Lectures #5 and #6 (ROM and Flexibility)

Question 1

What is the musculotendinous unit’s ability to elongate with the application of a stretching force?

Answer 1

Flexibility

Question 2

What is the amount of mobility of a joint as determined by the soft tissue and bony structures in the area?

Answer 2

ROM

Question 3

True or false:

If a pt has decreased flexibility, they will also have decreased ROM.

Answer 3

True

Question 4

True or false:

Flexibility and ROM are measured the same and are used interchangeably.

Answer 4

True

Question 5

What is connective tissue composed of?

Answer 5

Collagen, elastin, reticulin, and ground substance

Question 6

What provides support, connections, and the framework of the body and also determines the mobility of the musculoskeletal system?

Answer 6

Connective tissue

Question 7

What substance provides the tissue with strength and stiffness. This also has a high tensile strength.

Answer 7

Collagen

Question 8

What substances provides the structure with extensibility and withtstands elongation and allows the tissue to return to its normal length?

Answer 8

Elastin

Question 9

What are the fibers that are the weaker form of collagen fibers (type III)? The are temporary and occur during the healing process.

Answer 9

Recticulin

Question 10

What is the gel-like substance that reduces friction, prevents cross-linking, and maintains spacing, and provides nutrients to the fibers?

Answer 10

Ground substance

Question 11

What is a loose connective tissue in which the fiber arrangement is unorganized and has larger areas between crosslinks? This tissue provides strength and pliability and permits motion in all directions. What is an example?

Answer 11

Areolar tissue; ex = skin

Question 12

What is highly organized tissue with short spacing between cross-links and parallel fibers that has high tensile strength with some flexibility? What is an example?

Answer 12

Dense connective tissue; tendons and ligaments

Question 13

True or false:

Tendons have more cross-links and greater organization that ligament tissue.

Answer 13

False–ligaments have greater cross links and greater organization.

Question 14

What is the loss of motion due to immobilization due to? (x5)

Answer 14

Increases collagen cross linking, loss of ground substance, fibrosis, wound contraction, and collagen misalignment

Question 15

True or false:

Connective tissue is almost continually replaced and reorganized.

Answer 15

True…daily motion of the body can affect the tissue by allowing it to shorten or stretch. This is why immobilization is bad because the tissue will just shorten and not be stretched, resulting in mobility problems.

Question 16

What causes fibrosis to increase during immobilization and edema?

Answer 16

Decreased local metabolism…so the collagen doesn’t reorganize to the line of pull since it will bind to other structures

Question 17

True or false:

Immobilization causes an increase in muscle fiber size.

Answer 17

False, it causes a decrease because it decreases the number of myofibrils, increases in fibrosis and fatty tissue, reduced intramuscular capillary density

Question 18

How long will muscle atrophy occur during immobilization?

Answer 18

Two weeks or less

Question 19

What are some noticable changes in the muscles during immobilization?

Answer 19

Atrophy, weaker contraction, less endurance, slower response to stimulus, patient apprehension or inability to use.

Question 20

True or fasle:

Lactic acid is higher once the immobilized muscle begins to work once again.

Answer 20

True, because of the decreased mitrochondrial production and size

Question 21

What does an increased fibrofatty tissue typically result in?

Answer 21

Scar tissue

Question 22

With immobilization on articular cartilage, how well does the tissue heal?

Answer 22

They are slow to recover and there is a strong tendency that the tissue may never fully recover. Often there are only passive ROM at first to decrease joint compressive forces

Question 23

Describe the balancing act in regards to mobility during rehabilitation.

Answer 23

There is a constant struggle to provide mobility that will enhance healing and reduce connective tissue adhesions while still allowing the healing process to continue and to protect the healing tissue.

Question 24

True or false:

Remobilization enhances recovery

Answer 24

True

Question 25

How does remobilization help in regards to articular cartilage?

Answer 25

Motion and stress improve proteoglycan and chondrocyte production…this motion helps nourish the cartilage with the synovium

Question 26

What mechanical property of tissue is improved with warming up?

Answer 26

The viscoelastity—the fluid moves easier so the tissues can slide along one another and accept the loads easier)

Question 27

What mechanical tissue property stores potential energy and allows the tissue to be able to be stretched and return back to its previous length?

Answer 27

Elasticity

Question 28

What mechanical property allows for fluid-like, permanent deformation from outside resistance?

Answer 28

Viscoelasticity

Question 29

What mechanical property results in a permanent change in the size or shape of the muscle, and allows for deformation to occur when the force applied overcomes the this property/.

Answer 29

Plasticity

Question 30

What is creep?

Answer 30

Low load, long duration—the elongation of tissue when the stress is at a low level over a long period of time. It often involves an increase in plasticity

Question 31

What states that the strain of an object is directly related to the object’s ability to resist the stress?

Answer 31

Hooke’s law

Question 32

What is the toe region of the stress-strain curve? How much of the collagen lengthening does it account for?

Answer 32

The initial part of the curve in which the fibers are stretched to the elastic region. It accounts for 1.5-4% of collagen lengthening.

Question 33

How much of the tissue’s total elongation does the elastic range of the stress-strain curve account for? What can happen in this range?

Answer 33

2-5%…in this range the tissue can be stretched but it will still return to its prestretch length. No deformation will occur

Question 34

What region of the stress-strain curve will physical deformation begin to occur?

Answer 34

The plastic region. This is the region in which flexibility changes will take place.

Question 35

What is the yield point of the stress-strain curve?

Answer 35

The point at which tissue failure will begin if the stress is continued.

Question 36

What is the necking region of the stress-strain curve?

Answer 36

Where the tissue strength decreases prior to reaching failure

Question 37

What is hysteresis?

Answer 37

Repetitive stretching at a sub-max load that can result in an increase in tissue length

Question 38

What is composed of intrafusal muscle fibers that lie between other muscle fibers and provide the body with sensory stimulation and motor responses by its afferent and efferent motor supply (alpha, beta, and gamma fibers)?

Answer 38

Muscle spindles…they are sensitive to a stretch and the rate of change in a muscle’s length

Question 39

What is a nuclear bag fiber?

Answer 39

One of the two types of muscle fibers that is more sensitive to the velocity of the stretch due to the increased elasticity

Question 40

What are nuclear chain fibers?

Answer 40

One of the two types of muscle fibers that are shorter and thinner that is sensitive only to stretch

Question 41

What are the three types of muscle spindle innervations?

Answer 41

1) Type Ia fibers (afferent) (annulospiral endings) that respond to quick and static stretch
2) Type IIa fibers (afferent) (flower-spray endings) that respond to static stretch only
3) One efferent nerve that sends response to intrafusal (gamma) and extrafusal (alpha) muscle fibers so the muscle can react

Question 42

What are long, delicate tubular capsules located at the distal and proximal musculo-tendon junctions that are sensitive to muscle contraction?

Answer 42

GTOs

Question 43

What do GTOs due?

Answer 43

Autogenic inhibition of the muscle when they are stimulated to function as a protective mechanism

Question 44

If a muscle is stretched quickly (ballistic), what occurs to prevent the muscle from overstretching?

Answer 44

The muscle contracts reflexively to halt the stretch by action of first the GTO then the muscle spindle

Question 45

If a muscle is stretched slowly (static, PNF) what inhibits its muscular contraction?

Answer 45

GTOs

Question 46

What is the accuracy of goniometric measurements?

Answer 46

Within 3-5 degrees

Question 47

True or false:

In rehab, if a pt doesn’t really need a certain ROM or flexibility then don’t push it.

Answer 47

True…take into consideration their sport and what requirements they need for their position

Question 48

What are some of the influencing factors when you are trying to work with the ROM and flexibility with a patient?

Answer 48

Patient position, voluntary resistance to movement, type of motion (active, passive, assistive), pt’s willingness to move, pain/spasm, and wound healing

Question 49

When the antagonist muscle is weak, what happens to the agonist?

Answer 49

It becomes shortened and lacks flexibility, which will prevent an imbalance between the muscles

Question 50

What occurs when the antagonist becomes inhibited allowing for restoration of normal flexibility and balance?

Answer 50

Reciprocal inhibition

Question 51

True or false:

Stretching can be active, passive, or a combo of both.

Answer 51

True, the combo would be PNF

Question 52

How long should a patient hold an active stretch?

Answer 52

15-30 seconds for 4-5 reps

Question 53

How long should a passive stretch be applied by the clinician?

Answer 53

15 sec for 4-6 reps

Question 54

What is the progression for stretching (flexibility) during rehab?

Answer 54

Active –> passive –> PNF

Question 55

What is the progression for ROM during rehab?

Answer 55

Passive –> active –> restricted

Question 56

What is the best technique to improve flexibility quickly?

Answer 56

PNF (proprioceptive neuromuscular facilitation)

Question 57

What are the three types of PNF stretching?

Answer 57

1) Slow-reversal-hold-relax
2) Contract-relax
3) Hold-relax

Question 58

What does PNF stretching utilize?

Answer 58

Autogenic (push = tension; quads) and reciprocal (pull = relax; hamstrings) inhibition

Question 59

How does the hold-relax PNF technique work?

Answer 59

The muscle is brought to the end of its motion, isometrically contracts, and then the antagonist contracts to allow the agonist to relax

Question 60

How does the contract-relax PNF technique work?

Answer 60

The muscle is brought to the end of its motion, an isotonic contraction occurs (lower leg to floor) and then relax the muscle and passively bring the leg up to its new end range

Question 61

How does the slow-reversal-hold-relax PNF technique work?

Answer 61

The pt is gradually stretched until a point of slight discomfort, then they actively contract the muscle being stretched for 10 sec, relax and muscle and passively pushed into new end point for greater stretch, and help for sec, then repeat cycle 2 more times

Question 62

What is a bouncing movement in which repetitive contractions of agonist muscles work to stretch the antagonist muscles?

Answer 62

Ballistic stretching—it uses the body weight to stretch

Question 63

What is an example of ballistic stretching?

Answer 63

Dynamic stretching (it more closely mimics sport activity and so it isn’t used as much in rehab

Question 64

What types of assistive devices are used in gaining flexibilty and ROM?

Answer 64

Pulleys, weights, straps, CPM, mechanical arms, canes, and sticks

Question 65

What is stretching indicated for?

Answer 65

-Shortened ligaments, capsules, muscles, fascia, skin, or other soft tissue affected by scar tissue, adhesions, or contractures

Question 66

What are the contraindications for stretching? (x7)

Answer 66

• when immobilization is needed
• recent fractures
• acute inflammation present (ligament/tendon/muscle tears or joint irritation)
• boney-block that restricts motion
• neural tension
• when a lax person needs soft tissue to provide stability
• when extreme or sharp pain (C fibers) are present

Question 67

During stretching, how far should the forces go to still be sufficient and provide tension?

Answer 67

Uncomfortable but not extrremely painful

Question 68

After the first week of injury or surgery, what types of things can be done in regards to ROM or flexibility?

Answer 68

Active exercises and CPMs; mild short-term passive stretches begin from day 7- day 21

Question 69

True or false:

Re-injuries usually have increased scar tissue reformation and ROM is often more painful and longer

Answer 69

True

Question 70

True or false:

Revision surgeries will often achieve ROM easier than first time surgeries.

Answer 70

True…this is because the pt will already know what to expect the second time around

Question 71

What joint is the worst to regain motion? Why?

Answer 71

Elbows because the swelling builds up in the pockets (fossas) and results in more pain and slower progression