front 1 cephalization | back 1 development of the head |
front 2 rostral | back 2 anterior |
front 3 Neural plate forms from this during embryonic development | back 3 ectoderm |
front 4 The neural plate invaginates to form a ________ and __________. | back 4 neural groove; neural folds |
front 5 Neural groove fuses dorsally to form this. | back 5 Neural tube. |
front 6 This gives rise to the brain and spinal cord. | back 6 Neural tube. |
front 7 The anterior end of the neural tube gives rise to how many primary brain vesicles? | back 7 3 |
front 8 Name the three primary brain vesicles that the anterior end of the neural tube gives rise to. | back 8 prosencephalon, mesencephalon and rhombencephalon |
front 9 forebrain | back 9 prosencephalon |
front 10 midbrain | back 10 mesencephalon |
front 11 hindbrain | back 11 rhombencephalon |
front 12 posterior | back 12 caudal |
front 13 These two secondary vesicles rise from the prosencephalon (forebrain) | back 13 telencephalon and diencephalon |
front 14 These two secondary vesicles rise form the Rhombencephalon (hindbrain) | back 14 metencephalon and myelencephalon |
front 15 The telencephalon gives rise to two hemistpheres with the cortex, white matter and basal nuclei. | back 15 cerebrum |
front 16 The diencephalon gives rise to these four organs during embryonic development. | back 16 thalamus, hypothalamus, epithalamus and retina |
front 17 The mesencephalon becomes what? | back 17 Brain stem (midbrain) |
front 18 The metencephalon becomes what during embryonic development? | back 18 brain stem (pons) and cerebellum |
front 19 Location of the somatosensory association cortex | back 19 posterior to the primary somatosensory cortex |
front 20 4 adult brain regions | back 20 cerebrum, diencephalon, brain stem (midbrain, pons and medulla), and cerebellum |
front 21 brain stem components | back 21 midbrain, pons and medulla |
front 22 spinal cord | back 22 central cavity surrounded by a gray matter core; external white matter is composed of myelinated fiber tracts |
front 23 is the cerebral cortex thick or thin? | back 23 thin |
front 24 Comprises 40% of the brain | back 24 cerebral cortex |
front 25 Cerebral cortex | back 25 site of conscious mind; awareness, sensory perception, voluntary motor initiation, communication, memory storage, understanding |
front 26 T or F? Each hemisphere connects to the contralateral (opposite) side of the body. | back 26 T |
front 27 3 functional areas of the cerebral cortex | back 27 motor, sensory, and association |
front 28 Function of the motor area of the cerebral cortex | back 28 controls voluntary movements |
front 29 Function of the sensory area of the cerebral cortex | back 29 conscious awareness of sensation |
front 30 Function of the association area of the cerebral cortex | back 30 integrates diverse information |
front 31 Conscious behavior involves which part of the cerebral cortex? | back 31 All 3. |
front 32 4 motor areas | back 32 Primary (somatic) motor cortex, premotor cortex, Broca's area, Frontal eye field |
front 33 Primary Motor Cortex | back 33 long axons called pyramidal corticospinal tracts |
front 34 Function of primary motor cortex | back 34 allows conscious control of precise, skilled and voluntary movements |
front 35 motor homunculi | back 35 upside down caricatures representing the motor innervation of body regions |
front 36 Location of the primary motor cortex | back 36 large pyramidal cells of the precentral gyri |
front 37 Location of the premotor cortex | back 37 anterior to the precentral gyrus |
front 38 Function of the premotor cortex | back 38 controls learned, repetitious, or patterned motor skills |
front 39 Coordinates simultaneous or sequential actions and plans movements that depend on sensory feedback (like opening a jar top) | back 39 premotor cortex |
front 40 Why are the face and hands most often affected by a stroke? | back 40 The control areas for face and hands take up the most space in the brain. |
front 41 Location of Broca's area | back 41 anterior to the inferior region of the premotor area, usually only present in the left hemisphere |
front 42 Function of the Broca's area | back 42 directs muscles of the tongue for speaking |
front 43 Location of frontal eye field | back 43 anterior to the premotor cortex and superior to Broca's area |
front 44 Function of the Frontal eye Field | back 44 controls voluntary eye movements |
front 45 8 sensory areas of the cerebral cortex | back 45 1) primary somatosensory cortex, 2) somatosensory association cortex, 3) visual areas, 4) auditory areas, 5) olfactory cortex, 6) gustatory cortex, 7) visceral sensory area, 8) vestibular cortex |
front 46 The sensory area located in the postcentral gyri | back 46 primary somatosensory cortex |
front 47 Primary somatosensory cortex | back 47 receives sensory information from the skin, skeletal muscles, and joints; capable of spatial discrimination; identification of body region being stimulated |
front 48 Function of the somatosensory association cortex | back 48 integrates sensory input from primary somatosensory cortex; determines size, texture, and relationship of parts of objects being felt |
front 49 Primary visual striate cortex | back 49 found in the extreme posterior tip of the occipital lobe |
front 50 The primary visual (striate) cortex is buried where? | back 50 In the calcarine sulcus |
front 51 Function of the primary visual (striate) cortex | back 51 receives visual information from the retinas |
front 52 Location of the visual association area | back 52 surrounds the primary visual cortex |
front 53 Function of the Visual Association Area | back 53 Uses past visual experiences to interpret visual stimuli (color, form and movement) |
front 54 The Visual Association Area involves what part of the hemispheres? | back 54 The entire posterior halves of the hemispheres. |
front 55 The auditory areas | back 55 Primary auditory cortex and Auditory association area |
front 56 Where is the primary auditory cortex located? | back 56 superior margin of the temporal lobes |
front 57 Function of the primary auditory cortex | back 57 interprets information from inner ear as pitch, loudness, and location |
front 58 Where is the Auditory Association Area located? | back 58 posterior to the primary auditory cortex |
front 59 Function of the auditory association area. | back 59 Stores memories of sounds and permits perception of sounds. |
front 60 Where is the sensory area of the olfactory cortex located? | back 60 medial aspect of the temporal lobes (in piriform lobes) |
front 61 This is part of the primitive rhinencephalon, along with the olfactory bulbs and tracts. | back 61 olfactory cortex |
front 62 Function of the olfactory cortex | back 62 conscious awareness of odors |
front 63 Where is the sensory area of the gustatory cortex located? | back 63 insula |
front 64 Function of the gustatory cortex. | back 64 perception of taste |
front 65 Where is the visceral sensory area located? | back 65 posterior to the gustatory cortex |
front 66 Function of the visceral sensory area. | back 66 conscious perception of visceral sensations (upset stomach or full bladder) |
front 67 Where is the vestibular cortex located? | back 67 posterior part of the insula and adjacent parietal cortex |
front 68 Function of the vestibular cortex. | back 68 responsible for conscious awareness of balance (position of the head in space) |
front 69 Multimodal Association Areas | back 69 Receive inputs from multiple sensory areas and sens outputs to multiple areas, including the premotor cortex |
front 70 Allow us to give meaning to information received, store it as memory, compare it to previous experience, and decide on action to take | back 70 Multimodal Association Areas |
front 71 Name the three Multimodal Association Areas | back 71 Anterior association area (prefrontal cortex), Posterior association area, Limbic association area |