brain Flashcards
(24 cards)
gray matter
contains neuroglia
cell bodies of interneurons organised into nuclei
white matter
contains neuroglia
myelinated axons of interneurons organised into tracts
cerebrum
divided into 2 cerebral hemispheres by longitudinal fissure
separated from cerebellum by transverse fissure
gyrus
ridge
sulcus
shallow grove
5 lobes
parietal, frontal, occipital, insula and temporal
cerebral hemisphere divided into 3 regions
cerebral cortex- contains nuclei
cerebral white matter- contains tracts
basal nuclei- islands of gray matter deep within white matter
cerebral cortex contains 3 main functional areas
motor area- voluntary skeletal muscle movement
sensory areas- recieve and localise sensory input
association areas- interpret sensory input, perform intellectual functions, store memories and personalty
motor areas in cerebral cortex
forntal lobe
PMC=precentral gyrus [generates somatic motor output that stimulates voluntary skeletal movements damage= paralysis
motor association area= frontal eye field-voluntary eye movement
broca’s area (left hemisphere) - muscles in speech production
premotor cortex- learned, skilled motor activities of a complex nature
sensory area in cerebral cortex
located in insula, parietal, temporal and occipital
general and special sensory receptors
primary somatosensory cortex( postcentral gyrus each parietal lobe)-general sensory info
somatosensory association area- interprets general sensory input and compares it to stored memories to recognise
special sensory areas
visual area(occipital): cortex= receives visual input association area= interpret visual input auditory areas(temporal): cortex= receives auditory input association area= interpret auditory input olfactory (temporal)- smell gustatory (insula)- taste visceral (insula)-visceral sensations vestibular (insula)- balance
other association areas
wernicke's area(left temporal lobe/ hemisphere)- comprehends written and spoken language prefrontal cortex (frontal)- intellect, complex learning, personalty, behaviour
cerebral white matter
myelinated axons organised into 3 tracts:
commissural= conduct info between 2 cerebral hemisphere
association= conduct info between cortical areas in same hemisphere
projection= conduct info between cerebral cortex & lower parts of CNS
cerebral nasal nuclei
communicate with the motor areas of the cerebral cortex to facilitate smooth skeletal movements
cerebellum
snores smooth, coordinated skeletal movements and maintains posture and balance
Diencephalon
thalamus- processes and integrates sensory input, then it relays it to the correct cerebral destination
hypothalamus- control activities of ANS. Regulate body temp, hunger, and emotions also produce hormones
epithalamus- pineal gland which produces melatonin= sleep
limbic system
establishes and controls emotions. Involved in long term memories hippocampus converts short to long term memories
brain stem
midbrain [gray matter]- visual and auditory reflex centre, produces dopamine, cranial nerves that regulate eye movements
pons [gray matter]- cranial nerve involved in taste, chewing, eye movement, hearing, balance and facial sensation/expression, nuclei regulate breathing
medulla oblongata
autonomic nuclei controlled by hypothalamus
cardiovascular- controls heart rate, force of contraction and blood vessel diameter
respiratory- control the rate and depth of breathing
cranial nerves that regulate swallowing, tongue movements and digestive functions
reticular formation
extends through central core of brain stem
contains reticular activating system RAS
maintains consciousness
transient ischaemic attack
blood flow to a brain area is temporarily reduced no neurons die warning of impending stroke
stroke
blood flow to brain area is reduced or blocked and neurons die
causes blood clot in cerebral artery= ischaemic stroke
ruptured blood vessels= hemorrhagic stroke
alzheimers
death of neuron causes brain to shrink
parkinsons
degenerative and death of dopamine releasing neurons of substantia nigra
