase in bites accepted of new foods compared to sequential presentation without feeder modeling in a typically developing 4-year-old boy with food selectivity. The participant's acceptance of novel foods increased both in the modeling and…
Descriptors: Food, Behavior Modification, Toddlers, Males
Download full textVaz, Petula C. M.; Volkert, Valerie M.; Piazza, Cathleen C. – Journal of Applied Behavior Analysis, 2011
We examined the effects of a negative reinforcement-based treatment on the self-feeding of 1 child with food selectivity by type and texture. Self-feeding increased when the child could choose to either self-feed 1 bite of a target food or be fed 1 bite of the target food and 5 bites of another food. Possible mechanisms that underlie the…
Descriptors: Positive Reinforcement, Negative Reinforcement, Children, Behavior Modification
Lomas, Joanna E.; Fisher, Wayne W.; Kelley, Michael E. – Journal of Applied Behavior Analysis, 2010
Prior research indicates that reinforcement of an appropriate response (e.g., compliance) can produce concomitant reductions in problem behavior reinforced by escape when problem behavior continues to produce negative reinforcement (e.g., Lalli et al., 1999). These effects may be due to a preference for positive over negative reinforcement or to…
Descriptors: Behavior Problems, Positive Reinforcement, Negative Reinforcement, Behavior Modification
Michel, Maximilian; Green, Charity L.; Lyons, Lisa C. – Learning & Memory, 2011
We investigated the involvement of PKA and PKC signaling in a negatively reinforced operant learning paradigm in "Aplysia", learning that food is inedible (LFI). In vivo injection of PKA or PKC inhibitors blocked long-term LFI memory formation. Moreover, a persistent phase of PKA activity, although not PKC activity, was necessary for long-term…
Descriptors: Long Term Memory, Food, Learning, Models
Sharp, William G.; Odom, Ashley; Jaquess, David L. – Journal of Applied Behavior Analysis, 2012
The current study examined the effects of bite placement with a flipped versus upright spoon on expulsion and mouth clean (product measure of swallowing) in the treatment of 3 children diagnosed with a pediatric feeding disorder and oral-motor deficits. For all 3 participants, extinction in the form of nonremoval of the spoon led to improvements…
Descriptors: Negative Reinforcement, Children, Eating Disorders, Food
