Stucky Chapter 4 Flashcards
What are the 3 main components of the brain
- forebrain (cerebral hemispheres and diencephalon)
- midbrain
- hindbrain (medulla, pons, cerebellum) (form connections between the brain and spinal cord)
Unimodal Cortex
- processing information pertaining to a specific sensory modality
- prominent role in perception
Polymodal Cortex
- processes information received from disparate modalities through afferent connections (arriving)
- critically involved in higher-order conceptual processes that are less dependent on concrete sensory information than on abstract features extracted from multiple inputs
- e.g., includes convergence zones of the anterior temporal lobe and inferior parietal lobule
Frontal lobe is broken down into three different areas:
- orbitofrontal/ventromedial region: emotion regulation, reward monitoring, personality (orbitofrontal damage - disinhibition; ventromedial damage- disordered reward/punishment processing, problems learning experiences with reward value and emotional significance)
- dorsolateral region: broad range of cognitive-executive functions (damage- dysexecutive syndromes- impaired working memory, poor attention to control behavior)
- dorsomedial region: intentional and behavioral activation (damage akinetic mutism - person is alert and awake (not comatose) but cannot move or speak)
Temporal Lobe 3 regions:
- temporal polar cortical areas: intersensory integration and semantic memory (words/concepts/numbers)
- ventral temporal areas: object recognition (damage -object and face agnosia)
- posterior temporal region: (middle and superior temporal sulci) primary auditory areas and Wernicke’s area in language- dom hem- important for language comprehension, prosodic (prosody) comprehension in the non-dom hemisphere
Parietal lobe 3 areas:
- superior parietal lobe: sensory-motor integration, body schema, spatial processing
- temporoparietal junction: phonological and sound based processing; laungauge comprehension (left) music comprehension (right)
- inferior parietal lobule: complex spatial attention, integration of tactile sensation, self-awareness
Occipital Lobe:
Primary visual Cortex
Visual Association Cortex -
Complete vs Partial Damage
- complete damage produces cortical blindness or phenomena of Anton’s syndrome (denial of cortical blindness) or blindsight (detection of unconsciously perceived stimuli in the blind field
- Partial damage -visual field defects
Ventral Visual Pathway
connecting occipital and temporal lobe; important for object and face recognition, item based memory, and complex visual discrimination
Dorsal Visual pathway
connecting the occipital and parietal lobes via the superiro temporal sulcus; importatn for spatial vision and visuomotor integration
Neuroanatomy of Vision
retinal ganglion cells –> optic nerve–> projects posteriorally and comes together at the optic chiasm
Majority of optic tract fibers terminate in the lateral geniculate nucleus (LGN) of the thalamus –>primary visual cortex in broadmann area (17) - striate cortex in theoccipital pole
- this geniculostriate pathway is critial for visual discrimination and form perception
- extrageniculate or extrastriate visual pathway- small proportion of fibers bypass the LGN and terminate in the pretectal area and superior colliculus –> project to broad areas of the parietal and frontal association cortex (frontal eye fields BA 8) via relays in the pulvinar nucleus of the thalamus
- tectopulvinar system- pupillary light reflex, attention-directed eye movements, general orientation to visual stimuli, more sensitive to movement that to form
Vision:
Dorsal pathway
Ventral pathway
projects to the parieto-occipital association cortex
- processes spatial information
- involved in visuomotor interaction (e.g., reaching, manipulating objects)
- lesions: problems with spatial perception, attention, visuomotor processing (e.g., hemispatial neglect, impaired visual reaching)
projects to occipitotemporal association cortex –>anterior portions of inferotemporal cortex
- processes structural and feature-based information- helps with analysis and recognition of visual form (faces/objects)
- lesions: perceptual disturbances , (severe) rec of familiar objects and faces (agnosias)
Vision:
apperceptive vs associative agnosia
apperceptive: impairment in processing basic visual elements of the object (shape, contour, depth)
- damage extensive to the visual association areas
associative: relating a well perceived stimulus to stored representations based on prior experience with the stimulus
- damage-less extensive or disconnecting lesions in regions between association cortex and memory
Neuroanatomy of Memory: Temporal Lobe Structures
Hippocampus
Hippocampus (dentate gyrus, sectors of Ammon’s horn [CA]1-4, subiculum)
-Trisynaptic circuit-primary internal connections (entorhinal cortex–>dentate granule cells [synapse 1] –> CA3 via mossy fibers [synapse 2] –>CA1 via Schaffer collaterals [synapse 3]
CA1 neurons project to the subiculum (direct source to Hippocamal efferent projections
Subiculum projects back to the entorhinal cortex - completing the circuit
Neuroanatomy of Memory: Temporal Lobe Structures
Parahippocampal region
rhinal (entorhinal and perirhinal) cortex, pre- and parasubicular cortex, and parahippocampal cortex
-the perirhinal cortex and parahippocampal cortex receive a majority of the cortical input to the temporal lobe memory circuit
Two Views about the downstream medial temporal lobe pathway
- These two streams (perirhinal cortex - receives more anterior temporal ‘non-spatial info) (parahippocampal cortex receives more posteriro medial ‘spatial’ info) provide separate inputs to the hippocampus which then binds together to form an episode
- Recent findings suggest that input from the parahippocampal corte to the perirhinal cortex also presents ‘spatial’ and ‘non spatial’ cortical connections to both the perirhinal and parahippocampal cortices - allows both structures to access nonspatial and spatial information from the cortex prior to their interaction with the hippocampus