Muscle Strengthening Physiology

Question 1

Resistive Exercise

Answer 1

any active exercise where muscular contraction is resisted

Question 2

Hypotnoicity vs Hypertonicity

Answer 2

• decreased tone, flaccidity

- increased tone, rigidity

Question 3

Strength

Answer 3

-maximum force that can be exerted by a Mm contraction

Question 4

Amount of ATP needed to produce a given tension is less for ____

Answer 4

eccentric contractions than concentric contractions

Question 5

Max tension you can get from a muscle is _____>_____>_____

Answer 5

-eccentric>isometric>concentric

Question 6

Active Insufficiency

Answer 6

-decreased ability of a Mm to produce or maintain active tension because agonist is too short

Question 7

Goal of Resistive Ex’s

Answer 7

increase strength, endurance &/or power

Question 8

Tone

Answer 8

-Muscle’s resistance to passive ROM

Question 9

Isometric Contraction

Answer 9

(muscle fiber contraction)

• cross bridge cycling without sliding of actin & myosin
• laboratory with fiber ends fixed

Question 10

You can create max tension during _____ contractions

Answer 10

-eccentric

Question 11

Static Contraction

Answer 11

Mm contraction but no movement

• expressed as MVC or % MVC
• intact muscle/real life

Question 12

Dynamic Contraction

Answer 12

• muscle contraction that produces tension to move joint
• Concentric/Eccentric

-intact muscle/real life

Question 13

Isokinematic Contraction

Answer 13

• movement of a joint with a constant angular velocity

- intact/real life

Question 14

Active tension

Answer 14

• reflects the isometric force for a given muscle length

- from contractile elements

Question 15

The smaller the motor unit:

Answer 15

the lower the recruitment threshold

Question 16

Passive Tension

Answer 16

-tension due to stretching of passive elastic elements
-non contractile connective tissue
(epimysium, perimysium, endomysium, sarcolemma)

Question 17

Length-Tension Curve based on:

Answer 17

• testing of isometric strength in a lab setting

- muscle detached

Question 18

3 Types of Muscle Contraction

laboratory setting

Answer 18

• isometric
• isotonic
• isokinetic

Question 19

MVC

Answer 19

• Maximal Voluntary contraction

- measure static contractions

Question 20

Isotonic Contraction

Answer 20

(muscle fiber contraction)
-tension generated by fiber is constant throughout the ROM

-lab/muscle removed

Question 21

Isokinetic Contraction

Answer 21

• muscle fiber contraction
• type of dynamic contraction where velocity is kept constant

-lab

Question 22

Types of Muscle Contraction

real-life

Answer 22

• Static
• Isokinematic
• Dynamic (concentric/eccentric)

Question 23

Intact Mm Strength depends on:

Answer 23

1. number of cross bridges
2. length of moment arm
3. passive restraints of antagonist
4. normal length

Question 24

2 Types of Dynamic Contraction

Answer 24

• concentric

- eccentric

Question 25

Hypertrophy

Answer 25

increased individual fiber size due to increased # of actin/myosin

Question 26

Eccentric Contraction

Answer 26

-Contraction where ends of muscle move apart

Question 27

Concentric

Answer 27

-Contraction of muscle where ends move towards each other

Question 28

1 RM

Answer 28

• 1 repetition max

- max amount of weight that can be lifted through the entire ROM using proper technique one time

Question 29

Larger Motor Unit=

Answer 29

• greater tension

- higher recruitment threshold

Question 30

General factors affecting Mm contraction strength

Answer 30

• diameter of Mm
• # of fibers per motor unit
• # motor units firing
• length of muscle when stimulated
• type of contraction elicited

Question 31

Hyperplasia

Answer 31

incr # of fibers

Question 32

Endurance

Answer 32

-ability to perform low intensity reps over prolonged time

Question 33

Stength-Shortening Cycle of Plyometrics

Answer 33

-rapid, powerful concentric contraction right after a preloaded eccentric contraction

Question 34

Passive Insufficiency

Answer 34

limitation of movement caused by passive tension because antagonist is too short

Question 35

Motor units are recruited _____

Answer 35

from smallest to largest

Question 36

Force-Velocity Curve for Concentric Contraction

Answer 36

• increased velocity=decreased tension generated

- lighter load=faster it can be moved

Question 37

Power is increased by

Answer 37

• doing same amount of work in shorter time

- doing more work in same time

Question 38

Motor Unit

Answer 38

an alpha motor neuron and all the fibers it innervates

-larger motor unit=increased strength

Question 39

Force-Time Relationship

Answer 39

• relates the load the muscle is going to lift & the time span between Mm excitation & the onset of Mm shortening
• takes longer to generate enough force to lift heavy objects

Question 40

Total Tension=

Answer 40

Active tension + passive tension

Question 41

Length-Tension Curve

Answer 41

-each Mm in body has an optimal length to create a maximal tension

Question 42

Motor units recruited from _____

Answer 42

smallest to largest

Question 43

Jean’s Mantra

Answer 43

• you can hold more than you can lift

- you can lower more than you can hold

Question 44

3 Fiber Types

Answer 44

I, IIa, IIx

Question 45

Type I Fiber

Answer 45

• tonic
• Red
• Slow twitch/Slow oxidative
• aerobic

Question 46

Type IIx Fiber

Answer 46

• Phasic
• white
• fast twitch/fast glycolytic
• anaerobic

Question 47

Relaxation Time
I:
IIx:

Answer 47

I: slow
IIx: fast

Question 48

Threshold to Stimulate
I:
IIx:

Answer 48

I: Low
IIx: high

Question 49

Fatigue
I:
IIx:

Answer 49

I: Slow
IIx: Fast

Question 50

Shortening Velocity
I:
IIx:

Answer 50

I: Slow
IIx: Fast

Question 51

Anaerobic Activity
I:
IIx:

Answer 51

I: Low
IIx: High

Question 52

Lactate Production
I:
IIx:

Answer 52

I: Low
IIx: High

Question 53

Capillary Density
I:
IIx:

Answer 53

I: High
IIx: Low

Question 54

Mitochondria
I:
IIx:

Answer 54

I: High
IIx: Low

Question 55

Oxidative Enzymes
I:
IIx:

Answer 55

I: high
IIx: low

Question 56

Myoglobin
I:
IIx:

Answer 56

I: high
IIx: low

Question 57

Neuron Size
I:
IIx:

Answer 57

I: small
IIx: large

Question 58

Aerobic Capacity
I:
IIx:

Answer 58

I: High
IIx: Low

Question 59

Triglyceride Storage
I:
IIx:

Answer 59

I: high
IIx: low

Question 60

Phosphocreatine Stores
I:
IIx:

Answer 60

I: low
IIx: high

Question 61

Specific factors affecting muscle contraction strength

Answer 61

• how often fiber stimulated

- length of sarcomere when stimulated

Question 62

Force-Velocity Curve of Eccentric Contraction

Answer 62

• incr velocity=increased tension generated (to a point)

- heavier load=faster it can be moved (to a point)

Question 63

Effect of 2-joint Mm on length and tension

Answer 63

-active and passive insufficiency

Question 64

Power

Answer 64

rate of doing work

power=F (d/t)=w/t

Question 65

As load ____ (____) power increases; after a point ______

Answer 65

• increases
• (up to 30-50% max load)
• load becomes to heavy to move quickly

Question 66

Initial increase in strength due to

Answer 66

• neural changes

- becaues learning & increased corrdination and # and rate of motor unit firing

Question 67

Tearing occurs at ____% of resting length

Answer 67

200%

Question 68

Glycolytic Enzymes
I:
IIx:

Answer 68

I: low
IIx: high

Question 69

Tension
I:
IIx:

Answer 69

I: small
IIx: large

Question 70

glycogen stores
I:
IIx:

Answer 70

I: low
IIx: high

Question 71

Fiber Diameter
I:
IIx:

Answer 71

I: small
IIx: large

Question 72

ATPase Levels
I:
IIx:

Answer 72

I: low
IIx: high

Question 73

3 Factors affectign speed of Mm contraction

Answer 73

• force velocity curve
• force-time relationship
• type of muscle fiber

Question 74

7 Muscle Changes

Answer 74

1. hypertrophy
2. hyperplasia
3. conversion of fiber types (Controversial)
4. vascular changes
5. metabolic changes
6. connective tissue changes
7. bone changes