Lecture 1

Question 1

What is flexibility?

Answer 1

The range of motion available in a joint or series of joints

Question 2

What is Total Flexibility dependent on?

Answer 2

Joint’s ROM

Muscle Flexibility

Question 3

What are other important aspects of flexibility?

Answer 3

Mobility
Stability
Control mobility
Skill

Question 4

What should you look at when two joints are fused together?

Answer 4

The hypermobile joints proximal and distal to the fused area

Question 5

What occurs from a upper motor lesion?

Answer 5

Spastic muscles

Question 6

What occurs from a lower motor lesion?

Answer 6

Flaccid muscles

Question 7

What is considered the mechanical component of Total flexibility?

Answer 7

Joint’s ROM

Question 8

What is considered the Neuro component of Total Flexibility?

Answer 8

Muscle Flexibility

Question 9

What should occur if there is no joint/mechanical problem of the joint?

Answer 9

Linear movement

Question 10

What makes up Joint’s ROM of Total Flexibility?

Answer 10

Ability of Periarticular connective tissue to deform.

Joint Arthrokinematics

Question 11

What makes up Muscle Flexibility of Total Flexibility?

Answer 11

Ability of muscle to lengthen

Neuromuscular component-GTO and Muscle Spindle (Gamma Bias)

Question 12

Why is total flexibility important?

Answer 12

Accommodates stress
Dissipate the Forces/Impact
Improves the efficiency of movement
Improves the effectiveness of movement

Question 13

Collectively, why is total flexibility important?

Answer 13

Will assist in the prevention or minimization of injury

Question 14

What is static Flexibility?

Answer 14

The MEASURED ROM available about a joint or a series of joints

Question 15

How do you measure Static Flexibility?

Answer 15

Linear or Rotary Measurements- (Ruler or Goniometer)

Question 16

What is dynamic flexibility?

Answer 16

The MEASURE OF RESISTANCE to active motion about a joint or series of joints.

Question 17

How do you measure dynamic flexibility?

Answer 17

Biodex

Question 18

Where does the limitation lie? JROM and its static flexibility or MF and its dynamic flexibility?

Answer 18

JROM and its static flexibility-Time component

Question 19

What are the primary limiting factors of JROM?

Answer 19

Arthrokinematics of joint

Alignment of articular surfaces

Question 20

What are the grades of joint mobility testing?

Answer 20

0-Ankylosis
1-Moderate hypomobility
2-Hypomobile
3-Normal
4-Hypermobile
5-Moderate hypermobility
6-Pathologically hypermoble

Question 21

What must be done to determine a person’s joint mobility?

Answer 21

Test both sides if possible

Question 22

If Grade 3 of Joint mobility is found, then the fault to decreased total flexibility is due to what?

Answer 22

Periarticular connective tissue about the joint

Question 23

How can you tell connective tissue was torn rather than muscle in a tear?

Answer 23

Connective tissue has no blood flow, so the area will not bruise, unlike muscle tissue which does have blood flow and will bruise.

Question 24

What is another name for muscle tear?

Answer 24

Rent

Question 25

What is considered accessory motion?

Answer 25

Non-rotary slide
Joint mobility test
Periarticular connective tissue

Question 26

What is considered Physiological motion?

Answer 26

Rotary physiological movement
Goniometric measurement
Periarticular Connective tissue plus muscle flexibility

Question 27

Which population scars greater than others?

Answer 27

Dark skin compared to European Descent

Question 28

What are the two main components of Connective Tissue?

Answer 28

Collagen

Elastin

Question 29

What makes up collagen?

Answer 29

Fibrous Protein
Provide the skeletal structure that holds connective tissue together
Enables the tissue to resist mechanical forces and deformation.

Question 30

What makes up Elastin?

Answer 30

Assist the recovery of tissue from deformation
More elastin in tissue equals greater recovery from deformation
If no Elastin then it would be brittle and break

Question 31

What are the types of collagen?

Answer 31

Type I
Type II
Type III

Question 32

Where are types I and III collagen often found?

Answer 32

In connective tissue

Question 33

What happens to type III collagen?

Answer 33

It matures to Type I

Question 34

Which collagen demonstrates greater tensile strength?

Answer 34

Type I
Though Type III also has some Tensile strength
Type II is compression tolerant not tensile tolerant

Question 35

What is the ground substance of Collagen?

Answer 35

Made of glucoaminoglycans (GAG-Sugar, Protein, Sugar)

This is the substance the collagen fibrils are embedded

Question 36

What does GAG have an affinity for?

Answer 36

Hydration

When you get older you lose water and flexibility

Question 37

What are four GAGs?

Answer 37

Chondrotin 4-Sulfate
Chondrotin 6-Sulfate
Hyaluronic Acid
Dermatin Sulfate

Question 38

What is the importance of the ground substance?

Answer 38

It’s a viscous gel that serves to provide lubrication between collagen fibers where they cross. Causes the fibers to not stick together.

Question 39

What is the synthesis of collagen intracellularly?

Answer 39

Protocollagen to Procollagen

Question 40

What is the synthesis of collagen extracellularly?

Answer 40

Procollagen to Tropocollagen to Pentafibril quarter stagger to Extracellular maturation

Question 41

How can collagen be described?

Answer 41

As a Fiber Suspension Bridge

Question 42

What is the strength of the Fiber suspension bridge dependent on?

Answer 42

It’s structural properties

Question 43

What do the structural properties of collagen consist of?

Answer 43

Material Properties (Mechanical and Physical)
Size (Area and Length)
Organization (Tropocollagen to microfibirl to subfibirl to fibril to fascicle to tendon)

Question 44

Where do strong fibers align/ how is orientation affected?

Answer 44

Along the area of stress

Question 45

What are the three factors that contribute to homeostasis?

Answer 45

Cellular remodeling
Ground substance/Collagen Response
Tissue Response

Question 46

What is cellular remodeling?

Answer 46

Fibroblastic modulation of collagen and GAG synthesis by the force/stresses imposed (usually by motion)

Question 47

What is Ground substance/collagen response?

Answer 47

Motion will prevent anomalous (fibers sticking together) crosslinks of collagen fibers
Role of GAG is to keep/maintain fibril distance-this lubrication is a result of its affinity for hydration (min. cross linking)
Stress/motion influences the orientation of the newly formed collagen

Question 48

What is tissue response?

Answer 48

Strength and mobility
Prohibit injury/reinjury
Wolff’s law applicable to soft tissue

Question 49

What are the non permanent mechanical properties of collagen?

Answer 49

Elasticity

Viscoelasticity

Question 50

What is the permanent mechanical property of collagen?

Answer 50

Plasticity

Question 51

What is elasticity?

Answer 51

A spring like behavior where elongation is:
Produced by tension load
Recoverable after the load is removed
(Recovery like rubber-band)

Question 52

What is viscoelasticity?

Answer 52

Allows slow deformation
Presents with an imperfect recovery
The change is not permanent
(Recovery like Screen door)

Question 53

What is plasticity?

Answer 53

Residual or permanent change occurs

This change occurs because of viscous properties of the tissue

Question 54

What is viscosity?

Answer 54

The resistance offered by fluid to change form or relative position of its particles due to attraction of molecules to one another.

Question 55

Which Mechanical property of collagen is viscosity associated with?

Answer 55

Plasticity

Question 56

What is another name for Force Relaxation?

Answer 56

Stress relaxation

Question 57

What is force relaxation?

Answer 57

The decrease in the amount of force required to maintain a tissue at a set amount of displacement or dis0placement over time.

Question 58

What is force relaxation related to?

Answer 58

The rate of force application and dynamic flexibility where the denominator is time

Question 59

What is another name for creep?

Answer 59

Creep response

Question 60

What is creep?

Answer 60

The ability of tissue to deform over time while a constant force is being applied
The tissue lengthens over time

Question 61

What is creep related to?

Answer 61

Static flexibility

Question 62

What is another name for hysteresis?

Answer 62

Hysteretic response

Question 63

What is hysteresis?

Answer 63

The amount of relaxation a tissue has under gone during any single cycle of deformation and relaxation

Question 64

What is hysteresis related to?

Answer 64

Dynamic Flexibility-Stretch, Relax, Stretch, Relax, etc.

Question 65

What is muscle?

Answer 65

The associated connective tissue organization

Question 66

What are the three levels of muscle?

Answer 66

Endomysium
Perimysium
Epimysium

Question 67

What is the Endomysium?

Answer 67

Connective tissue associated with the individual muscle cells.
Interconnects to the perimysium (slice)
Greater % of elastin in continuously active muscles (Eye and diaphragm)

Question 68

For Endomysium, what is the arrangement of connective tissue fibrils dependent on?

Answer 68

The degree of stretch or contraction of the muscle

Could be an important factor in the parallel series elastic component

Question 69

What are the three components of composition in Endomysium?

Answer 69

Myocyte-myocyte
Myocyte-Capillary
Basil lamina network of the myocyte

Question 70

What is the perimysium?

Answer 70

Surrounds groups of 10-20 muscle fibrils
Collectively called form fascicle
A major component of the parallel elastic components of muscle

Question 71

What is the perimysium composed of?

Answer 71

Collagenous,
Elastic,
Reticular fibers
Fat cells

Question 72

What is the importance of the perimysium?

Answer 72

Maintains position of muscle bundles

Distributes stress associated with passive stretch

Question 73

What is Epimysium?

Answer 73

Surrounds the fascicle of individual muscle

Amount of collagen/elastin varies with the muscle’s function

Question 74

For muscle stiffness, what is the portion of passive resting tension due to?

Answer 74

The parallel arrangement of the invested connective tissue.

Question 75

What can a small portion of the tension of muscle stiffness be due to?

Answer 75

The actin and myosin cross bridges.

The tension provided by the cross bridges is velocity dependent.

Question 76

What contributes to resist deformation?

Answer 76

Contractile and non-contractile elements

Question 77

What is contractile elements related to?

Answer 77

Velocity of deformation

Question 78

When is non-contractile elements affected?

Answer 78

The further a muscle is stretched

Question 79

What do eccentric and concentric actions both have?

Answer 79

A force development which shortens or lengthens the muscle

Question 80

What is isotonic?

Answer 80

The tone of the muscle remains the same

Question 81

What occurs when actin and myocin are hyperactive?

Answer 81

You cannot lengthen the muscle which causes stiffness.