Module 4 - Nervous System

Question 1

central nervous system

Answer 1

• brain & spinal cord
• processing and control center of nervous system

Question 2

brain

Answer 2

• found in cranial cavity
• four parts: brainstem, cerebellum, cerebrum, diencephalon

Question 3

spinal cord

Answer 3

• continuous with medulla oblongata and descends into vertebral canal
• consists of 31 segments with 31 pairs of spinal nerves

Question 4

peripheral nervous system

Answer 4

• cranial & spinal nerves, special sense organs
• somatic, autonomic, and enteric nervous systems

Question 5

somatic nervous system

Answer 5

• voluntary nervous system
• somatic afferent (sensory) nerve fibers transmit sensory info from body surface receptors to CNS
• somatic efferent (motor) nerve fibers relay impulses from CNS to skeletal muscles

Question 6

autonomic nervous system

Answer 6

• involuntary nervous system
• autonomic afferent (sensory) nerve fibers transmit sensory info from receptors in visceral organs to CNS
• autonomic efferent (motor) nerve fibers relay impulses from CNS to smooth muscle, cardiac muscle, and glands

Question 7

enteric nervous system

Answer 7

• nerves extending throughout GI tract
• enteric afferent (sensory) nerves transmit info such as chemical change from GI tract to CNS
• enteric efferent (motor) nerve fibers relay impulses to smooth muscle and GI tract glands

Question 8

peristalsis

Answer 8

waves of smooth muscle contraction, propelling food through GI tract

Question 9

sympathetic division

Answer 9

stimulatory role

Question 10

parasympathetic division

Answer 10

inhibitory role

Question 11

enteric nervous system

Answer 11

• involuntary
• enteric plexus of nerves extending throughout GI tract
• enteric afferent (sensory) nerve fibers transmit sensory info from GI to CNS
• enteric efferent (motor) nerve fibers relay impulses to smooth muscle and glands of GI tract; responsible for glandular secretions

Question 12

peristalsis

Answer 12

waves of smooth muscle contraction, propelling food through GI tract

Question 13

neurons

Answer 13

basic components of nervous system

Question 14

sensory neurons

Answer 14

transmit stimuli from body to CNS

Question 15

interneurons

Answer 15

remain within CNS, process and store information

Question 16

motor neurons

Answer 16

transmit stimuli from CNS to the body

Question 17

unipolar neuron

Answer 17

only has one nerve process extending from the cell body (found in ganglia)

Question 18

bipolar neuron

Answer 18

has two nerve processes extending from the cell body (found in retina, inner ear)

Question 19

multipolar neuron

Answer 19

has multiple nerve processes and dendrites extending from a singular cell body (majority of CNS)

Question 20

what are the CNS neuroglia?

Answer 20

astrocytes, oligodendrocytes, microglial cells, & ependymal cells

Question 21

astrocytes

Answer 21

• largest & most abundant
• connections with capillaries, neurons, synaptic endings, pia matter
• function: anchor to neuron, blood-brain barrier, recycle excess ions, secrete chemicals for neuron growth & migration, repair damaged tissue

Question 22

protoplasmic astrocytes

Answer 22

short, branching cytoplasmic processes in grey matter

Question 23

fibrous astrocytes

Answer 23

longer, unbranched cytoplasmic processes in white matter

Question 24

oligodendrocyte

Answer 24

• smaller with fewer cytoplasmic processes
• wrap tightly around axons, covering with layers of myelin sheath for insulation
• form segments of sheath around several axons at once, thought to contribute to axonal regrowth

Question 25

microglial cells

Answer 25

• smallest of CNS neuroglia
• thorn-like processes extending from ovoid bodies
• remove cellular debris, invading microorganisms, and nervous tissue damaged by phagocytosis

Question 26

ependymal cells

Answer 26

• single rows of cuboidal to columnar epithelial cells
• line ventricles of brain and central canal of spinal cord
• secrete and monitor cerebrospinal fluid
• form semipermeable membrane between CSF and interstitial fluid of CNS
• microvilli & cilia help circulate CSF

Question 27

what are the PNS neuroglia?

Answer 27

schwann cells & satellite cells

Question 28

schwann cells

Answer 28

• similar to oligodendrocytes, form myelin sheath around axons
• play role in regeneration of PNS neurons by guiding & stimulating regrowth
• many myelinate a single axon, gaps called Nodes of Ranvier

Question 29

satellite cells

Answer 29

• flat cells surrounding neuronal bodies residing within ganglia
• provide structural support & form barrier, regulating exchange of substances

Question 30

myelin

Answer 30

covering of lipid and protein that surrounds axons & increases with age

Question 31

nerves

Answer 31

cord-like structure composed of bundles of neuronal axons that transfer sensory information to the CNS and motor information from CNS

Question 32

anatomy of a nerve

Answer 32

axon –> myelin sheath –> endoneurium –> bundles of nerve fibers –> perineurium –> epineurium

Question 33

membrane potential

Answer 33

build up of negatively charged ions in membrane, and positively charged outside membrane

Question 34

ion channels

Answer 34

allow for flow down electrochemical gradient, creating a current

Question 35

voltage gated ion channel

Answer 35

• open in response to changes in membrane potential
• activation gate closed at rest

Question 36

ligand gated ion channel

Answer 36

open in response to binding of neurotransmitter/hormone latching to receptor

Question 37

mechanically gated ion channel

Answer 37

open in response to mechanical forces: stretching, vibration, pressure, etc.

Question 38

sodium / potassium pump

Answer 38

• Na+ higher outside, K+ higher inside
• pumps 3 Na+ out and 2 K+ in

Question 39

leakage channel

Answer 39

• open and close randomly
• more K+ than Na+ channels

Question 40

depolarizaton

Answer 40

• plasma membrane becomes less negatively charged
• reaching threshold of -55mv causes voltage gated channels to open
• sodium rushing in, pushing membrane potential to the positives, action potential then passing through

Question 41

repolarization

Answer 41

voltage gated potassium channels open, Na+ flows out

Question 42

hyperpolarization

Answer 42

• no possibility of another stimulus, inactivated Na+ channels
• sodium channels open but only strong stimulus can trigger action potential
• K+ still open, making depolarization harder

Question 43

saltatory conduction

Answer 43

• occurs in myelinated axons
• myelin sheaths lack voltage gated channels, action potential jumps from node to node

Question 44

continuous conduction

Answer 44

• occurs in unmyelinated axons
• sodium influx creates local positive charge, depolarizing region of cell
• depolarization of one region triggers depolarization of adjacent region

Question 45

why does the action potential only propagates towards terminal?

Answer 45

despite current flowing in both directions, voltage gated channels become inactive, pushing current in other direction

Question 46

what is the speed of propagation determined by?

Answer 46

myelination, axon diameter, temperature

Question 47

mechanoreceptor

Answer 47

sense mechanical force like touch, vibration, pressure, and stretch

Question 48

thermoreceptor

Answer 48

sense change in temperature

Question 49

photoreceptor

Answer 49

sense light

Question 50

chemoreceptor

Answer 50

chemicals

Question 51

nociceptor

Answer 51

sensory receptor of painful stimuli

Question 52

osmoreceptor

Answer 52

sense osmotic pressure

Question 53

what are the three parts of the brainstem?

Answer 53

medulla oblongata, pons, midbrain

Question 54

parts of the diencephalon?

Answer 54

thalamus, hypothalamus, epithalamus

Question 55

thalamus

Answer 55

mood, emotions, movement, visual & auditory info

Question 56

hypothalamus

Answer 56

sleep/wake cycle, thirst, endocrine system

Question 57

epithalamus

Answer 57

emotional response to olfaction (smell)

Question 58

frontal lobe

Answer 58

cognitive thought and memory

Question 59

temporal lobe

Answer 59

auditory area, Wernicke’s area (speech comprehension), learning and memory, emotions

Question 60

parietal lobe

Answer 60

body orientation, primary and gustatory cortex (taste)

Question 61

occipital lobe

Answer 61

visual cortex & interpretation

Question 62

gyri

Answer 62

folds and bumps of brain

Question 63

sulci

Answer 63

grooves and indentations of brain

Question 64

meninges

Answer 64

layers between brain and skull: pia mater, arachnoid mater, dura mater

Question 65

subarachnoid space

Answer 65

space between pia mater and arachnoid mater, CSF fluid circulated here

Question 66

sinuses

Answer 66

peristeal and meningeal layers separate to create dural sinuses

Question 67

why is the blood brain barrier important?

Answer 67

breakdown of the barrier by toxins, inflammation, or trauma is life threatening