Muscle structure

Question 1

What are the three types of muscle?

Answer 1

Smooth, cardiac, skeletal

Question 2

What is the definition of contraction?

Answer 2

The active state of muscle generating tension

Question 3

What are the three types of contraction?

Answer 3

Isometric (no length change), concentric (shortening), and eccentric (lengthening)

Question 4

What is the definition of tension?

Answer 4

A pulling force exerted by each end of muscle

Question 5

What is the hierarchy of muscle?

Answer 5

Actin + myosin filaments
Sarcomeres
Myofibril
Fibers
Fascicles
Muscle
Compartments

Question 6

Outline the sliding filament theory

Answer 6

	A.p. along sarcolemma
	Down t-tubules
	To SR
	Ca2+ released
	Bind to troponin
	Tropomyosin moved aside
	Myosin head binds to actin (cross-bridges)
	Myosin head moves backwards
•	- ADP + Pi released
	Actin filament pulled past myosin
	ATP to myosin head
	Cross-bridges hydrolysed
•	- ATP --> ADP + Pi
	Myosin head moves to original position

Question 7

What are fibers covered in?

Answer 7

Endomysium, which carries capillaries and the nerves that innervate each fiber

Question 8

What are fasicles covered in?

Answer 8

Peromysium, which protects muscle fibres and provides pathways for nerves and blood vessels

Question 9

What are muscles covered in?

Answer 9

Epimysium, which transfers tensions to the tendon

Question 10

What are compartments separated by?

Answer 10

Fascia, which is a sheet of fibrous tissue

Question 11

How is force transferred?

Answer 11

The contractile fibres generate tension, applying force to both ends. This force is gathered in tension and the resultant force pulls bone, transferring force from fibre to bone

Question 12

What is the name of the point at which tendon connects to muscle?

Answer 12

Musculo-tendinous junction

Question 13

What is the name of the point at which tendon connects to bone?

Answer 13

Teno-osseous junction

Question 14

What is the composition of tendons?

Answer 14

Consist of collagen fibres arranged parallel to force application of muscle

Question 15

What is an aponeurosis?

Answer 15

A sheet of fibrous tissue taking the place of a tendon in sheet-like muscles with a wide area of attachment

Question 16

What are the two different types of fibres?

Answer 16

Parallel and penniform

Question 17

What is the indicative feature of penniform fibres?

Answer 17

The fibres run diagonally to tendon

Question 18

What is a physiological cross-sectional area?

Answer 18

The cross-section of muscle perpendicular to fibres; the sum total of all of the cross sections of fibers in the muscle in the plane perpendicular to the direction of the fibers

Question 19

Which fibre has a smaller PCSA?

Answer 19

Parallel fibres, meaning it is weaker

Question 20

Which fibre is slower to contract?

Answer 20

Penniform, as fibres must shorten more for the same length of contraction

Question 21

What type of connective tissue is normally present for penniform fibres?

Answer 21

Aponeurosis

Question 22

What are the the three types of penniform fibres?

Answer 22

Uni, bi, multi-pennate

Question 23

What is the pennation angle?

Answer 23

The angle made by fascicles and the line of action of the muscle

Question 24

What is the significance of having a greater pennation angle?

Answer 24

Smaller force is transmitted. The angle also increases with contraction

Question 25

What are the different types of parallel fibres?

Answer 25

Flat, fusiform, strap, convergent, circular

Question 26

How do you calculate muscle volume?

Answer 26

MV = m/(density)

Question 27

How do you calculate CSA?

Answer 27

CSA = MV/L

Question 28

How do you calculate PCSA?

Answer 28

mcos(theta)/(density)L

Question 29

What is the Contractile Component of the Hill-type muscle?

Answer 29

Active force generated by x-bridges; fibres

Question 30

What is the Parallel Elastic Component?

Answer 30

Inside of sarcomere, the passive force in parallel with the CC; connectin

Question 31

What is the Series Elastic Component?

Answer 31

Outside of sarcomere, can change length independent of x-bridges; shock absorption; tendons

Question 32

What are Type 1 fibres?

Answer 32

Slow-twitch; oxidative

Question 33

What are Type 2a fibres?

Answer 33

Inter-mediate; oxidative-glycolytic

Question 34

What are Type 2b fibres?

Answer 34

Fast-twitch; glycolytic

Question 35

What are features of skeletal muscles?

Answer 35

Striated, multinucleate, and unbranched

Question 36

What is smooth muscle used for?

Answer 36

To push something; blood flow, peristalsis, and child birth

Question 37

What are features of cardiac muscle?

Answer 37

Have intercalated discs (interdigitations), and is branched