The Muscular System

Question 1

What is atrophy?

Answer 1

destruction – loss of protein, reduced fibre diameter, loss of power, 50% loss by 80yrs

Question 2

What is Hypertrophy?

Answer 2

getting bigger, replacement – increase in fibre diameter

Question 3

What is Hyperplasia?

Answer 3

proliferation of more cells, number increases (not size)

Question 4

What is Myalgia?

Answer 4

muscle pain

Question 5

What is Myasthenia?

Answer 5

weakness of muscles

Question 6

What is Myoclonus?

Answer 6

sudden spasm of muscle

Question 7

What is Sarcolemma?

Answer 7

outer membrane of muscle cell

Question 8

What is Sarcoplasm?

Answer 8

cytoplasm of muscle cell

Question 9

What is Sarcoplasmic reticulum?

Answer 9

smooth ER of muscle cell

Question 10

In skeletal muscle what organelles are abundant?

Answer 10

mitochondria

Question 11

Where are the nuclei placed in skeletal muscle?

Answer 11

peripheral, multinucleated

Question 12

How does skeletal muscle regenerate?

Answer 12

via satellite cells

Question 13

What is the structure of skeletal muscle?

Answer 13

epimysium wraps multiple fasicles –> perimysium wraps single fasicle –> endomysium on top of sarcolemma wraps a muscle fibre –> muscle fibre = myofibrils (actin/myosin) + sarcoplasm

Question 14

Outline the muscle contraction process

Answer 14

Nerve impulse travels nerve to neuromuscular junction between axon terminal and muscle fibre, ACh released, 2 bind, nAChRs, depolarises sarcolemma, Na+ channels open, Depolarisation travels down T tubules. Ca2+ released from sarcoplasmic reticulum, Ca2+ binds TnC of troponin on actin moving tropomyosin revealing myosin binding site, ATP –> ADP + P = myosin head extends, Myosin binds forming cross-bridges, Power stroke triggered = myosin pulls actin towards M line (shortening sarcomere) = sliding filament mechanism, ADP + P released during power stroke, ATP binds bringing myosin back to relaxed position

Question 15

In skeletal muscle where do T tubules lie?

Answer 15

A-I band junction

Question 16

Where are the nuclei in cardiac muscle?

Answer 16

Central

Question 17

In cardiac muscle where do T tubules lie?

Answer 17

Z band

Question 18

What are the functions of purkinje fibres?

Answer 18

Modified muscle cell = Carry action potentials from the AV node to the ventricle muscle, Allow rapid conduction = synchronous contraction

Question 19

How does cardiac muscle regenerate?

Answer 19

Incapable of regeneration – damage = fibroblasts invade = lay down scar tissue

Question 20

Which muscle type has no myoglobin?

Answer 20

Smooth

Question 21

In smooth muscle where are the T tubules found?

Answer 21

Nowhere, they are not present

Question 22

Where are the nuclei placed in cardiac muscle?

Answer 22

Central

Question 23

What is the difference between a smooth muscle contraction and a cardiac/skeletal?

Answer 23

Smooth = Slower contraction, more sustained, requires less ATP for actin-myosin

Question 24

List muscle injury markers

Answer 24

CK: all. Myoglobinuria: myoglobin from muscle secreted in urine, skeletal. Troponin: cardiac ischemia, measure in 20hrs, not proportional to amount of damage. Natriuretic peptide: secreted by atria/ventricles in response to excessive stretching of cardiomyocytes – levels correlate with symptom severity, aim = reduce arterial pressure by decreasing blood volume - ANP: released by atrial myocytes, found during hypovolemic states = congestive heart failure, BNP: released by ventricles

Question 25

Why is muscle striated?

Answer 25

Longitudinal nature of actin and myosin

Question 26

What is the H Zone?

Answer 26

Section of myosin where there is no overlap of actin

Question 27

Describe a smooth muscle cell

Answer 27

Spindle shape, central nucleus

Question 28

What are the 2 cell types present in smooth muscle?

Answer 28

Myoepithelial = contraction of glands. Myofibroblasts = wound healing

Question 29

What is the structure of cardiac muscle cell?

Answer 29

Striated, central nuclei

Question 30

What is a sarcomere?

Answer 30

Contractile unit, from one Z band to another

Question 31

What is the M line?

Answer 31

Line that holds myosin fibres together

Question 32

What can happen from the dysfunction of smooth muscle?

Answer 32

Asthma, irritable bowel, hypertension

Question 33

What happens when ANP/BNP is released?

Answer 33

Na excretion by the kidneys = water travels with = lowers water volume = lowers BP = allows heart to rest when over-stretched

Question 34

What are the 2 different types of muscle fibre?

Answer 34

Red = high mitochondria, sustained contraction. White = powerful but easily fatigued

Question 35

What are the markers of muscle damage?

Answer 35

CK = all muscle. Myoglobinuria = skeletal muscle. Troponin I = cardiac. ANP/BNP = ventricular stretching

Question 36

What are the different types of atrophy?

Answer 36

Disuse - muscle not used = wasting. Denervation = motor neurone lesion - 3 month recovery. Age = 50% loss by 80yrs

Question 37

Outline the banding structure in a sarcomere

Answer 37

A - myosin
I - actin with no myosin overlap
H - myosin with no actin overlap
M - holds myosin together 
Z-Z - sarcomere

A-I - skeletal T tubules
Z - cardiac T tubules