8.5.3 Addiction and Dependence

Cards (96)

Addiction and dependence are related but distinct concepts
Addiction is characterized by compulsive engagement in rewarding behaviors despite adverse consequences.
Dependence refers to a state where the body relies on a substance to function normally
Dependence always leads to addiction.
False
Match the characteristic with its concept:
Compulsive behavior despite harm ↔️ Addiction
Withdrawal symptoms when substance is stopped ↔️ Dependence
A person can be dependent on a medication without being addicted.
Dopamine is a key neurotransmitter that drives the brain's reward system
Serotonin imbalances can contribute to seeking addictive substances.
GABA is an inhibitory neurotransmitter that can be affected by substances, leading to dependence
Steps involved in the reward pathway in the brain:
1️⃣ Ventral Tegmental Area (VTA) produces dopamine
2️⃣ Nucleus Accumbens receives dopamine, producing pleasure
3️⃣ Prefrontal Cortex manages planning and decision-making
Addictive substances cause a surge in dopamine release, overriding normal reward processes.
Which brain region manages planning and decision-making in the reward system?
Prefrontal Cortex
Dopamine is the primary neurotransmitter that transmits signals along the reward pathway
When dopamine is released, it creates a sense of pleasure that reinforces rewarding behaviors.
What happens to dopamine release when addictive substances are used?
Surge in release
Addiction is a psychological condition characterized by compulsive engagement in rewarding behaviors despite adverse consequences
Dependence refers to a state where the body relies on a substance to function normally.
Which neurotransmitter is key for impulse control and mood regulation?
Serotonin
GABA is an inhibitory neurotransmitter that can be affected by substances, leading to dependence
The reward pathway reinforces pleasurable behaviors through the release of dopamine.
Which brain region produces dopamine in the reward pathway?
Ventral Tegmental Area
The nucleus accumbens receives dopamine, producing feelings of pleasure
Order the key components of the reward pathway:
1️⃣ Ventral Tegmental Area (VTA)
2️⃣ Nucleus Accumbens
3️⃣ Prefrontal Cortex
Tolerance occurs when the body requires more of a substance to achieve the same effect.
Withdrawal symptoms occur when a substance is stopped or reduced
What is the primary characteristic of withdrawal?
Physical/psychological symptoms
Match the term with its definition:
Tolerance ↔️ Adaptation requiring higher doses
Withdrawal ↔️ Symptoms after stopping substance
In which brain region is dopamine released during pleasurable activities?
Nucleus Accumbens
Drugs often increase dopamine levels more intensely than natural rewards, leading to addiction.
Addiction is a psychological condition characterized by compulsive behavior despite adverse consequences
What type of state is dependence characterized as?
Physical state
Match the neurotransmitter with its role in addiction:
Dopamine ↔️ Drives reward and pleasure
Serotonin ↔️ Mood and impulse control
GABA ↔️ Inhibits brain activity
Endorphins ↔️ Natural pain relief and pleasure
Which brain region produces dopamine in the reward pathway?
Ventral Tegmental Area
The nucleus accumbens receives dopamine, producing feelings of pleasure
Order the key components of the reward pathway:
1️⃣ Ventral Tegmental Area (VTA)
2️⃣ Nucleus Accumbens
3️⃣ Prefrontal Cortex
What happens to neurotransmitter levels during withdrawal?
Imbalances
Which neurotransmitter plays a key role in the brain's reward pathway and addiction?
Dopamine
Dopamine is released in the nucleus accumbens during pleasurable activities.
Drugs increase dopamine levels more intensely than natural rewards, reinforcing addictive behaviors.
What is an example of dopamine's role in addiction?
Reinforcing addictive behaviors