Psychosis Treatment Flashcards
What is psychosis?
- patients lose contact with reality
- can involve seeing or hearing things that other people cannot see or hear (hallucinations) and believing things that are not actually true (delusions)
What is Schizophrenia?
- form of psychosis
- dysfunction in a person’s ability to think clearly, manage emotions, make decisions, relate to others
- symptoms can be positive, negative or cognitive
What is the major difference between psychosis and schizophrenia?
- psychosis refers to losing touch with reality
- schizophrenia is a disorder characterised by a number of symptoms, including psychotic symptoms (hallucinations for example)
Dopamine is major neurotransmitter in the brain. What is the function of dopamine in the brain?
1 - excitatory only
2 - inhibitory only
3 - excitatory and inhibitory
3 - excitatory and inhibitory
- depends on the D receptor it binds with
- D1 = excitatory, but D2 is inhibitory
- there are 5 types of dopamine receptors (D1-D5)
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesolimbic pathway. Where does this pathway begin and end?
1 - begin at SN and ends at dorsal striatum (caudate nucleus and putamen)
2 - begins at VTA and ends at pre-frontal cortex
3 - begins at VTA and ends at NAcc (striatum)
4 - begins at hypothalamus and ends at brain stem
SN = substantia niagra VTA = ventral tegmental area NAcc = nucleus accumbens, striatum
3 - begins at VTA and ends at NAcc (striatum)
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesocortical pathway. Where does this pathway begin and end?
1 - begin at SN and ends at dorsal striatum (caudate nucleus and putamen)
2 - begins at VTA and ends at pre-frontal cortex
3 - begins at VTA and ends at NAcc (striatum)
4 - begins at hypothalamus and ends at brain stem
SN = substantia niagra VTA = ventral tegmental area NAcc = nucleus accumbens, striatum
2 - begins at VTA and ends at pre-frontal cortex
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the nigrostriatal pathway. Where does this pathway begin and end?
1 - begin at SN and ends at dorsal striatum (caudate nucleus and putamen)
2 - begins at VTA and ends at pre-frontal cortex
3 - begins at VTA and ends at NAcc (striatum)
4 - begins at hypothalamus and ends at brain stem
SN = substantia niagra VTA = ventral tegmental area NAcc = nucleus accumbens, striatum
1 - begin at SN and ends at dorsal striatum (caudate nucleus and putamen)
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the tuberoinfundibular pathway. Where does this pathway begin and end?
1 - begin at SN and ends at dorsal striatum (caudate nucleus and putamen)
2 - begins at VTA and ends at pre-frontal cortex
3 - begins at VTA and ends at NAcc (striatum)
4 - begins at hypothalamus and ends at brain stem
SN = substantia niagra VTA = ventral tegmental area NAcc = nucleus accumbens, striatum
4 - begins at hypothalamus and ends at brain stem
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesolimbic pathway. The pathway begins at the ventral tegmental area and ends at the nucleus accumbens, striatum. What is the main function of this pathway?
1 - reward and salience
2 - regulates prefrontal cortex
3 - regulates the HPA axis
4 - regulates the basal ganglia
1 - reward and salience
- regulates limbic (behaviour and emotion) system
- rewards = pleasure
- salience = threat evaluation
The nigrostriatal pathway runs from the substantia nigra in the midbrain to the dorsal striatum. What 2 parts of the brain make up the dorsal striatum?
1 - caudate nucleus
2 - putamen
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesolimbic pathway. The pathway begins at the ventral tegmental area and ends at the nucleus accumbens, striatum. The main function of this pathway is the regulation of the limbic (behaviour and emotion) system, specifically rewards = pleasure, and salience = threat evaluation. In psychosis what happens to this pathway?
1 - increases salience
2 - increases reward stimulus
3 - inhibits salience
4 - inhibits reward stimulus
1 - increases salience
- patients can believe they are under threat due to hyperactivty
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesolimbic pathway. The pathway begins at the ventral tegmental area and ends at the nucleus accumbens, striatum. The main function of this pathway is the regulation of the limbic (behaviour and emotion) system, specifically rewards = pleasure, and salience = threat evaluation. In psychosis the salience (threat evaluation) aspect of this pathway becomes hyperactive. What is the aim of drugs in treating this pathway in psychosis?
1 - increases salience
2 - increases reward stimulus
3 - inhibits salience
4 - inhibits reward stimulus
2 - increases reward stimulus
- increases feelings of pleasure
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesolimbic pathway. The pathway begins at the ventral tegmental area and ends at the nucleus accumbens, striatum. The main function of this pathway is the regulation of the limbic (behaviour and emotion) system, specifically rewards = pleasure, and salience = threat evaluation. In psychosis the salience (threat evaluation) aspect of this pathway becomes hyperactive. Drugs to treat this pathway in psychosis target the reward processing part of the pathway and thus increase feelings of pleasure. However, what can chronic drug use cause, such as amphetamines, which are a brain stimulant?
- dysregulation of the salience part, causing drug-induced psychosis
- patients have hyperactive salience stimulation
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesocortical pathway. The pathway begins at the ventral tegmental area and ends at the pre-frontal cortex. What is the main function of this pathway?
1 - reward and salience
2 - regulates prefrontal cortex
3 - regulates the HPA axis
4 - regulates the basal ganglia
2 - regulates prefrontal cortex
- modulates important functions including cognition, social involvement and motivation
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesocortical pathway. The pathway begins at the ventral tegmental area and ends at the pre-frontal cortex. This pathway regulates the prefrontal cortex (PFC) and governs important functions including cognition, social involvement and motivation. What happens to this pathway in psychosis?
- dysfunction of the system making it hypoactive
- contributes to cognition symptoms and negative symptoms (social involvement and motivation)
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the mesocortical pathway. The pathway begins at the ventral tegmental area and ends at the pre-frontal cortex. This pathway regulates the prefrontal cortex (PFC) and governs important functions including cognition, social involvement and motivation. In psychosis there is dysfunction of the system making it hypoactive, which can cause negative symptoms of psychosis. What 3 common negative symptoms?
1 - disordered thoughts, reduced motivation, social withdrawal
2 - impaired cognition function, delusions, social withdrawal
3 - hallucinations, reduced motivation, social withdrawal
4 - impaired cognition function, reduced motivation, social withdrawal
4 - impaired cognition function, reduced motivation, social withdrawal
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the nigrostriatal pathway. This pathway begins at the substantia nigra in the midbrain and ends at the dorsal striatum. What is the main function of this pathway?
1 - reward and salience
2 - regulates prefrontal cortex
3 - regulates the HPA axis
4 - regulates the basal ganglia
4 - regulates the basal ganglia
- important for movement (especially the initiation of movements)
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the nigrostriatal pathway. This pathway begins at the substantia nigra and ends in the midbrain. The main function of this pathway is to regulates the basal ganglia, which is crucial for movement (especially the initiation of movements). This system is not thought to be affected by schizophrenia, but can be affected by what?
- drugs used to treat schizophrenia
- can affect basal ganglia causing parksinon like symptoms
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the tuberoinfundibular pathway. This pathway begins at the hypothalamus and ends at the brain stem. What is the main function of this pathway?
1 - reward and salience
2 - regulates prefrontal cortex
3 - regulates the HPA axis
4 - regulates the basal ganglia
3 - regulates the HPA
- controls the endocrine system (including sex and growth hormones)
Dopamine is involved in inhibitory and excitatory pathways in the brain. One of the those pathways is the tuberoinfundibular pathway. This pathway begins at the hypothalamus and ends at the brain stem. The main function of this pathway is regulation of the HPA, which controls the endocrine system (including sex and growth hormones). Although this pathway is not directly affected by schizophrenia, antipsychotic medication can interfere with it, causing what?
- hormonal problems
What are antipsychotic medications?
- medications used to treat psychotic disorders