Subcortical Regions - Basal Ganglia & Thalamus PDF
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Uploaded by IllustriousElm
State University of New York College at Cortland
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Summary
This document provides an overview of the subcortical regions, focusing on the basal ganglia and thalamus. It details their functions, pathways, and related diseases and disorders. This includes topics such as Parkinson's disease, Huntington's disease, and speech disorders.
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**Chapter Ten: Subcortical Regions** **Part One: Basal Ganglia and Thalamus** **Overview** - We will talk about two main structures - Basal ganglia - Thalamus **Basal Ganglia Functions** - 2 functional pathways - Direct motor pathway: pyramidal system - Voluntary motor system -...
**Chapter Ten: Subcortical Regions** **Part One: Basal Ganglia and Thalamus** **Overview** - We will talk about two main structures - Basal ganglia - Thalamus **Basal Ganglia Functions** - 2 functional pathways - Direct motor pathway: pyramidal system - Voluntary motor system - BG important in facilitating & coordination voluntary movement - Indirect motor pathway: extrapyramidal system - Involuntary motor system - BG important in inhibiting unwanted movement & dampen erratic movement, maintaining muscle tone, posture, and balance - BG also important in cognition, learning, motivation, etc. **Basal Ganglia (BG)** - The BG are clusters of cell nuclei that sit deep in the brain - Consist of subcortical grey matter (cell bodies) - Full set on the left and full set on the right - The BG require neurotransmitters (e.g., dopamine) - Neurotransmitters have an excitatory role (facilitates movement) and/or inhibitory role (inhibits movement) - Important to have this balance for smooth and precise movements; lack of balance = movement problems **Corpus Striatum in the Basal Ganglia** - Made up of the caudate nucleus + putamen - These are connected by bridges of grey matter - Critical INPUT area into BG from the cerebral cortex to - Facilitate volitional movement - Inhibit unwanted movements **Globus Pallidus & Substantia Nigra in the Basal Ganglia** - Critical output areas of the BG - Receives info from the putamen in the BG - Sends signals about movement out from the BG to the cerebral cortex and brainstem (mostly through the thalamus) to: - Facilitate volitional movement - Inhibit unwanted movements **BG: Parkinson's Disease** - Parkinson's disease results from degeneration of neurons in substantia nigra that produce dopamine - Parkinson's can be hereditary or acquired (e.g., TBI) - Signs - Too much movement: resting tremor - Too little movement: facial expression, articulators - Rapid rate of movement (e.g., speech) with reduced range of movement and reduced breath support = poor speech intelligibility **BG: Huntington Disease** - Neurons in caudate nucleus (basal ganglia) that INHIBIT movement degenerate = unwanted movements - Affects walking, speech, swallowing, etc. - Cognitive and behavioral changes due to frontal lobe damage - Genetic and runs in families **BG Speech Disorders: Apraxia** - Deficit in motor planning and programming - In corticobasal syndrome, apraxia results from loss of neurons in cortex and basal ganglia **BG Speech Disorders: Dysarthria** - Parkinson's disease -- hypokinetic dysarthria - Huntington disease -- hyperkinetic dysarthria **BG: Cognition** - Huntington disease and Parkinson's disease - Often involves cognitive decline in disease progression - Executive functions, e.g., reward-based learning, value-based decision making - Also, attention, memory, Theory of Mind, and related social pragmatic skills - Substantia nigra has cells that produce dopamine - Dopamine is a neurotransmitter - Damage in dopamine-producing cells in the substantia nigra - Results in loss of dopamine in different areas of the brain - One area is potentially affected is the prefrontal cortex - Important for cognitive functions **BG: Swallowing** - Parkinson's disease - Dysphagia, with problems in the oral stage and pharyngeal stage, is common - Requires longer time to eat - Reduced desire to eat - Problems selecting safe foods to eat - Lingual pumping: affects tongue retraction to control and propel bolus = spills into pharynx and airway before ready to swallow - Huntington Disease - Dysphagia: unwanted movements cause problems with the oral stage and pharyngeal stage, plus fear of choking - Inadequate chewing before swallowing - Food bolus too large (big bites) - Rapid rate of eating - Problems propelling bolus to pharynx - Residue in mouth or pharynx that enters airway - Breathing during the swallow (vocal folds abducted) - High risk of aspiration, and many deaths due to aspiration pneumonia **Thalamus Overview** - There is a thalamus in each cerebral hemisphere located just above the brainstem - The thalamus is made up of mostly grey matter (cell bodies) with some white matter (axons) - Each thalamus consists of a collection of nuclei that form two ovals **Thalamus Function: Relay Neural Signals From CNS** - Relay station for neural tracts from the CNS - Thalamus receives neural signals (information) from cerebral cortex -- sends to appropriate parts of the brain - Important for - Works with basal ganglia to maintain cortical arousal - Cortical arousal -- increase in the wakefulness, vigilance, heart rate, ventilation, and muscle tone = body gets activated physiologically to respond to stimulus (internal or external) - Maintain attention - Sleep-wake cycle **Thalamus Function: Relay Neural Signals From PNS** - Relay station for afferent tracts from the PNS - Thalamus receives neural signals from the PNS - Most afferent neural signals (about sensation & movement) from the PNS go through the thalamus before continuing to the target destination - Thalamus has specialized functions to process sensory data - Cell nuclei process neural signals for all sensory information except smell (pain, temperature, touch, sense of noxiousness) - Thalamus processes these signals before they go to the cortex - Then sends sensory info to the cortex **Lateral Geniculate (Cell) Body (LGB) in Thalamus** - Receives visual sensory information from the retina - Routes to the visual cortex of the occipital lobe **Medial Geniculate (Cell) Body (MGB) in Thalamus** - Receives auditory sensory information from the inferior colliculus (IC) in the auditory pathway -- routes the signals to the primary auditory cortex in the temporal lobe - Important for the direction and maintenance (mediating) of our attention **Anterior Region and Mediodorsal Region in Thalamus** - Areas connect to areas of the CNS that play important roles in - Executive functions, memory - Mood, emotions - Personality - Ability to understand how physical state can impact cognition (e.g., tired during an exam) **Thalamus Disorders Overview** - Most often damaged by stroke - Blood supply to thalamus differs across people - So hard to predict the effects of a vascular lesion in this area - Area can be affected by degenerative diseases - E.g., dementia **Speech** - Thalamus works with the basal ganglia, so it is possible to have speech problems with thalamus damage but not common - Dysarthria - Apraxia of speech **Language** - Thalamic aphasia - Lesions in the thalamus, plus usually other areas of the CNS - Deficits usually mild - Problems with - Comprehension - Anomia and paraphasias - Reduces comprehension of emotional cues (receptive aprosiodia as part of apragmatism) can occur - Severe case: could see mutism **Cognition** - Damage to thalamus can cause cognitive problems - Problems resemble damage to prefrontal cortex - Includes deficits - Executive functions, planning, decision making, attention - Impulsivity, behavior, mood, personality disorder - Vision - Visuospatial perception, visual neglect (visual tracts go through thalamus and then to occipital lobe) - Memory - Left thalamus = verbal (language)