Chapter 2 - Nervous System Organization

Question 1

What are the four common features of neurons? What is the function?

Answer 1

• cell body
• dendrites
• axon
• terminal synaptic buttons

Question 2

What is the function of neuron?

Answer 2

• receive and conduct electrochemical signals

Question 3

Cell body of neuron

Answer 3

metabolic center, protein synthesis, DNA located in nucleus

Question 4

Dendrites

Answer 4

receive info from other cells

Question 5

Axon

Answer 5

• info/AP is conducted down this to other neurons, muscles or glands
• surrounded by myelin sheaths

Question 6

Terminal synaptic buttons

Answer 6

• chemical communication w/ other neurons
• main proponent in the release of neurotransmitters
• contain vesicles w/ NTs

Question 7

Myelin sheath

Answer 7

covers the axon of some neurons and helps speed of impulses

Question 8

Nodes of Ranvier

Answer 8

gaps btwn myelin

Question 9

Microglia

Answer 9

• glial cell in CNS
• phagocytic, clean/metabolize debris and dead cells
• increase in number when brain is injured

Question 10

Astrocytes

Answer 10

• glial cell in CNS
• feet form BBB, provide nutrient (glucose) and structural support, also phagocytic

Question 11

Oligodendrocytes

Answer 11

• glial cell in CNS
• form myelin sheaths

Question 12

Schwann cells

Answer 12

• glial cell in the PNS
• form myelin sheaths

Question 13

Resting membrane potential

Answer 13

• -70 mV
• caused by electrical imbalance btwn inner and outer surface of membrane

Question 14

What ions maintain resting membrane potential?

Answer 14

• Na+ - outside of membrane, always excitatory
• Cl- - outside of membrane, always inhibitory
• K+ - inside of membrane, always inhibitory
• negatively charged proteins

Question 15

Action potential

Answer 15

• electrical potential across neuron membrane that raises potential to threshold (-55mV)

Question 16

What do action potentials result in?

Answer 16

• selectively permeable membrane to ions
• active transport of Na+ and K+
• voltage gated Na+ channels open, letting Na+ go into cell, triggers opening of K+ channels, which moves K+ out of the cell

Question 17

Channel

Answer 17

• ions can cross the lipid belayed through the appropriately shaped channel

Question 18

Gated channel

Answer 18

• changes shape to allow certain substances to cross membrane
• voltage and chemically gated

Question 19

Pump

Answer 19

• changes shape to carry substances across the membrane

Question 20

Depolarization

Answer 20

• when the membrane is getting less negative
• typically results in reaching threshold

Question 21

Absolute refractory period

Answer 21

NO action potential can occur

Question 22

Relative refractory period

Answer 22

requires a higher depolarization in order to reach threshold

Question 23

Where do neurons communicate?

Answer 23

at the synapse
- NTs are released

Question 24

What occurs when neurons communicate?

Answer 24

• rupture of vesicles that release NTs into the synaptic cleft
• NT binds to binding site and causes the pore to open on the postsynaptic cell

Question 25

Excitatory Post Synaptic Potential (EPSP)

Answer 25

• more likely to cause an AP by depolarizing the membrane

Question 26

Inhibitory Post Synaptic Potential (IPSP)

Answer 26

• repolarizes the membrane, making it less likely to cause an AP

Question 27

Acetylcholine

Answer 27

• motor control, autonomic nervous system (parasym), memory, sleep/wake
• located at neuromuscular junction

Question 28

Norepinephrine

Answer 28

• mood!, hormones, arousal, attention, and eating

Question 29

Serotonin

Answer 29

• sleep/wake cycle, appetite, mood!

Question 30

Dopamine

Answer 30

• motor behavior!, pleasure/reward!, cognition

Question 31

Glutamate

Answer 31

• major excitatory NT in the brain
• more likely to cause APs, depol. the cell

Question 32

GABA

Answer 32

• major inhibitory NT in the brain
• more likely to inhibit APs, repol. the cell

Question 33

Agonist

Answer 33

• mimics NT closely enough to activate receptor
• EX: morphine mimics endorphines

Question 34

Antagonist

Answer 34

• blocks NT by occupying the receptor site
• EX: curare blocks ACh receptors

Question 35

Central Nervous System (CNS)

Answer 35

• mediates behavior
• brain and spinal cord

Question 36

Somatic Nervous System

Answer 36

• transmits sensation and produces movement
• cranial nerves and spinal nerves

Question 37

Autonomic Nervous System

Answer 37

• balances internal functions
• sympathetic - fight or flight (arousing)
• parasympathetic - rest and digest (calming)

Question 38

What protects the brain?

Answer 38

• Skull - uneven thickness and bony projections to hold brain in place
• Meninges - Dura mater (tough), Arachnoid membrane (subarachnoid space contains CSF and blood), Pia mater (directly on brain, meningitis occurs here)

Question 39

Ventricular system

Answer 39

• produces and houses CSF, provides buoyancy and cushioning to brain, and allows for disposal of waste
• blockage results in buildup of pressure
• R lat., L lat., third and fourth

Question 40

Circle of Willis

Answer 40

• communicating arteries provide blood btwn front and back of brain
• provides protection in that if carotids are tied off, blood flow is not completely blocked in brain
• middle cerebral artery supplies blood to motor areas

Question 41

What is the brainstem composed of?

Answer 41

• pons - arousal/sleep/wake
• medulla - BP, respirations, HR

Question 42

What is the reticular activating system?

Answer 42

• pons and medulla functioning together
• imp. for selective attention
• overactivation results in sensory deprivation
• damage could result in coma

Question 43

Hypothalamus

Answer 43

• works closely w/ pituitary gland
• release of hormones, metabolic function, homeostasis, body temp
• stimulates adrenal gland during stress response

Question 44

Thalamus

Answer 44

• all sensory info other than smell is processed here then sent to designated lobe

Question 45

Basal Ganglia

Answer 45

• higher motor function (initiating and planning movements)!!
• cognition and mental flexibility controlled by caudate nucleus
• communicated w/ the cerebellum and red nucleus

Question 46

Limbic System

Answer 46

• motivation and emotional regulation
• amygdala - fear, emotional memory/conditioning
• hippocampus - learning and (spatial) memory, spatial navigation

Question 47

Corpus Callosum

Answer 47

• large bundle of fibers that allows simultaneous communication btwn R and L hemispheres
• anterior commissure and hippocampal commissure also contribute to function

Question 48

Clive Wearing

Answer 48

• herpes caused damage to hippocampus
• experiences amnesia and mood swings/early bouts of aggression
• auditory hallucinations
• 20 second bouts of memory

Question 49

Cerebellum

Answer 49

balance and coordination