Nervous System

Question 1

What are the 2 divisions of the nervous system?

Answer 1

1. Central Nervous System (brain & spinal cord)
2. Peripheral Nervous System (cranial & spinal nerves, and ganglia)

Question 2

What is the function of the CNS?

Answer 2

1. integration and processing of info
2. coordinate sensory input & motor output

Question 3

What is the function of the PNS?

Answer 3

1. transmit sensory info to CNS (afferent)
2. carry impulse to muscles glands (efferent)

Question 4

Compare afferent & efferent

Answer 4

afferent = info received & sent to CNS (arrives at CNS)
efferent = CNS send interpretation of info to muscles/glands (exits CNS)

Question 5

Describe the tree of the PNS

Answer 5

1. Sensory (afferent division)
   a. somatic sensory
   b. visceral sensory
2. Motor (efferent division)
   a. somatic motor
   b. automatic motor
   i. sympathetic
   ii. parasympathetic

Question 6

Somatic sensory

Answer 6

sensory receptors in skin, fascia, joints, skeletal muscles, special senses (in sensory afferent division

Question 7

Visceral sensory

Answer 7

sensory receptors in viscera (smooth/cardiac muscle & organs) (in sensory afferent)

Question 8

Somatic Motor

Answer 8

“voluntary” nervous system: innervates skeletal muscle (motor efferent)

Question 9

Automatic motor

Answer 9

“involuntary” nervous system: innervates cardiac & smooth muscle (motor efferent)

Question 10

What are the two cell types within neural tissue?

Answer 10

1. neurons
2. neuroglia

Question 11

Neurons

Answer 11

make up nerves - approximately 20 billion in human body - most cannot divide

Question 12

Bundles of cell bodies & axons in CNS

Answer 12

bundle of cell bodies = nuclei
bundle of axons = tract

Question 13

Bundles of cell bodies & axons in PNS

Answer 13

bundle of cell bodies = ganglion
bundle of axons = nerve

Question 14

Neuroglia (5):

Answer 14

• supportive framework for neuron
• approx 100 billion glial cells
• small and mitotically active
• regulate extracellular environment
• nervous system is 50:50 mixture of neurons & glial cells

Question 15

What are the types of glial cells in the CNS (4)

Answer 15

1. astrocytes
2. oligodendrocytes
3. microglia
4. ependymal cells

Question 16

What are the types of glial cells in PNS (2)

Answer 16

1. satellite cells
2. Schwann cells

Question 17

Astrocytes (4) functions:

Answer 17

Largest, most abundant glial cells
1. regulate ion composition of ECF
2. help maintain blood-brain barrier
3. repair damaged neural tissue
4. structural framework for neurons

Question 18

What cell junctions are in blood-brain barrier?

Answer 18

tight junctions

Question 19

Oligodendrocytes (4)

Answer 19

• fewer processes than astrocytes
• processes connect a few axons
• wrap axons in sheath of myelin
• CNS version of Schwann cells

Question 20

What creates the white matter of the brain and how does this differ from brain gray matter?

Answer 20

The white matter of the brain is created by the myelin of oligodendrocytes and the grey matter lacks myelin

Question 21

White vs gray matter

Answer 21

gray - somas & unmyelinated axons
white - myelinated axons

Question 22

Microglia

Answer 22

• smallest glial cell
• remove waste & pathogens by phagocytosis

Question 23

Ependymal cells

Answer 23

• line ventricles & central canal
• monitor composition of CSF

Question 24

Satellite cells

Answer 24

1. surround cell bodies of ganglia
2. regulate waste nutrient diffusion between ECF and cell bodies

Question 25

2 Steps to formation of myelin sheath

Answer 25

1. Schwann cells wrap around axon several times
2. nucleus pushed to periphery

Question 26

What part of the Schwann cell is the myelin sheath?

Answer 26

Schwann cell plasma membrane

Question 27

Myelinated vs unmyelinated

Answer 27

myelinated - has multiple layers of Schwann cell membrane
unmyelinated - single layer of Schwann cell plasma membrane

Question 28

What are the 2 functional classes of neurons?

Answer 28

1. sensory neurons - afferent
2. motor neurons - efferent

Question 29

Functions of interneurons (3)

Answer 29

1. perform intergration
2. receive, process, and store information
3. “decide” proper response to stimulus

Question 30

Anatomical classes of neurons (4)

Answer 30

1. anaxomic
2. bipolar
3. pseudounipolar/unipolar
4. multipolar

Question 31

Anaxomic (4)

Answer 31

• lacking axons
• cannot distinguish dendrites from axons
• rare
• found in retina

Question 32

Bipolar (3)

Answer 32

• two ends
• 2 poles coming off soma
• in retina

Question 33

Pseudounipolar

Answer 33

• cell body off to the side
• one pole exits soma
• dendrite straight to axon - don’t go through soma
• in sensory neurons of PNS

Question 34

Multipolar (3)

Answer 34

• many poles from soma
• most common neuron
• found in motor and interneurons

Question 35

What type of innervation circuit?

Answer 35

diverging: single input - multiple outputs

Question 36

What type of innervation circuit?

Answer 36

converging: multiple inputs - single output

Question 37

What kind of cells allow convergence in the cerebellum?

Answer 37

Purkinje cells (highly branched dendrites, receive stimuli from 1000s of neurons)

Question 38

6 Regions of Human Brain:

Answer 38

1. Cerebrum
2. Cerebellum
3. Medulla Oblongata
4. Pons
5. Mesencephalon (mid-brain)
6. Diencephalon (pineal, thalamus)

Question 39

What is the outer gray matter in cerebrum?

Answer 39

telencephalon

Question 40

What are the lobes of the cerebrum?

Answer 40

1. frontal
2. temporal
3. occipital
4. parietal
5. insular

Question 41

Central sulcus function

Answer 41

separates frontal & parietal lobes

Question 42

Frontal lobe components (2)

Answer 42

1. primary motor cortex (precentral gyrus)
2. prefrontal cortex (frontal association area)

Question 43

Primary motor cortex - location & function (2)

Answer 43

aka (precentral gyrus) of frontal lobe
1. skeletal muscle control
2. directs somatic motor neurons (voluntary)

Question 44

Prefrontal cortex - location & function (4)

Answer 44

aka frontal association area of frontal lobe
- reasoning skills
- predicting future events & consequences
- temporal relationship between events
- motivation

Question 45

Parietal lobe

Answer 45

has post-central gyrus = primary somatosensory cortex

Question 46

Primary somatosensory cortex: location, function

Answer 46

post-central gyrus of parietal lobe
process sensation of touch, pain, taste, temperature

Question 47

Why is the touch on your arm different from your hand?

Answer 47

more convergence in arm - think of homunculus man (smaller area increase convergence and vice versa)

Question 48

What is the contralateral nature of motor & sensory cortices?

Answer 48

control right arm movement with left motor cortex and same for sensory - opposites

Question 49

What are the 3 association areas of the cortex and their functions:

Answer 49

1. somatic sensory association area - interpret size, shape, and texture (feel keys in pocket)
2. visual association area - visual interpretation
3. auditory association area - sound interpretation

Question 50

Temporal lobe 4 special regions

Answer 50

1. olfactory cortex
2. auditory cortex
3. hippocampus
4. amygdala

Question 51

Hippocampus

Answer 51

short-and-long term memory formation (a nucleus deep in temporal lobe)

Question 52

Amygdala

Answer 52

• processing of emotions
• size correlates positively with aggression

Question 53

How does the amygdala differ in those with normal activity and those with PTSD?

Answer 53

normal: emotional learning & self-reflection
PTSD: “survival mode” - hypervigilant

Question 54

Occiptial lobe function

Answer 54

1. visual cortex - stimuli arrive
2. visual association arrive - visual interpretation

Question 55

Insular lobe

Answer 55

gustatory cortex (behind temporal & frontal lobe)

Question 56

How do we know the somatosensory regions?

Answer 56

1. historically via epileptic surgery
2. fMRI - O2-rich blood indicates brain activity - (Linus Pauling…. proposed DNA triple helix, discovered α-helix & β-pleated sheet, and difference in magnetic pull of O2 rich & O2 poor blood)

Question 57

Cerebellum Functions (3)

Answer 57

1. balance
2. coordination of body movements
3. proprioception (awareness of body in space)

Question 58

Medulla Oblongata Functions (3)

Answer 58

1. connects spinal cord to brain
2. relay station for sensory and motor stimuli
3. autonomic nervous system control centers (cardiovascular, vasomotor, respiratory)

Question 59

Cardiovascular control center functions (2)

Answer 59

1. regulate heart rate
2. regulate strength of contraction
   (found in medulla oblongata)

Question 60

Vasomotor control center function

Answer 60

distribution of blood flow (found in medulla oblongata)

Question 61

Respiratory control center

Answer 61

rhythmicity of breathing (found in medulla oblongata)

Question 62

Pons Functions

Answer 62

1. sleep/wake cycles
2. switch from inspiration to exhalation

Question 63

Mesencephalon structures

Answer 63

aka “Mid-brain”
1. corpora quadrigemina
2. cerebral aqueduct

Question 64

Superior colliculus functions

Answer 64

part of corpora quadrigemina
1. integrates visual information with other senses
2. visually track moving objects
3. initiate reflex to visual stimulus

Question 65

Inferior colliculus functions

Answer 65

part of corpora quadrigemina
1. relay auditory information to thalams
2. startle response to auditory stimuli

Question 66

Cerebral Aqueduct function

Answer 66

sends cerebral spinal fluid where it is needed

Question 67

Diencephalon structures

Answer 67

1. pineal gland
2. thalamus
3. hypothalamus

Question 68

Pineal gland functions

Answer 68

1. secretes melatonin
2. controls sleep/wake cycle
3. secretion varies by age (teen sleep cycle)

Question 69

Where is the pineal gland in lizards and what is its function?

Answer 69

It is on the top of their head - it is called pineal eye - light triggers afferent impulse to pineal gland

Question 70

Thalamus function

Answer 70

“switchboard” for sensory & motor information to and from cerebral cortex

Question 71

Hypothalamus function

Answer 71

1. controls drive for thirst, hunger, and sex
2. helps regulate blood pressure, body temperature, and heart rate
3. endocrine gland - releases hormones

Question 72

Pituitary gland functions

Answer 72

major endocrine gland (growth hormone, luteinizing hormone, follicle-stimulating hormone, antidiuretic hormone (Vasopressin))

Question 73

What are the 3 meningeal layers?

Answer 73

1. dura mater
2. arachnoid mater
3. pia mater

Question 74

Dura mater layers

Answer 74

1. endosteal layer
2. dural sinus
3. meningeal layer

Question 75

Arachnoid mater parts

Answer 75

1. arachnoid membrane
2. subarachnoid space
3. arachnoid trabeculae (support vasculature)

Question 76

Pia mater location

Answer 76

is bound to surface of brain by astrocytes

Question 77

Functions of Cerebral Spinal Fluid

Answer 77

1. pad neural tissue from bone
2. supports the brain
3. removal of wastes by glymphatic system

Question 78

What area synthesizes CSF?

Answer 78

choroid plexus

Question 79

How is CSF made (4)?

Answer 79

1. CSF constantly produced at each choroid plexus
2. most CSF enters subarachnoid space at 4th ventricle
3. flows through CNS
4. enters superior sagital sinus via arachnoid granulations/villi
   - goes back into circulatory system and repeats

Question 80

How can we control when we pee?

Answer 80

1. prefrontal cortex sends inhibitory signal
2. inhibition overridden during SEVERE stress

Question 81

axosomatic synapse

Answer 81

synapses that are made onto the soma or cell body of a neuron

Question 82

axodendritic synapse

Answer 82

synapse that one neuron makes onto the dendrite of another neuron - most common (axon to dendrite)

Question 83

axoaxonic synapse

Answer 83

synapse from one axon to another