Final

Question 1

From deepest to superficial list the layers of the epidermis

Answer 1

Stratum basale 
Stratum spinosum 
Stratum granulosum 
Stratum lucidum (only in thick skin)
Stratum corneum 

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Ch. 8 Obj. 2

Question 2

As cells are pushed superficially, they lose their nucleus and organelles and become dead bags of keratin

Answer 2

Corneocytes

Ch. 8 Obj. 2

Question 3

When corneocytes are constantly shed from the surface of the stratum corneum the shed flakes are

Answer 3

Squames

Ch. 8 Obj. 2

Question 4

Cells divide and grow in basale, then migrate upwards, losing their nuclei and becoming bags of keratin

Answer 4

Keratinocytes

Ch. 8 Obj. 2

Question 5

Layers of epidermis:

“Horn-like”

Answer 5

Corneum

Ch. 8 Obj. 2

Question 6

Layers of epidermis:

“Clear”

Answer 6

Lucidum

Ch. 8 Obj. 2

Question 7

Layers of epidermis:

“Grainy”

Answer 7

Granulosum

Ch. 8 Obj. 2

Question 8

Layers of epidermis:

“Spiny”

Answer 8

Spinosum

Ch. 8 Obj. 2

Question 9

Layers of epidermis:

• layer from which all other regenerate

Answer 9

Basale

Ch. 8 Obj. 2

Question 10

The skin is what kind of epithelium

Answer 10

Stratified squamous

Ch. 8 Obj. 2

Question 11

A cell membrane surrounding the protein keratin and make up 90% of the cells of epidermis

Answer 11

Keratinocyte

Ch. 8 Obj. 4

Question 12

Cells which produce and carry pigment granules that give the skin it’s color…about 8% of cells

Answer 12

Melanocytes

Ch. 8 Obj. 4

Question 13

Cells which is the skin’s version of a type of immune cell(dendritic cell) - phagocytes

Answer 13

Langerhans cells

Ch. 8 Obj. 4

Question 14

Light touch receptors

Answer 14

Merkel discs

Ch. 8 Obj. 4

Question 15

_____ and ____ of the skin help make a waterproof deal between the moist tissues below and the dry outside world

Answer 15

Keratin and lipids

Ch. 8 Obj. 4

Question 16

What vitamin has to do with skin

Answer 16

Vitamin D

Ch. 8 Obj. 4

Question 17

____ cells found in stratum basale

• full of intermediate filament protein keratin a
• divide to regenerate skin keratinocytes
• cells terminally differentiate as they move more superficially
• eventually lose their nuclei and become just keratin surrounded by a membrane
• secrete lipids that give skin waterproof and flexible properties

Answer 17

Stem cells

Ch. 8 Obj. 4

Question 18

A connective tissue layer beneath the epidermis

Answer 18

Dermis

Ch. 8 Obj. 6

Question 19

Two regions of the dermis

Answer 19

Papillary and reticular

Ch. 8 Obj. 6

Question 20

Region about 1/5 of the thickness of the dermis. Ridges that penetrate into epidermis and contain blood vessels and meissner corpuscles(sensory structures)

Answer 20

Papillary region

Ch. 8 Obj. 6

Question 21

4/5 of the dermis and the nerves and blood vessels run through this dermis region. Also hair roots and glands are found here.

Answer 21

Reticular region

Ch. 8 Obj. 6

Question 22

What kind of tissue is the dermis

Answer 22

Dense connective

Ch. 8 Obj. 6

Question 23

Medical name for “stretch marks” or tears in dermis

Answer 23

Striae

Question 24

Cellular components of bone:

• precursor to other bone-cell types

Answer 24

Osteogenic cell

Ch. 9 Obj. 2

Question 25

Cellular components of bone:

• forms bone

Answer 25

Osteoblasts (bone building blasts)

Ch. 9 Obj. 2

Question 26

Cellular components of bone:

• maintains bone tissue

Answer 26

Osteocytes

Ch. 9 Obj. 2

Question 27

Cellular components of bone:

• breaks down bone

Answer 27

Osteoclasts (bone chewing clasts)

Ch. 9 Obj. 2

Question 28

Disease when bone has too much mineral and becomes brittle and fractures easily

Answer 28

Osteogenesis imperfecta

Ch. 9 Obj. 2

Question 29

Condition where bone has too much collagen and bones are soft and pliable

Answer 29

Children: rickets
Adults: osteomalacia

Ch. 9 Obj. 2

Question 30

A compound of calcium, phosphate and hydroxyl groups that primarily makes the inorganic portion of bone

Answer 30

Hydroxyapatite

Ch. 9 Obj. 2

Question 31

2 Extracellular components of bone

Answer 31

Inorganic
Organic

Ch. 9 Obj. 2

Question 32

Extracellular components of bone:

• portion mostly made up of hydroxyapatite

Answer 32

Inorganic

Question 33

Extracellular components of bone:

• portion mostly collagen

Answer 33

Organic

Ch. 9 Obj. 2

Question 34

Role of calcitonin in bone remodeling and blood Ca++ regulation

Answer 34

⬆️ osteoblasts
⬆️ bone formation
⬇️ osteoclasts
⬇️ blood Ca++

Ch. 9 Obj. 9-10

Question 35

Role of PTH in bone remodeling and blood Ca++ regulation

Answer 35

⬆️ osteoclasts
⬆️ blood Ca++
⬇️ osteoblasts
⬇️ bone formation

Ch. 9 Obj. 9-10

Question 36

Role of calictriol in blood Ca++ regulation

Answer 36

• hormonally-active vitamin D
• not directly involved with bone
• PTH stimulates kidneys to release it which ⬆️ absorption of Ca++ from food

Ch. 9 Obj. 9-10

Question 37

The point of contact between nervous and muscular system

Answer 37

Neuromuscular junction

Ch. 10 Obj. 11

Question 38

List, in order, the events which create the neuromuscular junction that result in an action potential in muscle

Answer 38

• motor neuron action potential arrives @ neuromuscular junction

1. Action potential triggers release of ACH
2. ACH diffuses across the space(synaptic cleft) between nerve and muscle cells ➡️ binds to ACH receptors ➡️ triggers a muscle cells action potential
3. Action potential travels along and into muscle cells to begin contraction cycle
4. ACH broke. Down by enzyme AChE(acetylcholinesterase)

Ch. 10 Obj. 12

Question 39

Describe sequence of events that link muscle cell action potential to release of Ca++ from sarcoplasmic reticulum

Answer 39

• muscle cell action potential travels along surface
• penetrates into interior of muscle cell @ transverse tubules (T tubules)
• remember T tubules are in a triad with two sacs of sarcoplasmic reticulum (SR)
• SR releases Ca++

Ch. 10 Obj. 13

Question 40

Describe sequence from Ca++ release to contraction

Answer 40

• Ca++ released from SR
• binds to troponin
• moves tropomyosin aside = exposes binding sites for myosin on the actin of thin filament

Ch. 10 Obj. 14

Question 41

These cells receive, process, and transmit information

Answer 41

Neurons/nerve cells

Ch. 11 Obj. 6

Question 42

“Thinking” cells of the brain

Answer 42

Neurons

Ch. 11 Obj. 6

Question 43

Cells with major role in support and nutrition of the brain

Answer 43

Glia/glial cells

Ch. 11 Obj. 6

Question 44

Do glial cells manipulate info

Answer 44

No

Ch. 11 Obj. 6

Question 45

Cells that:
• maintain the internal environment so that neurons can do their job
• control borders
• maintain chemical balance
• insulate
• provide immune defense
• produce and circulate fluid

Answer 45

Glia/glial cells

Ch. 11 Obj. 6

Question 46

When firing an action potential is impossible

Answer 46

Absolute refractory period

Ch. 11 Obj. 16

Question 47

When firing an action potential is difficult, but not impossible

Answer 47

Relative Refractory period

Ch. 11 Obj. 16

Question 48

List sequence of action potential in terms of threshold, depolarization, repolarization, hyperpolarization, and absolute and refractory periods

Answer 48

• resting:
- Na+ = rest
- K+ = closed
• depolarization to threshold

ABSOLUTE REFRACTORY PERIOD:
• Na+ = open
• K+ = open
Na+ = inactivating

RELEATIVE REFRACTORY PERIOD:
• K+ = open
Na+ = rest

Ch. 11 Obj. 16

Question 49

List and describe, in order, the sequence of events at the synapse

Answer 49

1. Action potential arrives at end bulb
2. Ca++ enters presynaptic terminal
3. Ca++ interacts c synaptic vesicles = they move to and fuse c presynaptic membrane
4. Neurotransmitter is released from vesicles = binds to post-synaptic transmitter receptor
5. Receptor protein undergoes a change in shape (omega figure=allows ions to flow)
6. Ion flow = a post-synaptic potential
   
   • inhibitory (IPSP)
   • excitatory (EPSP)

Ch. 11 Obj. 20

Question 50

Origin of graded vs. action potentials

Answer 50

Graded: dendrites and cells body

Action: trigger zones and propagate along axon

Ch. 11 Obj. 26

Question 51

Types of channels graded vs. action potentials

Answer 51

Graded: Ligand-gated or mechanically-gates

Action: voltage-gated for Na+ and K+

Ch. 11 Obj. 26

Question 52

Conduction for graded vs. action potentials

Answer 52

Graded: short distances
Action: long distances

Ch. 11 Obj. 26

Question 53

Amplitude of graded vs. action potentials

Answer 53

Graded: varies (

Question 54

Duration for graded vs. action potentials

Answer 54

Graded: longer
Action: short

Ch. 11 Obj. 26

Question 55

Polarity of graded vs. action potentials

Answer 55

Graded: EPSP or IPSP
Action: EPSP (always excitatory!)

Ch. 11 Obj. 26

Question 56

Refractory period for graded vs. action potentials

Answer 56

Graded: not present
Action: present

Ch. 11 Obj. 26