10-01 Motor Control, Motor Learning, and Stages of Motor Control

Question 1

Three parts of Motor Function (3)

Answer 1

• Motor Control
• Motor Recovery
• Motor Learning

Question 2

Motor Control

Answer 2

• Area of study dealing with the understanding of the neural, physical and behavioral aspects of movement
• How brain communicates with rest of body on everything related to movement

Question 3

Motor Skill

Answer 3

• Purposeful and functionally-based motor skill

- Learned through interaction and exploration of the environment

Question 4

Motor Plan (Complex Motor Program)

Answer 4

• Idea or plan for purposeful movement
• Brain creates plan of action over time
• Concept –> brain, neuron, neurotransmitter –> movement
• Takes in sensory input and creates motor output

Question 5

Motor Program

Answer 5

• A set of commands that results in production of coordinated movement
• Possible contributions: synergistic component parts, force, direction, timing, duration, extent of movement

Question 6

Motor Memory (Procedural Memory)

Answer 6

• Recall “sub-routines” of the motor program
• Recall = Performing movement without thought (muscles remembering)
• Ex: Typing

Question 7

Components of Motor Memory (4)

Answer 7

• Initial movement conditions
• Sensory input: How movement felt, looked, sounded
• Specific movement parameters (Ex: force needed to guide movement)
• Outcome of the movement

Question 8

Neuroplasticity

Answer 8

• Ability of the CNS to respond to intrinsic or extrinsic stimuli by reorganizing its structure, function and connections
• Ability of brain to change or repair itself
• Ex: Learning new task, recovery from damage/injury

Question 9

Occurrences of neuroplasticity

Answer 9

• During development
• Response to environment
• Support learning
• Response to disease
• Relationship to therapy
• Ex: Re-routing of neuron synapses, chemical changes

Question 10

Adaptive neuroplasticity

Answer 10

• Good, positive change
• What PTs/PTAs want to see
• Re-routing occurs (creates new routes in brain)

Question 11

Mal-Adaptive neuroplasticity

Answer 11

• Does not generate new route

- Allows compensation/change to complete task vs. doing task properly

Question 12

Damages to CNS

Answer 12

• Interferes with motor function processes
• Lesions produce specific, consistent, recognizable deficits
• Individual differences in CNS plasticity, recovery, functional outcomes (patients will prevent differently, although same affected area)

Question 13

Motor Learning

Answer 13

• CNS integrates vast amount of sensory and motor information to produce motor action
• “Perfect practice makes perfect” (Not perfect can lead to mal-adaptive neuroplasticity)
• Leads to permanent change for skilled behavior (retention)
• Ex: riding a bike

Question 14

PTA Requirements for motor learning

Answer 14

• Determine that skill is important to patient (desirable and realistic for pt to learn)
• Demonstrate task exactly as it should be done
• Relate skill to skill/situation that pt is familiar; pt uses past experiences as subroutines
• Clear and concise verbal instructions and VC
• Allow for trial and error

Question 15

Feedback

Answer 15

• Response-produced info received during or after a movement used to monitor output for corrective actions
• Intrinsic (inherent) - as natural part of movement (visual, proprioception)
• Extrinsic (augmented) - info received from outer influences (verbal/tactile cues, visual, biofeedback)
• Concurrent - occurs during movement
• Terminal - occurs after movement`

Question 16

Feedforward

Answer 16

• Sending of signals in advance of movement to ready sensorimotor system

Question 17

Dynamical Systems Control Theory

Answer 17

• Organized around specific task demands
• Larger areas of CNS needed for complex tasks
• Higher CNS levels not used for simple (or discrete) tasks

Question 18

Hierarchical Control Theory

Answer 18

• Organized top-down (High to low)
• High: organize sensory info, decision-making (association cortex, basal ganglia)
• Middle: Define specific motor programs, initiate commands (sensorimotor cortex, cerebellum, basal ganglia, brainstem)
• Lower: Execute movement (spinal cord)
• Inital skill acquisition: Higher levels needed
• As motor learning develops, only lower levels activated for motor programming

Question 19

Validity

Answer 19

• Test measures the parameter that it says it measures

Question 20

Reliability

Answer 20

• Consistency of results obtained by a tester
• Intra-rater: single examiner over repeated trials
• Inter-rater: several examiners over repeated trials

Question 21

Sensitivity

Answer 21

• True positive

- Proportion of times a method of analysis identifies present abnormality

Question 22

Specificity

Answer 22

• True negative

- Proportion of times a method of analysis identifies absent abnormality

Question 23

Stages of Motor Control (4)

Answer 23

• Mobility
• Stability
• Controlled mobility
• Skill
• Can develop levels in order, but should work on simultaneously

Question 24

Mobility

Answer 24

• Transitional mobility
• Ability to move from one position to another (Ex: supine –> sidelying, supine –> prone)
• Ability to initiate movement through functional ROM (Ex: CVA pt ability to move arm)

Question 25

Stability

Answer 25

• Static postural control
• Ability to maintain position/posture through co-contraction and tonic holding around a joint with COM over BOS with body not in motion
• Ex: unsupported sitting in midline, alternating isometric contractions

Question 26

Controlled mobility

Answer 26

• Dynamic postural control
• Ability to move within WB position or rotate around long axis (move COM away from BOS and back)
• Ability to maintain postural stability and orientation with COM over BOS while parts are in motion
• Ex: POE activities, quadruped WS

Question 27

Static-dynamic control

Answer 27

• Static-dynamic controlled mobility

- Maintain posture while moving one or more limbs

Question 28

Skill

Answer 28

• Ability to consistently perform functional tasks and manipulate environment with normal postural reflex mechanisms/balance reactions
• Consistently doing activity in uncontrolled environment
• Ex: community locomotion

Question 29

Elements of Motor Function (10)

Answer 29

• Consciousness and arousal
• Cognition
• Sensory integrity and integration
• Joint integrity, postural alignment and mobility
• Tone
• Reflex integrity
• Cranial nerve integrity
• Muscle performance
• Voluntary movement patterns
• Postural control and balance

Question 30

Consciousness

Answer 30

• Ascending reticular activating system: brainstem
• Arouse, awaken, sleep-wake cycles
• 5 levels: consciousness, lethargy, obtundation, stupor, coma

Question 31

Consciousness (Level)

Answer 31

• State of alertness and awareness of surroundings

Question 32

Lethargy

Answer 32

• Slow motor processing
• Drowsy, but opens eyes and responds briefly
• Easily falls asleep, impaired focus
• Requires constant stimulation
• Speak loudly, ask simple questions

Question 33

Obtundation

Answer 33

• Dull or blunted sensitivity
• Difficult to arouse, slow responses
• When aroused, appears confused and demonstrates little interest or awareness
• Longer period of time than lethargy
• Little awareness of environment

Question 34

Stupor

Answer 34

• Semi-consciousness
• Lacks responsiveness
• Requires strong stimulus (often painful) to arouse

Question 35

Coma

Answer 35

• Unconscious patient, unable to arouse
• Eyes open
• No sleep-wake cycle
• No response to painful stimuli
• Generally time-limited

Question 36

Minimally conscious (vegetative) state

Answer 36

• Return of irregular sleep-wake cycles
• Normalization of vegetative functions: respiration, digestion, BP
• Aroused, unaware of environment
• No purposeful or cog responsiveness

Question 37

Persistent vegetative state

Answer 37

• Vegetative state for 1 year or more

Question 38

Cognition (4)

Answer 38

• Orientation
• Attention
• Memory
• Executive or higher cog functions

Question 39

Focal deficits

Answer 39

• Only one or a few cog deficits

Question 40

Diffuse (profuse) or multifocal or global deficits

Answer 40

• Deficits across many areas of cog function

Question 41

Orientation

Answer 41

• Time, place, person, circumstance
• A + O x3: time, place, person
• A + O x4: time, place, person, circumstance

Question 42

Attention

Answer 42

• Capacity of the brain to process info from environment or from long-term memory
• 4 types: selective, sustained, alternating, divided

Question 43

Selective attention

Answer 43

• Screen and process relevant info while screening out irrelevant info
• Can function in busy environment; focus on specific conversation and block others

Question 44

Sustained attention

Answer 44

• Length of time pt maintains attention

Question 45

Alternating attention

Answer 45

• Switching attention between two different tasks (adding 2 numbers, then subtracting 2 numbers)

Question 46

Divided attention (dual task)

Answer 46

• Perform 2 tasks simultaneously

- Ex: Walk and talk or walk and text

Question 47

Elements of Memory (3)

Answer 47

• Acquisition/Learning (Registration)
• Storage/Retention
• Retrieval/Recall
• Memory is like card catalog, store info till you need to recall

Question 48

Short-term memory

Answer 48

• Capability to remember day to day events, learn new material and retrieve after minutes, hours or days

Question 49

Long-term memory

Answer 49

• Recall facts or events such as birthdates or anniversaries

Question 50

Amnesia

Answer 50

• Memory deficits

- Usually no long-term memory

Question 51

Anterograde (Post-traumatic) amnesia

Answer 51

• Inability to learn new info

Question 52

Retrograde amnesia

Answer 52

• Inability to remember previously learned info prior to insult to brain

Question 53

Higher cognitive functions (4)

Answer 53

• Info and vocabulary
• Calculations (time, measurements)
• Abstract thinking (problem solving)
• Constructional ability (ability to copy figures)

Question 54

Dysarthria

Answer 54

• Speech articulation deficits

- Speech errors, timing, vocal quality, pitch, volume, breath frequency

Question 55

Receptive aphasia

Answer 55

• Wernicke’s aphasia = fluent aphasia
• Pt can talk, but does not understand
• Left-sided damage (CVA, TBI)

Question 56

Expressive aphasia

Answer 56

• Broca’s aphasia = non-fluent aphasia
• Pt has difficulty talking, but understands
• Left-sided damage (usually not TBI)

Question 57

Global aphasia

Answer 57

• Worst of both worlds

- Receptive + Expressive aphasia

Question 58

Sensory integrity and integration

Answer 58

• Sensory info is necessary for motor function
• Provides feedback for initial movement
• Detects errors during movement
• Provides outcome info that can assist in learning for future movement

Question 59

Tone (4)

Answer 59

• Resistance of muscle to passive elongation or stretch
• Hypertonia (Spasticity, Rigidity)
• Hypotonia (Flaccidity)
• Dystonia (Disordered, impaired)
• Decorticate and Decerebrate Rigidity
• Document type of tone present, affected body segments, activity that caused tone to change

Question 60

Spasticity

Answer 60

• Velocity-dependent
• Upper Motor Neuron (UMN) sign: lesion on corticospinal segment of brain
• Clasp-knife response
• Clonus
• Positive Babinski sign

Question 61

Rigidity

Answer 61

• Increase tone through ROM regardless of velocity (fast or slow)
• Lead pipe rigidity - Not going to move
• Cogwheel rigidity (Ratchet-like) - Give-hold, give-hold
• Lesions of Basil Ganglia (i.e., Parkinson’s)

Question 62

Hypotonicity

Answer 62

• Lack of resistance to passive stretch
• Flaccidity (no tone) or very low tone
• Lower motor neuron (LMN): Anterior horn, peripheral nerves affected

Question 63

Dystonia

Answer 63

Hyperkinetic, disordered tone and involuntary movements

Question 64

Decorticate posturing

Answer 64

• Abnormal flexor pattern; sustained contraction and posturing; pretty severe brain damage (globally)
• UE in flexion (elbows, wrist, fingers, flexed with shoulder adduction)
• LE in extension (extension, IT, plantarflexion)

Question 65

Decerberate posturing

Answer 65

• Abnormal extensor pattern; sustained contraction of trunk and extermities (except wrist flexion)

Question 66

Reflex integrity (3)

Answer 66

• Deep tendon reflexes (DTRs)
• Superficial cutaneous reflexes
• Primitive reflexes

Question 67

Deep Tendon Reflexes (DTRs)

Answer 67

• Tapping over tendon

Question 68

Superficial cutaneous reflexes

Answer 68

• Light touch to skin elicits muscle activation

Question 69

Primitive Reflexes

Answer 69

• Appears at infancy

- Integrate into CNS early on

Question 70

Cranial Nerve Integrity

Answer 70

• 1, 2, 8 = Sensory
• 3, 4, 6, 11, 12 = Motor
• 5, 7, 9, 10 = Mixed

Question 71

Muscle Performance

Answer 71

• Capacity of m to generate force

Question 72

Muscle Power

Answer 72

• Amount of work produced per unit of time

Question 73

Muscle Endurance

Answer 73

• Ability of muscle to contract over a period of time

Question 74

Atrophy

Answer 74

• Lack of LMN innervation

- Disuse “Use it or lose it”

Question 75

Synergy

Answer 75

• Movement patterns
• Voluntary, used functionally
• Abnormal mass synergies: Obligatory, stereotypical

Question 76

Synergies

Answer 76

• Based on Hierarchial Control Theory
• Damage to brain –> higher centers damaged
• Higher centers control complex motor patterns, Inhibition of massive gross motor patterns; higher centers lose control, middle and lower centers emerge

Question 77

Postural Control

Answer 77

• Ability to maintain body in equilibrium or to control body’s position in space for stability and orientation
• COM over BOS

Question 78

Postural Orientation

Answer 78

• Ability to maintain normal alignment relationships between various body segments, and between body and environment
• Aligns to environment

Question 79

Postural Stability Control

Answer 79

• Static equilibrium, static balance or stability

- Ability to maintain stability and orientation with the COM over the BOS with body at rest

Question 80

Dynamic Postural Control

Answer 80

• Dynamic equilibrium, dynamic balance or controlled mobility
• Ability to maintain stability and orientation with the COM over the BOS while parts of the body are in motion

Question 81

Goals of Postural Control

Answer 81

• Improve static balance
• Improve dynamic balance
• Improve adaptation of balance skills for varying task and environmental conditions
• Improve sensory function
• Improve safety awareness and compensatory strategies to effect fall prevention

Question 82

Causes of Static (stationary) Balance Deficits (6)

Answer 82

• Decreased strength
• Tonal imbalances (Spasticity in one area can affect balance)
• Impaired voluntary control
• Hypermobility (ataxia, athetosis)
• Sensory hypersensitivity (tactile defensive)
• Increased anxiety or arousal

Question 83

Signs of Postural Instability (5)

Answer 83

• Excessive postural sway
• Wide BOS
• High guard hand position
• Requires hand hold assistance
• LOB

Question 84

Strategies for Intervention (3)

Answer 84

• Guidance
• Feedback
• Practice

Question 85

Recovery of Function (3)

Answer 85

• Spontaneous recovery
• Function-induced recovery
• Compensation

Question 86

Spontaneous Recovery

Answer 86

• Occurs immediately after insult to CNS
• Neuronal changes due to repair processes of brain
• Can result in function being restored in neural tissue initially lost

Question 87

Function-induced Recovery (9)

Answer 87

• Challenge pt to get benefit of exercise
• Use it or lose it
• Repetition is important - need significant amount of repetition
• Intensity is important
• Use and shape to pt ability (modify with progress)
• Enhance selection of behaviorally important stimuli
• Enhance attention and feedback
• Target goal-directed skills (As pt or family what goals are for PT)
• Timing is important
• Age

Question 88

Compensation

Answer 88

• Using alternate strategies to complete a task
• New motor patterns appear from adaptation of remaining motor elements or substitution or alternate motor strategies and body segments
• Mal-adaptative neuroplasticity may kick in

Question 89

Guidance

Answer 89

• Physically assist only as much as is needed
• PTA provides missing “piece”
• Tactile and kinesthestic input (guide movement, where you touch pt matters)
• Decrease guidance as proficiency increases

Question 90

Practice

Answer 90

• Must correctly perform
• Plan breaks strategically
• Blocked practice vs. random practice
• Practice order
• Mental practice
• Transferring to other situations or environments

Question 91

Blocked practice

Answer 91

• One task performed repeatedly, uninterrupted by repeated task

Question 92

Random practice

Answer 92

• Tasks practiced, order of test is random

Question 93

Neurodevelopmental postures and potential treatment benefits (7)

Answer 93

• POE
• Quadruped
• Bridging
• Sitting
• Kneeling and half kneeling
• Modified plantargrade
• Standing