Neuropsychological Foundations of Differential Reinforcement

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About Course

This on-demand webinar helps behavior analysts understand differential reinforcement through a neuropsychological lens. The training explores how brain systems involved in reward, value updating, executive control, inhibition, effort, timing, and habit formation can influence whether a replacement behavior is actually selected over problem behavior.

Participants will examine how dopamine, the striatum, orbitofrontal cortex, anterior cingulate cortex, and dorsolateral prefrontal cortex contribute to reinforcement learning, behavioral selection, reward prediction error, response effort, value updating, and executive access. The webinar emphasizes that differential reinforcement is not only a behavioral procedure, but also a process of helping the learner’s brain assign greater value to a safer, more functional replacement response.

The course also addresses why functionally equivalent replacement behaviors may fail when they are too delayed, effortful, complex, inconsistent, or difficult to access under emotional or cognitive stress. Special attention is given to clinical profiles such as ADHD and autism, where temporal discounting, impulsivity, weak inhibition, poor cognitive flexibility, perseveration, inconsistent reinforcement contact, or difficulty updating behavior may affect treatment response.

Participants will learn how to design replacement behaviors and reinforcement systems that are easier, faster, more dependable, more immediate, and more neurologically realistic than the problem behavior they are intended to replace. The training connects DRA, DRI, DRO, DRL, FERBs, executive-function findings, processing speed, working memory, and reinforcement timing to practical ABA decision-making.

Format: On-demand webinar
Length: 42 minutes
CEUs: 0.85 BACB CEU
Presenter: Dr. Vanetta LaRosa
Audience: BCBAs, BCBA-Ds, BCaBAs, clinical supervisors, ABA program directors, school-based behavior analysts, behavior specialists, graduate students, and interdisciplinary professionals interested in neuropsychology-informed reinforcement, replacement behavior design, and clinical treatment precision

Learning Objectives

  • Describe how dopamine, the striatum, orbitofrontal cortex, anterior cingulate cortex, and dorsolateral prefrontal cortex contribute to reinforcement learning and behavioral selection.
  • Explain how reward prediction error, value updating, response effort, timing, and executive control may influence the success or failure of differential reinforcement procedures.
  • Identify why problem behavior may persist when it is faster, easier, more reliable, more immediate, or less cognitively demanding than the replacement behavior.
  • Differentiate neuropsychological considerations for DRO, DRI, DRA, and DRL, including when procedures suppress behavior, build replacement pathways, or require higher executive control.
  • Describe how ADHD-related impulsivity, temporal discounting, reward-delay sensitivity, and reinforcement timing may affect replacement behavior use.
  • Describe how autism-related rigidity, perseveration, cognitive flexibility weaknesses, and difficulty updating reinforcement value may affect differential reinforcement planning.
  • Design functionally equivalent replacement behaviors that are low effort, quickly accessible, reliably reinforced, and executable during emotional arousal, cognitive overload, or time pressure.
  • Use neuropsychological information to improve clinical decisions about reinforcement immediacy, reinforcement consistency, prompting, response effort, practice opportunities, and replacement behavior selection.

Disclaimer

This training is for professional education only. Assessment instruments are discussed only at the level of general clinical purpose and treatment-planning implications. No proprietary test items, scoring forms, protocols, stimulus materials, rating-scale items, or administration procedures are reproduced. Participants should consult official publishers, manuals, and professional standards for authorized test administration, scoring, and interpretation.

Neuropsychological Foundations of Differential Reinforcement

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