Body logistics (7-12)

Question 1

how are exocrine glands classified

Answer 1

shape

simple/ compound

type of secretion

Question 2

exocrine glands shape

Answer 2

• tubular

- acinar

Question 3

tubular

Answer 3

elongated

Question 4

acinar

Answer 4

grape shape

Question 5

simple exocrine glands

Answer 5

drain to one duct

Question 6

compound exocrine glands

Answer 6

multiple ducts drain to common duct

Question 7

structure of a gland

Answer 7

duct portion at the top where products secreted

secretory portion- main, lower body of the duct

Question 8

types of exocrine secretion

Answer 8

serous

mucous

Question 9

serous

Answer 9

watery proteinaceous fluids

- lubrications

Question 10

mucous

Answer 10

mucus rich in glycoprotein

Question 11

a common unicellular gland

Answer 11

goblet cell

Question 12

goblet cell

Answer 12

simple columnar epithelial cells that secrete mucus

Question 13

where are goblet cells found

Answer 13

• upper resp tract

- jejunum, colon

Question 14

function of goblet cell (unicellular)

Answer 14

• lubrication
• protection
• trap dust and microbes

Question 15

parotid salivary gland is the

Answer 15

biggest salivary gland

Question 16

parotid gland secretion type

Answer 16

serous- salivary amylase

Question 17

what innervates the parotid salivary gland

Answer 17

parasympathetic innervation

Question 18

function of parotid salivary glands

Answer 18

• secrete enzyme- digest food

- secret serous- lubricates bolus

Question 19

duct system in parotid glands

Answer 19

Acinar (where serous and mucous membranes are found)–> intercalated duct –> striated duct –> interlobular duct –> principle duct

Question 20

submandibular gland found

Answer 20

a salivary gland found on the jaw

Question 21

secretion type of submandibular glands

Answer 21

serous, mucous and mix (demilune)

Question 22

stimulation of submandibular

Answer 22

parasympathetic- watery saliva (enzyme)

sympathetic- thick saliva (mucus)

Question 23

where are myoepithelial cells found

Answer 23

role in normal mammary glands

- wraps around the edges of luminal acinar cells (where serous produced)

Question 24

role of myoepithelial cells

Answer 24

able to contract- expelling luminal continents from acinar e.g. milk

Question 25

features of myoepithelial cells

Answer 25

flattened nuclei- diff to see in histology

Question 26

what give myoepithelial cells the ability to contract

Answer 26

actin and mysoin filaments

Question 27

anatomical location of the ,liver

Answer 27

upper right abdomen- below diaphragm

Question 28

histological features of liver

Answer 28

parenchymal and non parenchymal cells

• hepatocytes
• kupffer cell
• stellate cells

Question 29

hepatocyte role

Answer 29

storage of iron, fat soluble vitamins and glycogen

synthesis of protein, bile, cholesterol

breakdown of hormones, drugs and toxins

Question 30

kupffer cells

Answer 30

ingest pathogens

recycle RBC

Question 31

stellate cells

Answer 31

vitamine A storage

Question 32

types of muscle tissue

Answer 32

skeletal
cardiac
smooth

Question 33

myoglobin present in

Answer 33

skeletal and cardiac muscle

Question 34

which muscle type. has voluntary control

Answer 34

skeletal

Question 35

which muscle has involuntary control

Answer 35

cardiac and smooth

Question 36

nerve muscle communication in skeletal muscle

Answer 36

direct

Question 37

nerve-muscle communication in cardiac

Answer 37

indirect

Question 38

nuclei arrangement ins skeletal muscle

Answer 38

right on the periphery

Question 39

nuclei arrangment in cardiac and smooth

Answer 39

central

Question 40

which muscle is striated

Answer 40

skeletal and cardiac

Question 41

1 muscle fibre =

Answer 41

1 striated muscle cell

• many myofibrils
• nucleus on periphery
• T tubules
• mitochondria (sacrosome)
• sarcolemma
• sarcoplasm
• SR

Question 42

a band

Answer 42

dark- thick myosin filament and slight cross over with thin actin

• stays same size during contraction

Question 43

I bands

Answer 43

light- thin actin filament

- get smaller

Question 44

z disc

Answer 44

middle of the I band

- get closer during contraction

Question 45

M band

Answer 45

in the middle of the sarcomere

Question 46

myofibrils forms

Answer 46

muscle fibre

Question 47

muscle fibers form

Answer 47

muscle fascicles

Question 48

muscle fascicles form

Answer 48

skeletal muscle

Question 49

muscle contraction at the NMJ

Answer 49

1) Nervous impulse arrive at NMJ
2) Ach released into synaptic cleft- binds to each receptors on the post-synaptic membrane
3) depolarisation of sarcolemma
4) voltage-gates Na+ channels opens nd sodium enters the cell
5) depolarisations reads across the sarcolemma and down into the T tubules
6) Voltage gated ca channels of terminal cisternae open
7) calcium released into sarcoplasm
8) Ca binds to TnC (subunit of troponin)- contractile cycle intitiated

Question 50

myasthenia gravis is what type of disease

Answer 50

autoimmune

Question 51

summary of myasthenia gravis

Answer 51

antibodies block NAch receptors- reducing sympathetic transmission–> muscle weakeness

Question 52

symptoms of myasthenia gravis

Answer 52

• ptosis, diplopia
• fatigue at end of day
• loss of breathing control (myasthenia crisis)

Question 53

treatment of MG

Answer 53

• immunosuppressive drugs

- acetylcholinesterase inhibitor

Question 54

botulism and the NMJ

Answer 54

clostridium botulinum produces botulinum Toxin A

- block NT release at motor end plate

Question 55

clinical use of botulinum A

Answer 55

muscle spasms, wrinkles

Question 56

organophosphate poisoning

Answer 56

inhibits Ach esterase–> continuous Ach activity at NMJ

Question 57

symptoms of organophosphate poisoning

Answer 57

cholinergic toxidrome

Question 58

cholinergic toxidrome Muscarinic symptoms

Answer 58

S- salivation
L- Lacrimation
U- urination
D- defecation
G- GI cramping
E- emesis

Question 59

cholinergic toxidrome nicotinic symptoms

Answer 59

M- muscle cramps
T- tacky cardia
W- weakness
T- twitching
F- fasciculations

Question 60

sliding filement model

Answer 60

1) myosin head hydrolyses App to ADP + P, reorientates itself and reenergises
2) Myosin heads bid to actin- cross bridges forms, P is released
3) myosin head tilts towards the centre of the sarcomere, ADP is released
4) New ATO binds to myosin head- cross bridge detach from actin

Question 61

Skeletal muscle histology

Answer 61

• peripheral
• striated
• 3 contractile cell types

Question 62

name the 3 contractile cell types of skeletal muscle

Answer 62

• Slow twitch- type 1
• fast twitch
• -> Type 2A
• -> Type 2B

Question 63

Type 1 skeletal fibres

Answer 63

slow twitch

• rich capillary supply
• aerobic
• high myoglobin levels
• many mitochondria
• many cytochromes
• red
• fatigue resistant
• endurance type activities
• standing/ walking

Question 64

Type 2A muscle fibres

Answer 64

fast twitch

• rich capillary supply
• aerobic
• high myoglobin
• many intermediate mitochondrial numbers
• many cytochromes
• red to pink
• moderate fatigue resistance
• assists type 1 and type 2B actiivites
• standing/ walking

Question 65

Type 2B muscle fibres

Answer 65

fast twitch

• poor capillary supply
• anaerobic
• low myoglobin levels
• few mitochondria
• few cytochromes
• white
• rapidly fatigues
• strengths/ anaerobic type activities
• e.g. sprinting

Question 66

which muscle fibres are red/ pink

Answer 66

Type 1 and Type 2A

- myoglobin

Question 67

which muscle fibres are white

Answer 67

Type 2B- fastest twitch

- no myoglobin

Question 68

cardiac muscle histology

Answer 68

Nuclei- central and large

• striations
• intercalated discs
• branching
• sarcomere not fully developed
• no T tubules
• 1 contractile cell tyope

Question 69

Purkunje fibres

Answer 69

no contractile machinery

- many glycogen and gap junctions

Question 70

purkunje fibres in the heart allow

Answer 70

rapid conduct- ventricles contract in synchronous manner

Question 71

smooth muscle hisotlogy

Answer 71

Nuclei- central and large

• fusiform (spindle-like shape that is wide in the middle and tapers at both ends)
• non striated
• no T tubules
• 1 contractile cell type

Question 72

muscle hypertrophy

Answer 72

repeated exercise –> microtears of muscle fibres–> new and extra myofibrils added

Question 73

muscle atrophy

Answer 73

caused byL immobilisartion, denervation of muscle and muscular dystrophy
- wasting of muscle tissue due to lack of use

Question 74

Duchenne muscular dystrophy inheritance

Answer 74

X-linked recessive

- dystrophin gene mutation

Question 75

pathophysiology of Duchenne muscular dystrophy

Answer 75

• absence of dystrophin
• excess calcium enter muscle cell
• calcium uptakes by mitochondria
• water drawn into mitochondria- burst
• rhabdomyolysis
• CK and myoglobin released into plasma

Question 76

rhabdomyolysis

Answer 76

rhabdomyolysis is a condition in which damaged skeletal muscle breaks down rapidly

Question 77

symptoms of Duchenne muscular dystrophy

Answer 77

• shoulders arms held backwards
• belly sticks out
• thin, weak thighs
• poor balance

Question 78

definition of connective tissue

Answer 78

tissue that connects, supports, binds or separates other tissues or organs

Question 79

structures of connective tissues

Answer 79

Cells, fibres and ground substance

Question 80

which cells make up connective tissue

Answer 80

• fibroblasts
• adipocytes
• reticular cells

Question 81

which fibres make up connective tissue

Answer 81

collagen, elastin, reticular fibres

Question 82

what makes up ground substance

Answer 82

• Viscous clear substance with slippery feel (high water content)
• Composed of proteoglycans called GAGs e.g. hyaluronic acids

Question 83

what makes up the ECM in connective tissue

Answer 83

ground substance and fibers

Question 84

function of connective tissue

Answer 84

• binding
• supporting
• protecting
• insulating
• separation of tissue

Question 85

fibroblasts secrete

Answer 85

procollagen

Question 86

myofibroblast

Answer 86

wound contractionwo

Question 87

adipocte

Answer 87

fat storage

Question 88

mesenchymal stem cells

Answer 88

replenish cells

Question 89

mast cells

Answer 89

histamine release

Question 90

macrophages

Answer 90

APCs

Question 91

types of fibres found in ECM of connective tissue

Answer 91

collagen
reticular
elastic

Question 92

collagen has

Answer 92

high tensile strength and flexibility

Question 93

how many types of collagen

Answer 93

5

Question 94

type I collagen

Answer 94

most common (90%)
- tendons, ligaments, dermis

Question 95

type II collagen

Answer 95

hyaline and elastic cartilage

Question 96

type III collagen

Answer 96

lymphoid tissues and organs

RETICULIN

Question 97

type IV collagen

Answer 97

basement membrane- epithelial tissue

Question 98

Type V

Answer 98

skin, placenta

Question 99

elastic fibres in connective tissue

Answer 99

elastin and fibrillin

Question 100

features of ECM- ground substance

Answer 100

gel like extracellular space that contains proteoglycans

Question 101

proteoglycan

Answer 101

core protein with covalently bonded glycosaminoglycans (GAGs)

Question 102

GAG

Answer 102

very hydrophilic

• permits rapid diffusion
• resist compression

Question 103

loose connective tissue function

Answer 103

holds vessels

• permits migration
• stabilities organs

Question 104

composition of loose connective tissue

Answer 104

• highly cellular
• sparse fibres
• abundant ground substance

Question 105

distribution of loose connective tissue

Answer 105

capillaries, lamina propria

- around glands

Question 106

dense connective tissue can be

Answer 106

regular and irregular

Question 107

dense connective tissue general composition

Answer 107

few cells

- abundant fibres- collagen

Question 108

irregular dense connective tissue

Answer 108

• contains fibroblasts
• Collagen I fibres in all directions
• resists stress in all directions

Question 109

examples of irregular dense connective tissue

Answer 109

• deep layers of the dermis

- submucosa of intestine

Question 110

regular dense connective tissue

Answer 110

• cotnains fbroplastas
• collagen 1 fibres in parallel
• resists stress in only one direction

Question 111

examples of regular dense connective tissue

Answer 111

• tendons
• ligaments
• aponeuroses