Muscles (KT)

Question 1

The scientific study of muscles

Answer 1

Myology

Question 2

How much total body mass does muscle account for?

Answer 2

45%- responsible for most of the work generated by the body

Question 3

Functions of Muscles (5)

Answer 3

1. Maintain posture and body position
2. Movement
3. Heat production
4. Guard orifices
5. Support visceral organs

Question 4

Properties of Muscle Tissue (4)

Answer 4

1. Excitability
2. Contractility
3. Extensibility
4. Elasticity

Question 5

The ability to receive and respond to electrical or chemical stimuli

Answer 5

Excitability

Question 6

The ability to shorten forcibly when stimulated

Answer 6

Contractility

Question 7

The ability to be stretched without damaging the tissue

Answer 7

Extendibility

Question 8

The ability to return to original shape after being stretched

Answer 8

Elasticity

Question 9

Muscle composition (5)

Answer 9

Muscles are organs… The consist of…

1. Connective Tissue
2. Arteries/Veins
3. Nerves
4. Lymphatics
5. Contractile muscle cells

Question 10

Skeletal Muscle Characteristics (7)

Answer 10

1. Attaches to bone, skin, or fascia
2. Striated with light and dark bands
3. Voluntary control
4. Long, thin, and multinucleate fibers
5. Arranged into packages that attach to and cover the bony skeleton
6. Contracts rapidly, but tire easily
7. Exert great force
   Fiber= 1 muscle cell

Question 11

The main portion of a muscle

Answer 11

Belly/Gaster

Question 12

Where is the belly of the muscle attached?

Answer 12

Belly is attached to tendons, and then tendons are attached to bones

Question 13

• Dense irregular connective tissue that is around muscle

- Holds it in place and separates it from other muscles

Answer 13

Deep Fascia

Question 14

• Loose connective tissue beneath skin

- Surrounds several muscles

Answer 14

Subcutaneous Fascia

Question 15

How are skeletal muscles organized? (General)

Answer 15

• Many muscle fibers are bundled together into groups called fascicles
• 10-100 muscles fibers per fascicles
• Several fascicles make up a muscle

Question 16

Skeletal muscle connective tissue that surrounds the whole muscle

Answer 16

Epimysium

Question 17

Skeletal muscle connective tissue that surrounds the fascicles

Answer 17

Perimysium

Question 18

Skeletal muscle connective tissue that separates individual muscle fibers (cells)

Answer 18

Endomysium

Question 19

All connective tissue extends beyond the muscle belly to form the….

Answer 19

Tendon

Question 20

Tendons that from thick flattened sheets are called…

Answer 20

Aponeuroses

Question 21

Embryonic cells that fuse to form muscle fibers… (this is why they are long and multinucleate)

Answer 21

Myoblasts

Question 22

Myoblasts that do not fuse become…

Answer 22

Myosatellite cells

Question 23

What is the function of Myosatellite cells?

Answer 23

Assist in repair of damaged cells

Question 24

Fiber cytoplasm

Answer 24

Sarcoplasm

Question 25

Plasma membrane in a fiber

Answer 25

Sarcolemma

Question 26

Extensions of the sarcolemma into the sacroplasm

Answer 26

Transverse (T) Tubule

Question 27

Contractile organelles that…

• Extend the length of fiber
• Surrounded by the sarcoplasmic reticulum

Answer 27

Myofibrils

Question 28

• Surround the myofibrils
• Similar to the ER
• Contain calcium ions

Answer 28

Sarcoplasmic Reticulum

Question 29

What is the functional unit of a myofibril

Answer 29

Sarcomere

Question 30

What are the 2 components of sarcomeres?

Answer 30

1. Thick Filaments

2. Thin Filaments

Question 31

What is the component of Thick Filaments?

Answer 31

-Myosin

Question 32

What is the component of myosin?

Answer 32

• Twisted protein with globular heads
• 1.6 um long
• 500 per thick filament

Question 33

What are the components of Thin Filaments? (2)

Answer 33

1. Actin

2. Regulatory Proteins

Question 34

Components of Actin… (2)

Answer 34

1. Structural Proteins

2. Coiled “beads”

Question 35

Components and function of Regulatory Proteins… (3)

Answer 35

1. Allow/Prohibit attachment between actin and myosin
2. Tropomyosin
3. Troponin

Question 36

Cause the striated appearance

Answer 36

Sarcomere bands

Question 37

What are the 4 kinds of sarcomere bands?

Answer 37

1. A Band
2. I Band
3. H Band
4. Zone of Overlap

Question 38

Type of band that includes the entire thick filament range

Answer 38

A Band

Question 39

Type of band that includes only thin filaments

Answer 39

I Band

Question 40

Type of band that includes only thick filaments

Answer 40

H Band

Question 41

Type of band that includes both filaments

Answer 41

Zone of Overlap

Question 42

These structures divide and flank the sarcomere

Answer 42

Sarcomere Lines

Question 43

What are the 2 types of sarcomere lines?

Answer 43

1. Z line

2. M Line

Question 44

This type of sarcomere line…

• Is at the end of the sarcomere
• Made of actinin protein
• Anchors thin filaments

Answer 44

Z Line

Question 45

This type of sarcomere line…

• Is in the middle of the sarcomere
• Stabilizes thick filaments

Answer 45

M Line

Question 46

Structural Protein that…

• Anchors a thick filament to a Z line
• Accounts for elasticity and extensibility

Answer 46

Titin

Question 47

Structural Protein that…
-Holds the F actin together on
thin filaments

Answer 47

Nebulin

Question 48

Structural Protein that…

-Makes up the Z line

Answer 48

Actinin

Question 49

The process of the actin sliding over the myosin

Answer 49

Sliding Filament Theory

Question 50

What happens during the Sliding filament theory? (5 steps)

Answer 50

1. Zone of overlap enlarges
2. H band shrinks
3. I band shrinks
4. A band remains the same
5. The Z line moves closer to the A band

Question 51

The 6 components of the neuromuscular junction

Answer 51

1. Motor Unit
2. Neuromuscular Junction
3. Synaptic Terminal
4. Motor end plate
5. Synaptic cleft
6. Neurotransmitters

Question 52

Part of the neuromuscular junction that…

-Neuron + all the muscle cells stimulated by the neuron

Answer 52

Motor Unit

Question 53

Part of the neuromuscular junction that…

-Point of contact between the neuron and the muscle

Answer 53

Neuromuscular Junction

Question 54

Part of the neuromuscular junction that…

-End of the axon that contacts motor end plate

Answer 54

Synaptic Terminal

Question 55

Part of the neuromuscular junction that…

-Point on the muscle fiber that contacts synaptic terminal

Answer 55

Motor End Plate

Question 56

Part of the neuromuscular junction that…

-Gap between the neuron and the muscle

Answer 56

Synaptic Cleft

Question 57

Part of the neuromuscular junction that…

• Chemical released into the synaptic cleft
• In this case it is acetylcholine

Answer 57

Neurotransmitter

Question 58

Events of Muscle Contraction (9)

Answer 58

1. Ach stored in the synaptic vesicles
2. Impulse reaches end of the neuron–> Ach is released
3. Ach crosses the gap and binds to the receptors
4. Impulse travels through motor end plate down the T- tubules to the sarcoplasmic reticulum
5. Ca+2 ions fiffuse out of the sarcoplasmic reticulum into the sarcoplasm
6. Ca+2 exposes the active site
7. Myosin then binds to active site
8. ATP is used and contraction occurs
9. Contraction continues as long as Ca+2 concentration is high

Question 59

Events of Muscle Relaxation (5)

Answer 59

1. Ach decomposed by acetylcholinesterase (AChe)
2. Ca ions transported back to SR
3. Actin and myosin links broken
4. Cross bridges move back
5. Active site is blocked once again

Question 60

This is determined by the frequency of stimulation and the number of neurons stimulated

Answer 60

Tension

Question 61

Tension in which…

-All fibers in a motor unit fully contract if stimulated

Answer 61

All or None Law

Question 62

Tension in which…

-Steady increase in tension by increasing the number of contracting motor neurons

Answer 62

Recruitment

Question 63

Tension in which…

• Muscle never begins to relax
• Continuous fused contraction

Answer 63

Tetanus

Question 64

• Motor untis contract randomly

- Tension but no movement

Answer 64

Muscle Tone

Question 65

Muscle tone can… (3)

Answer 65

1. Stabilizes joints
2. Holds objects in place
3. Maintains posture

Question 66

• Constant, exhaustive stimulation increases the number of organelles/proteins in a fiber
• Increases the overall enlargement of the muscle

Answer 66

Hypertrophy

Question 67

Hypertrophy increases the number of… (4)

Answer 67

1. Mitochondria
2. Glycolytic enzyme reserves
3. Myofibrils
4. Filaments within myofibrils

Question 68

During hypertrophy, muscle cells (do/do not) reproduce

Answer 68

DO NOT

Question 69

The lack of constant motor neuron stimulation reduces organelles ad proteins

Answer 69

Atrophy

Question 70

Atrophy can be due to… (4)

Answer 70

1. Age
2. Hormones
3. Lack of use
4. Nerve damage
   * Is reversible as long as the fiber isn’t dead

Question 71

Attachment site that doesn’t move

Answer 71

Origin

Question 72

Attachment site that moves

Answer 72

Insertion

Question 73

Tension=

Answer 73

Force

Question 74

Fascicle arrangement varies based on…

Answer 74

Position of the muscle

Question 75

• Fascicles parallel to long axis

- Unidirectional force

Answer 75

Parallel Muscles

Question 76

Example of parallel muscles

Answer 76

Biceps brachii

Question 77

• Fan shaped muscles
• Multidirectional force
• Versatility
• Generates least amount of force

Answer 77

Convergent Muscles

Question 78

Example of Convergent Muscles

Answer 78

Pectoralis major

Question 79

• Feather shaped muscle
• Fascicles oblique to long axis
• Tendon passes through the muscle
• Greatest force

Answer 79

Pennate Muscle

Question 80

Example of pennate muscle

Answer 80

Deltoid

Question 81

• Concentric fascicles around an opening

- Contraction decreases lumen diameter

Answer 81

Circular muscles

Question 82

Example of circular muscles

Answer 82

Orbicularis oculi

Question 83

-Rotation around one axis

Answer 83

Uniaxial

Question 84

Uniaxial Movements

Answer 84

Rotation- atlantoaxial and pivot joints

Angular- knee and IP joints

Question 85

Movement along 2 axes

Answer 85

Biaxial

Question 86

Angular movement of biaxial articulations

Answer 86

Angular-

• flexion/extension
• Abduction/Adduction

Question 87

Examples of biaxial Joints (4)

Answer 87

1. Ellipsoidal Joint
2. Radiocarpal
3. Metacarpal Phalange
4. Carpometacarpal (2-5)

Question 88

Movement on all axes

Answer 88

Mutliaxial Movement

Question 89

Multiaxial Movement

Answer 89

Angular-

• Flexion/Extension
• Abduction/Adduction

Rotation-
-Circumduction

Question 90

Example of Multiaxial Movement

Answer 90

Ball and socket

Question 91

• Main muscle causing directional force

- This can be any muscle of interest

Answer 91

Agonist

Question 92

-Muscle that contracts to oppose agonist
Ex. Bicep brachii
Tricep brachii

Answer 92

Antagonist

Question 93

-Muscle that assists/modifies movement

Ex. Brachialis and pronator teres

Answer 93

Synergist

Question 94

-Muscle that stabilizes elements associated with agonist

Ex. Deltoid stabilizes glenohumeral joint

Answer 94

Fixator

Question 95

This type of system modifies movement

Answer 95

Levers

Question 96

Levers can change… (4)

Answer 96

1. Magnitude of force
2. Speed
3. Direction
4. Distance of limb movements

Question 97

The 4 components of the Lever System…

Answer 97

1. Lever (L)
2. Effort (E)
3. Fulcrum (F)
4. Resistance (R)

Question 98

Skeletal Element

Answer 98

Level

Question 99

Applied force

Answer 99

Effort

Question 100

Joint

Answer 100

Fulcrum

Question 101

Body part or object moved

Answer 101

Resistance

Question 102

3 types of levers

Answer 102

1. First Class
2. Second Class
3. Third Class

Question 103

Type of lever that…

-R opposite of E with central F

Answer 103

First Class

Question 104

E, F, and R of neck extension

Answer 104

E- neck extensions
F- atlanto-occipital joint
R- Skull

Question 105

Type of lever that…

• E is opposite of F to move R
• Example is plantar flexion

Answer 105

Second Class

Question 106

E, F, and R of plantar flexion

Answer 106

E- calf
F- MP joint
R- Weight of body

Question 107

Type of lever that…

• E is in between F and R
• Example is elbow flexion

Answer 107

Third Class

Question 108

E, F, R of elbow flexion

Answer 108

E- biceps brachii
F- elbow joint
R- weight distal to joint

Question 109

Types of Skeletal Muscle Fibers (3)

Answer 109

1. Fast Fibers
2. Slow Fibers
3. Intermediate Fibers

Question 110

Characteristics of Fast Fibers (7)

Answer 110

1. Fast acting, high energy requirements
2. Anaerobic
3. Large diameter
4. Densely packed myofibrils
5. Large glycogen reserves
6. Few mitochondria
7. Rapid, powerful and brief contractions

Question 111

Characteristics of Slow Fibers (5)

Answer 111

1. More myoglobin, slower sustained contraction
2. Aerobic
3. Smaller diameter
4. Longer to contract
5. Contract for longer time

Question 112

Characteristics of Intermediate Fibers

Answer 112

• Has attributes of both
• Similar to fast fibers
• Greater resistance to fatigue
• Exercise or lack of can change one muscle type to another

Question 113

Smooth Muscle characteristics (7)

Answer 113

1. Attached to hair follicles
2. In walls of hollow organs and blood vessels
3. Nonstriated
4. Involuntary control
5. Contractions are slow and sustained
6. Spindle shaped
7. Very elastic

Question 114

Smooth muscles are stimulated by… (4)

Answer 114

1. Nervous System
2. Hormones
3. Ions
4. Stretching

Question 115

Smooth muscle types (2)

Answer 115

1. Single Unit

2. Multi Unit

Question 116

-Many gap junctions
-Sheets of spindle shaped cell
-Contract together (syncytial contraction)
Ex. BV’s, digestive tract, resp. tract, and urinary tract

Answer 116

Single Unit

Question 117

-Few/No gap junctions
-Separate fibers that contract independently
-Only contract when stimulated by motor nerve
Ex. walls of large BV’s, uterus, and iris of eye

Answer 117

Multi Unit

Question 118

Characteristics of Cardiac Muscles

Answer 118

• striated in appearance
• involuntary control
• network of fibers with intercalated disks at the ends
• only found in heart