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The Biologic Foundations of Psychiatric Nursing
Chapter 8
Biological Basis of Behavior
• Most human behaviors have a biological basis.
• Symptom expression = behavioral symptoms = brain dysfunction
Foundation of Biological Basis of Behavior
• Animal modeling– Resembles humans in structure, function
or genetics– Can induce disorders– Usually rats, mice
• Genetics– Populations genetics– Risk factors
Risk Factors
• Increased risk for developing a disorder
• May be genetic, biological, psychologic or social
Current Approaches to Studying Neuroanatomy and Neurophysiology
• Comparative
– compared with other life forms
• Developmental
– changes in nervous system throughout the life span
• Cytoarchitectonic
– distribution and arrangement of cells within various parts of brain
• Chemoarchitecture
– identification of neurotransmitters or chemicals
• Functional
– localization of functioning
Plasticity
• Ability of the brain to change
• Compensates for loss of function in specific area
• Nerve signals may be rerouted.
• Cells learn a new function.
• Nerve tissues may be regenerated.
Structural Neuroimaging
• Allows for visualization of the brain• Commonly used techniques
– Computed tomography (CT)• X-rays and computers• Iodinated contrast materials administered IV
– Magnetic resonance imaging (MRI)• Place patient in long tube with magnets• Can reconstruct three-dimensional structures• More costly and complicated than CT
Functional Neuroimaging
• Measurement of physiologic activities
• Two primary imaging procedures (Both require administration of radioactive materials.)– Positron emission tomography (PET)– Single photon emission computed
tomography (SPECT)– Patient can perform functions during this time.
Neuroanatomy of the CNS
• Cerebrum• Left and right hemispheres• Lobes of the brain
– Frontal– Parietal– Temporal– Occipital– Association Cortex
Neuroanatomy Subcortical Structures
• Basal ganglia
• Limbic system
• Hippocampus
• Thalamus
• Hypothalamus
• Amygdala
• Limbic midbrain nuclei
NeuroanatomyOther Important CNS Structures
• Extrapyramidal system
• Pineal body
• Locus ceruleus
• Cerbebellum
Autonomic Nervous System(Fig. 8.7)
• Neurons of ANS– Efferent or motor system nerves (nerves
moving away from CNS)– Afferent or sensory (nerves moving toward
CNS)
• Sympathetic
• Parasympathetic
Neurons and Nerve Impulses(Fig. 8.8)
• Soma – cell body– nucleus– ribosomes– endoplasmic reticulum– Golgi apparatus– vesicles– lysomes– mitrochodria
• Axons – conducts impulses• Dendrites – receives impulses
Synaptic Transmission
• Neurotransmitters - Small molecules directly or indirectly responsible for opening or closing ion channels
• Neuromodulators - Chemical messengers that make the cell membrane more or less susceptible to effects of primary neurotransmitter
• Influx of CA++ into the neuron stimulates release of neurotransmitters into synapse.
• Receptors - Proteins for specific neurotransmitter, “lock and key”
Fate of Neurotransmitter After Action
• Removed by natural diffusion
• Reuptake into presynaptic terminal
Receptors
• Sensitivity can change, developing either a greater or lesser response to the neurotransmitter.
• Receptor subtypes– Each major neurotransmitter has several different
subtypes for the chemical, allowing for different effects on the brain.
– Each major neurotransmitter has several different subtypes (e.g., Dopamine, D1, D2, etc.).
Neurotransmitter Criteria
• Synthesized inside the neuron• Present in the presynaptic terminal• Released into the synaptic cleft, causing a
particular effect on the postsynaptic receptors• An exogenous form of the chemical is
administered as a drug causes identical action.• Chemical is removed from the synaptic cleft by
a specific mechanism.
Neurotransmitters
• Excitatory – causes activity to occur
• Inhibitory – causes activity to decrease
Cholinergic Neurotransmitter Acetylcholine (ACh)
• Primary neurotransmitter of parasympathetic nervous system
• Part of sympathetic system • Excitatory neurotransmitter• Follow diffuse projections throughout
the cerebral cortex and limbic system• ACh involved in higher intellectual
functioning and memory
Cholinergic Receptor
• Muscarinic receptors– Many psychiatric medications block the
muscarinic receptors (anticholinergic).– Blocking the effects causes common side
effects, including:• dry mouth, blurred vision constipation, urinary
retention, and tachycardia
• Nicotinic receptors
Biogenic Amines
• Synthesized from tyrosine– Dopamine– Norepinephrine– Epinephrine
• Synthesized from tryptophan– Serotonin
• Synthesized from histidine– Histamine
Neurotransmitters• Acetylcholine
– High intellectual functioning
• Dopamine – Mesocortical and Mesolimbic
• Cognition, memory, emotion, auditory reception
– Nigrostriatal• Influences extrapyramidal system• Subserve voluntary movement• Allows involuntary movement
– Tuberoinfundibular• Endocrine functions
Dopamine (DA)
• Excitatory neurotransmitter• Involved in cognition, motor and
neuroendocrine functions• Decreased in Parkinson’s, increased in
schizophrenia• Pathways (Figure 8.11)
– Mesocortical, mesolimbic– Nigrostriatal– Tuberoinfundibular
Dopamine Receptors
• Five subtypes
• D1 and D5 - cortex, hippocampus and amygadala
• D2 found in nigrostriatal system
• D4 found mainly in cortex
Norepinephrine
• Widely distributed in the peripheral nervous system• Excitatory neurotransmitters play a major role in
mood states.• Decreased NE associated with depression, increased
NE associated with mania• Pathways are named “noradrenergic” and are less
delineated than dopamine pathways.• Pathways in locus cereulus so involve in sleep, wake
Neurotransmitters• Norepinephrine (Fig. 8.12)
– Sympathetic nervous system functions– Sleep, wakefulness– Reinforce learning
• Serotonin (5-HT) (Fig. 8.13)– Sleep, wakefulness– Control of food intake, hormone secretion, sexual
behavior, mood and emotion, thermoregulation
Serotonin (5-HT)
• Excitatory neuron distributed within the cerebral cortex, limbic system, an basal ganglia, hypothalamus and cerebellum.
• Involved in regulation of emotion, cognition, sensory perceptions, sleep and appetite.
• Involved in control of food intake, hormone secretin, sexual behavior, thermoregulation and cardiovascular regulation
• Numerous subtypes of receptors
Histamine
• Recently identified as a neurotransmitter• Originates in hypothalamus and projects
to all major structures in cerebrum, brain and spinal cord
• Functions not well known• Blocking produces side effects, such as
sedation, weight gain and hypotension.
Aminobutyric Acid (GABA)
• Inhibitory transmitter
• Pathways almost exclusive in CNS, hypothalamus, hippocampus, basal ganglia, spinal cord and cerebellum
• Receptors:– GABAA– GABAB
Neurotransmitters• Histamine
– Autonomic and neuroendocrine regulation– Blocking – causing sedation and weight gain
• GABA– Control of neuronal excitement– Inhibitory
• Glutamate– Excitatory
• Neuropeptides
New Fields of Study
• Psychoendocrinology
• Psychoimmunology
• Chronobiology
• Diagnostic Approaches
Neurophysiologic Procedures
• Electroencephalography (EEG)
• Polysomnography
• Others