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Transcript
Reinforcement & Drug Effects Lesson 15 Operant Conditioning Acquisition & Maintenance of behavior important for survival Response Consequences Response followed by satisfying outcome likely to be repeated Acquisition & maintenance of drugtaking behavior ~ Operant Conditioning SD : B SR Classical vs. Operant Conditioning SR biologically important stimulus B R Response S SD Discriminative stimulus R available Signals S R ~ Response required to obtain S Reinforcement Strengthens behavior increases responding Positive reinforcement B appetitive stimulus Negative reinforcement B terminates aversive stimulus or prevents Both are desirable outcomes ~ Punishment Weakens behavior decreases responding Positive punishment B aversive stimulus Negative punishment B terminates appetitive stimulus or prevents Both are undesirable outcomes ~ What are reinforcers? Primary reinforcers biologically important stimuli Appetitive food water sexual pleasure drugs Aversive pain Illness ~ Reinforcers (continued) Secondary reinforcers money praise drug paraphernalia How do they become reinforcers? Classical Conditioning paired with primary reinforcers starts as a CS or SD requires learning ~ Other Phenomena Similar to classical conditioning R acquisition: B S extinction: B No SR spontaneous recovery disinhibition reacquisition including magnitude & delay of RFT ~ Drug Self-administration (SA) Animal model: drug taking behavior Operant conditioning Involves both... Reward (positive RFT) & escape/avoidance (negative RFT) Self-administer same drugs as humans Screening new drugs as potential reinforcers ~ Drug Self-administration operant conditioning Press bar drug infusion ~ Drug pump Drugs as reinforcers Addictive drugs Postive reinforcers Negative reinforcers Aversive aftereffects Obey laws of learning same as any other learned response ~ Alcohol (ethanol) Positive RFT Pleasant feeling Negative RFT Reduces withdrawal effects reduces stress Aversive aftereffects Hangover = withdrawal ~ Why does drinking persist? Hangover as effective punishment? Delay of RFT Reward immediate Punishment long delay Magnitude of RFT Smoking crack vs snorting cocaine Greater euphoria & shorter delay faster acquisition & slower extinction ~ Biological Bases of Drug Reinforcement Reinforcement Mechanisms Positive reinforcement R B appetitive S Mesolimbic Pathway Negative Reinforcement Widely distributed Depends of specific drug effects ~ Reward Mechanisms Olds & Milner ESB Mesolimbic Pathway Ventral Tegmental Area (VTA) Medial Forebrain Bundle (MFB) Nucleus Accumbens (NA) Role of Dopamine Evaluating rewarding effects of drugs ~ The “Pleasure Center” of the Brain Nucleus accumbens (NA) DA activity mediates reward DA activity in NA “pleasure” Site of action for positive reinforcers Natural reinforcers Drugs ~ Mesolimbic Pathway NA MFB Ventral Tegmental Area VTA More evidence for dopamine role Agonist: increases effects of NT DA agonist euphoria cocaine, amphetamine Heroin opioids DA in NA via Ventral Tegmental Area (VTA) most addictive drugs DA antagonists Blocks learning Also blocks responding for food ~ Alternate Reward Pathway Medial Habenula Habenulo-interpeduncular pathway Na3b4 (Ach-R) Modulates mesolimbic pathway 18-MC (18-Methoxycoronaridine) Ibogaine derivative Na3b4 antagonist Stops self-administration ~ Negative Reinforcement 2 classes B terminates aversive state Therapeutic e.g. morphine relieves pain Alcohol relieves anxiety self-medication Escape/avoidance of drug withdrawal Following tolerance/dependence ~ Negative Reinforcement Different withdrawal syndromes e.g. depressants vs stimulants Depends on drugs effects Tolerance as compensatory responses Abstention: deficient synaptic activity Withdrawal More drug restores system balance Aversive effects ~ Negative Reinforcement Role of Nucleus Accumbens? Rada, Mark & Hoebel (1998) Medial Hypothalamus stimulation aversive state press bar terminate stimulation Negative reinforcement dopamine in NA by 100% Neg RFT blocked by DA antagonist? ~
