Phys Motor System Components

Question 1

Musculoskeletal contributions to strength reflect what?

Answer 1

o	Length of movement arm of the muscle
o	Length/tension relationship of the muscle
o	Type of muscle fiber 
o	Cross-sectional area of muscle
o	Fiber arrangement

Question 2

Neural contributions to strength reflect what?

Answer 2

o # of motor units recruited
o Discharge frequency
o Type of motor units recruited

Question 3

What is weakness in the context of neuropathology?

Answer 3

o Inability to generate force

o Inability to recruit or modulate motor neurons

Question 4

neuropathology can lead to what?

Answer 4

Loss of movement, loss of power, lack of muscle activity, immobility

Question 5

Neurologically-induced weakness may result from:

Answer 5

o Cortical lesion
o Lesion in descending pathways
o Disruption of impulses from alpha motor neurons
o Peripheral nerve injury
o Synaptic dysfunction at neuromuscular junction
o Damage to muscle tissue

Question 6

T/F the extent and distribution of weakness depends on extent and location of the lesion

Answer 6

True

Question 7

Paralysis or plegia -

Answer 7

total or profound loss of muscle activity

Question 8

Paresis -

Answer 8

mild or partial loss of muscle activity

Question 9

How do you name neuromuscular impairments (muscle weakness)?
Mono - 
hemi - 
para - 
tetra -

Answer 9

Named by distribution
mono - One single limb
hemiplegia - one entire side of body
paraplegia/diplegia - both legs
tetraplegia - entire body

Question 10

Common observations due to underlying weakness in neurologic pathology

Answer 10

o Postural abnormalities
o Asymmetrical weight bearing
o Abnormal Synergies

Question 11

Flexor synergy -

Answer 11

• UE

- scapula retraction and elevation, shoulder abduction and ER, elbow flexion, supination, wrist and finger flexion

Question 12

Extensor synergy -

Answer 12

LE

hip extension, adduction, and IR, knee extension, ankle PF and inversion, toe PF

Question 13

What is tone?

Answer 13

Muscle’s resistance to passive stretch (certain amount of tone is normal)

Question 14

Hypotonicity vs hypertonicity/spasticity

Answer 14

Hypo - flaccid

Hyper - rigid

Question 15

Neural contributions to normal muscle tone

Answer 15

• Net balance of descending input on motor neurons from corticospinal, rubrospinal, reticulospinal, vestibulospinal tracts
• Sensitivity of synaptic connections

Question 16

Non-neural contributions to normal muscle tone

Answer 16

 Connective tissue plasticity and viscoelastic properties of the muscles, tendons and joints

Question 17

What is spasticity/hypertonia?

Answer 17

Resistance to movement

Question 18

Is spasticity dependent/independent of velocity?

Answer 18

Dependent - the faster you move muscle, the more tone you will see
-Described as clasp-knife phenomenon

Question 19

Is hypertonia dependent/independent of velocity?

Answer 19

Independent - no matter how fast you move, it will be same tone

Question 20

Spasticity occurs as result of damage to what part of spinal cord?

Answer 20

Pyramidal tract or other nearby descending paths

Question 21

T/F Spasticity is not associated with clonus

Answer 21

False, can be associated with clonus (commonly in distal extremities > proximal)

Question 22

How do changes in neural contributions lead to spasticity?

Answer 22

↓ descending activity -> reduction of inhibitory synaptic input -> increase in tonic excitatory input

Question 23

T/F Spasticity results in alterations to threshold of golgi tendon reflex

Answer 23

False, alterations to stretch reflex

Question 24

What scale used to measure spasticity?

Answer 24

Modified Ashworth Scale

Question 25

Modified Ashworth Scale:

0 -

Answer 25

No increase in muscle tone

Question 26

Modified Ashworth Scale:

1 -

Answer 26

1. Slight increase muscle tone

2. Catch/release or minimal resistance at end range when moved into flex/ext

Question 27

Modified Ashworth Scale:

1+ -

Answer 27

1. Slight increase muscle tone

2. Catch followed by minimal resistance throughout remainder (less than half) of ROM

Question 28

Modified Ashworth Scale:

2 -

Answer 28

1. More increase in muscle tone through most ROM

2. BUT affected part(s) easily moved

Question 29

Modified Ashworth Scale:

3 -

Answer 29

1. Considerable increase in muscle tone

2. Passive movement difficult

Question 30

Modified Ashworth Scale:

4 -

Answer 30

1. Affected part rigid in flexion or extension

Question 31

What is tardieau scale?

Answer 31

Measuring spasticity that takes into account resistance to passive movement at both slow and fast speeds

Question 32

Tardieau scale:
V1 -
V2 -
V3 -

Answer 32

V1 - Slow as possible
V2 - Speed of limb falling under gravity
V3 - Fast as possible

Question 33

Tardieau scale:

0 -

Answer 33

No resistance in passive movement

Question 34

Tardieau scale:

1 -

Answer 34

slight resistance with passive movement

No clear catch at precise angle

Question 35

Tardieau scale:

2 -

Answer 35

Clear catch at precise angle interrupting passive movement followed by release

Question 36

Tardieau scale:

3 -

Answer 36

Fatigable clonus (<10 seconds when maintaining pressure) occurring at precise angle

Question 37

Tardieau scale:

4 -

Answer 37

Infatigable clonus (> 10 sec when maintaining pressure) occurring at precise angle

Question 38

What is rigidity?

Answer 38

heightened resistance to passive movement of the limb, independent of velocity of the stretch

Question 39

Where is rigidity predominantly seen?

Answer 39

Flexors

Question 40

What is leadpipe rigidity?

Answer 40

constant resistance to movement throughout entire ROM

Question 41

What is cogwheel rigidity?

Answer 41

Alternating episodes of resistance and relaxation

Question 42

Do you see posturing during movement or at rest?

Answer 42

At rest

Question 43

What is decorticate posturing? Where would you expect a lesion to be?

Answer 43

-UE flexion
-LE ext/IR/PF
Lesion = brainstem above red nucleus

Question 44

What is decerebrate posturing?

Answer 44

UE and LE extension

Lesion = below the red nucleus

Question 45

T/F Tone characteristics depend on type and location of pathology

Answer 45

True

Question 46

If you have a cortical lesion where would you expect the lesion and what type of tone would it cause?

Answer 46

Pyramidal (change in descending inputs of alpha motor neurons)
Spasticity (dep of velocity)

Question 47

If you have a basal ganglia lesion where would you expect the lesion and what type of tone would it cause?

Answer 47

Extrapyramidal 
Rigidity (type of hypertonia - ind of velocity)

Question 48

If you have a Brainstem lesion where would you expect the lesion and what type of tone would it cause?

Answer 48

Above/below red nucleus

Decorticate/decerebrate posturing (type of hypertonia - ind of velocity)

Question 49

What is chronicity in regard to tone characteristics?

Answer 49

Increase nonneural changes -> increased stiffness

Question 50

What are some common pathologies with hypertonicity?

Answer 50

CVA, TBI, MS, PD (rigidity)

Question 51

What is hypotonicity?

Answer 51

o Reduction in resistance to lengthening; reduction in “stiffness”

Question 52

Floppy hypotonicity -

Answer 52

collapse into gravity, harder to excite

Question 53

Flaccidity -

Answer 53

complete loss of muscle tone

Question 54

Hypotonicity is cause by:

Answer 54

Disruption of afferent input from stretch reflex -> lack of cerebellar efferent influence -> decreased input to gamma motor neurons

Question 55

Common pathologies of hypotonicity

Answer 55

 Cerebellar lesions, down syndrome, muscular dystrophies, late stage ALS, post-polio
 ACUTE CNS injuries -> hypertonicity/spasticity once subacute/chronic

Question 56

What are functional implications of increased tone?

Answer 56

 Abnormal posturing
 Misalignment
 High risk for injury during prolonged rest (skin breakdown)
 Bias with recruitment - Increased likelihood of synergistic movement
 Destabilization with changes in position (clonus, ↑ risk for contractures)

Question 57

What are functional implications of decreased tone?

Answer 57

 Fall into gravity

 High risk for injury during dynamic tasks

Question 58

What is coordination?

Answer 58

the ability to use different parts of the body together smoothly and efficiently

Question 59

What are 3 critical components of coordination?

Answer 59

1. Sequencing
2. Timing
3. Grading

Question 60

What is incoordination?

Answer 60

o Movements that are awkward, uneven, inaccurate

o Disruption of sequencing, timing, grading

Question 61

Find incoordination with what type of lesions?

Answer 61

o Found with motor cortex, basal ganglia, cerebellar lesions (Also tied to proprioceptive lesions)

Question 62

What is dysmetria?

Answer 62

general term for problems judging path to get to ultimate location (get to path ultimately)

Question 63

Hypermetria -

Answer 63

overestimate/shoot the target

Question 64

Hypometria -

Answer 64

undershoot the target

Question 65

What are the functional timing difficulties with incoordination?

Answer 65

 Increased reaction times
 Slowed movement times
 Difficulties terminating movement

Question 66

What is the rebound phenomenon?

Answer 66

• Incoordination
• cerebellum lesions
• difficulty halting movement when resistance is removed

Question 67

Dysdiadochokinesia

Answer 67

inability to perform rapid alternating movement

Question 68

What is coactivation?

Answer 68

• Firing of both extensors and flexes at same time

- Decrease degrees of freedoms patient can move through

Question 69

What is impaired inter-joint coordination?

Answer 69

• Cerebellum lesions

- Move one joint at a time sequentially

Question 70

How do you examine incoordination?

Answer 70

- Multi joint movements
	Finger to nose
	Alternating pronation/supination (Dysdiadochokinesi)
	Hand or foot tapping 
	Heel to shin

Question 71

What are 4 involuntary movements?

Answer 71

1. Dystonia (twisting/repetitive movements)
2. Tremors
3. Choreiform (jerky/rapid movements)
4. Athetosis (slow twisting movements)

Question 72

What is dystonia? Lesion to what area of brain? Affects what part of body?

Answer 72

o Basal ganglia
o Syndrome dominated by sustained muscle contractions
o Causes twisting, repetitive movements, abnormal postures
o Coactivation agonist/antagonist
o Focal, segmental, hemibody, or generalized/whole

Question 73

What are tremors?

Answer 73

o Rhythmic, involuntary oscillatory movement of a body part

o Can be intermittent or constant, sporadic or as a sequelae to disease or injury

Question 74

What is a resting tremor?

Answer 74

 Occurs in body part that is not voluntary activated, relaxed

Question 75

What is an action tremor?
Postural -
Intention -

Answer 75

 Any tremor that is produced by voluntary contraction of a muscle
• Postural Tremor: person maintains a part of body against gravity (hold a lifted arm)
• Intention Tremor: produced with purposeful movement (sliding or lifting arm)

Question 76

What is choreiform?

Seen in what syndromes?

Answer 76

o Involuntary, rapid, irregular and jerky movements

o Seen with Huntington’s Disease; side effect of PD medications

Question 77

What is athetosis?
Is UE or LE move affected?
Common in what syndrome?

Answer 77

o Slow, writing and twisting movements
o UE>LE
o Common in Cerebral Palsy

Question 78

Neuromuscular impairments can secondarily cause what issues?

Answer 78

1. ROM and alignment issues
2. Endurance issues
3. Pain

Question 79

Spasticity and hypertonia can lead to (decrease/increase) ROM?

Answer 79

Decrease (contractures)

Question 80

Immobilization of joint can lead to (decrease/increase) stiffness?

Answer 80

Increased stiffness
 ↑ resistance to stretch, ↓ in sarcomeres -> ↑ in connective tissues
 ↓ rate of protein synthesis -> atrophy

Question 81

Changes in length/tension relationship can do what 2 things?

Answer 81

 Contributes to further weakness

 Alters mechanical advantage

Question 82

Endurance issues with neuromuscular impairments -

Answer 82

o Decrease in central drive to spinal cord motor neurons
o Decrease in activity level/immobility
o Presence of comorbidities - Afib, CAD, COPD, DM, etc…

Question 83

Musculoskeletal pain due to:

Answer 83

 Synergistic movements resulting in overworking of certain muscles
 Muscle asymmetries causing abnormal loading through joints
 ROM and alignment issues
 Decreased efficiency of movements leading to increased workload required to complete tasks