Muscles

Question 1

What is muscle?

Answer 1

contractile tissue which serves to bring about movement

Question 2

What does muscles contraction and relaxation bring about?

Answer 2

1. Body movement
   - Movement of body levers
   - Enables locomotion via articulations
2. Posture maintenance
   - Stabilisation of bony levers and articulations
   - Enables body position to be maintained
3. Body substance movement / transport / storage
   - Movement and storage of digesta, blood, urine, etc within the body
4. Heat generation
   - Conversion of ATP into muscle movement is inefficient
   - Only 25%of ATP energy produces muscle movement
   - Remaining 75% is converted to heat
   - Heat helps maintain body temperature
   - In cold environments involuntary contraction of skeletal muscle (shivering) further helps

Question 3

What are the three types of muscle?

Answer 3

skeletal
cardiac
smooth

Question 4

What is skeletal muscle?

Answer 4

voluntary
attached to skeleton
striated

Question 5

How is muscle structured?

Answer 5

Fibres arranged in bundles known as fasicles

Surrounded by endomysium

Multiple bundles surrounded by perimysium

Muscle surrounded by epimysium

Question 6

What are sarcomeres?

Answer 6

makes up muscle fibre and gives muscle a striated look

contraction occurs through sarcomeres through chemical reaction causing myosin and acts to bind and contract

Question 7

How does contraction of the muscle occur?

Answer 7

• Contraction cycle consists of excitation phase, contraction phase and relaxation phase
• Excitation phase (aka latent period) involves stimulus arriving at the neuromuscular junction
• Stimulus is transmitted to motor end plate
• Sarcolemma depolarises
• Action potential propagated from sarcolemma to t-tubules and then sarcoplasmic reticulum
• Ca ions released into sarcoplasm
• Ca bind with troponin causing troponin-tropomyosin complex to move from actin chain
• Lasts ~ 5msec

Question 8

What occurs in the Contraction Phase?

Answer 8

• Adenosine Trihosphate ATP on myosin head hydrolysed to Adenosine Diphosphate (ADP) and Inorganic Phosphate (P)
• Myosin head moves and attaches to actin chain
• Hydrolysed P released triggering power stroke
• Once energy used up movement stops
• ATP from sarcoplasm binds to mysoin and another power stroke triggered
• Sequence is repeated whislt [Ca ion] is high
• Lasts 20-200 msec

Question 9

What occurs the the relaxation phase?

Answer 9

• Action potential ends
• Ca actively pumped back into the sarcoplasmic reticulum
• Takes 10-100 msec

Question 10

What is the refractory period?

Answer 10

• This is time period where a muscle has received one stimulus to contract and cannot respond to a further stimulus
• ~ 5 msec for skeletal, ~300 msec for cardiac
• Further stimulus after the refractory period leads to increased muscle contraction (summation) – due to only partial relaxation
• Stimuli arriving at 80-100 / sec cause tetanic contraction

Question 11

What are the three skeletal muscle fibre types?

Answer 11

Type I – slow oxidative
Type IIA – fast oxidative-glycolytic
Type IIB – fast glycolytic
•The ‘type’ refers to the form of myosin present
•The three forms of myosin have different ATPase activities and hence different contraction speeds

Question 12

What is type I skeletal muscle?

Answer 12

• Narrow
• Least forceful
• Aerobic only
• Contain large numbers of mitochondria
• Supplied by large numbers of capillaries
• Contain large concentration of myoglobin
• Slow contractions (~ 100-200msec)

Question 13

What is type IIA skeletal muscle?

Answer 13

• Intermediate diameter
• Intermediate forces
• Large numbers of mitochondria
• Large concentrations of myoglobin
• Supplied by large number of capillaries
• Produce ATP aerobically and anaerobically
• Faster contraction speed (<100msec)

Question 14

What is type IIB skeletal muscle?

Answer 14

• Widest
• Produce greatest forces
• Supplied by relatively few capillaries
• Small number of mitochondria
• Low concentration of myoglobin
• High glycogen content
• Anaerobic

Question 15

What is distribution of fibres within muscles determined by?

Answer 15

Muscle function
Genetics
Exercise and training

Question 16

How does exercise effect muscle fibre types?

Answer 16

• Postural muscles have high type I contents
• Exercise stimulates conversion from IIA to IIB and vice versa
• Increased muscle use causes hypertrophy – due to increased nervous stimulation. More myofibrils, mitochondria and sarcoplasmic reticulum. Stronger
• Lack of use causes fibre atrophy – due to lack of stimulation causing loss of myofibrils
• Type I fibres most affected

Question 17

What are the four properties of muscle tissue?

Answer 17

1. Excitability – muscle responds to stimuli and produces action potential for movement
2. Contractility - muscle responds to an action potential by producing a force
3. Extensibility - ability of muscle to stretch (without damage) and still exert a force
4. Elasticity - muscle always returns to its resting state (length, shape, etc.) after contraction is finished or following extension

Question 18

How many muscle layers does the horse have?

Answer 18

4
cutaneous trunci- first layer that can spasm

superficial layer- large, broad muscles, production of locomotion

middle layer- more finer tuned movements eg; steering

deep layer- smaller and densely compact muscles that are involved in posture and stabilisation of joints

Question 19

How many muscle layers does the dog have?

Answer 19

4
cutaneous trunci

superficial layer- large, broad muscles, production of locomotion

middle layer- more finer tuned movements eg; steering

deep layer- smaller and densely compact muscles that are involved in posture and stabilisation of joints

Question 20

What does intrinsic mean?

Answer 20

stays within a system eg; muscle with origin and insertion in axial skeleton

Question 21

What does extrinsic mean?

Answer 21

crosses systems eg; muscle with origin in axial skeleton but insertion in appendicular

Question 22

What are the different muscle shapes?

Answer 22

fusiform () eg; biceps brachii

parallel I I eg; rectus abdominis

convergent V eg; latissimus dorsi

unipennate /J eg; found in limbs

bipinnate U eg; rectus femoris

Multipennate. \U/ eg; deltoid

Circular O eg; internal muscles- in digestive system

Question 23

What is concentric contraction?

Answer 23

shortening contraction

Question 24

What is isotonic contraction?

Answer 24

change in length with constant force

Question 25

What is ballistic contraction?

Answer 25

contraction with momentum

Question 26

What is eccentric contraction?

Answer 26

lengthening contraction, whilst still under control (resisting gravity)

Question 27

What is ballistic contraction?

Answer 27

eccentric or concentric contraction with momentum (gives extra degree of movement)

Question 28

What is a synergist muscle action?

Answer 28

acts to help the agonist at a specific joint

Question 29

How are muscles classified?

Answer 29

by their actions at the joint

Question 30

What is a synergist muscle action?

Answer 30

acts to help the agonist at a specific joint- stabilises

Question 31

what are extensors?

Answer 31

extend the joint

Question 32

What are abductors?

Answer 32

move muscles/ joints away from the midline

Question 33

What are adductors?

Answer 33

move muscles/ joints back towards from the midline

Question 34

What is muscle tone?

Answer 34

All muscles will continually receive a small amount of stimuli from nervous system even when at rest with gives the muscle “resting tone”
•Some animals will have high resting tone some have low
•Resting tone can have an impact on muscular training

Question 35

What are muscle issues?

Answer 35

• Adhesion
• Hypertonicity
• Spasm
• Contracture
• Ruptures
• Injuries
• Pathologies affecting muscle quality

Question 36

What are muscle issues?

Answer 36

• Adhesion
• Hypertonicity- increased tone in the muscles
• Spasm- muscle turns on and off without control
• Contracture- consistent message to muscle that make the muscle stay contracted
• Ruptures- one or several muscle fibres break
• Injuries- traumatic resulting in ruptures
• Pathologies affecting muscle quality