Rehab Exam 1 Review

Question 1

Motor Control

Answer 1

• Study dealing with the understanding of the neural, physical and behavioral aspects of movement
• Everything related to movement
• How brain talks to rest of the body

Question 2

Motor Skill

Answer 2

• Purposeful and functionally based movement learned through interaction and exploration of the environment

Question 3

Motor Plan

Answer 3

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

Question 4

Motor Program

Answer 4

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

Question 5

Motor Memory

Answer 5

• Recall (perform) the motor programs without thought, as if muscles remembers

Question 6

4 components of motor memory

Answer 6

• Initial movement conditions
• Sensory: how movement felt, looked, sounded
• Specific movement parameters (ex: force needed to generate movement)
• Outcome of movement

Question 7

Neuroplasticity

Answer 7

• Ability of brain to create and repair itself

- Ability of CNS to respond to intrinsic/extrinsic stimuli by reorganizing structure, function, connections

Question 8

When neuroplasticity occurs

Answer 8

• During development
• Response to environment
• Support of learning (learningd new tasks)
• Response to disease/damage/injury
• Relationship to therapy

Question 9

Adaptive Neuroplasticity

Answer 9

• Good, positive change; re-routing occurs (creates new routes in brain)

Question 10

Mal-adaptive Neuroplasticity

Answer 10

• Does not generate new routes; allows compensation/changes vs. doing task properly

Question 11

Motor Learning

Answer 11

• CNS integrates sensory and motor info to produce a motor action and relatively permanent changes in capability for skilled behavior
• “Perfect practice makes perfect”
• “Not perfect” practice can lead to mal-adaptive neuroplasticity

Question 12

PTA “Must-Do” requirements for Motor Learning

Answer 12

• Determine if SKILL is IMPORTANT to the patient, DESIRABLE, REALISTIC to learn
• DEMONSTRATE task exactly as it should be done
• RELATE skill to a skill that pt is FAMILIAR with; pt can use PAST EXPERIENCE as subroutines
• Give CLEAR and CONCISE verbal instructions and VS; Allow TRIAL and ERROR

Question 13

Feedback

Answer 13

• 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 14

Feedforward

Answer 14

• Sending signals in advance of movement to ready sensorimotor system

Question 15

Dynamical Systems Control Theory

Answer 15

• CNS organized around specific task demands
• Larger areas of CNS may be needed for complex tasks
• Higher CNS levels may not be used for simple or discrete tasks

Question 16

Hierarchial Control Theory

Answer 16

• CNS organized from top-down
• Areas shape and determine motor plans
• High: organize sensory motor, decision making (association cortex, basal ganglia)
• Middle: define specific motor programs, initiate commands (sensorimotor cortex, cerebellum, basal ganglia, brainstem)
• Lower: execute movement (spinal cord)
• Higher levels needed for initial skill acquisition
• As motor learning develops, only lower levels activated for motor programming

Question 17

Stages of Mobility

Answer 17

• Mobility (Transitional mobility)
• Stability (Static postural control)
• Controlled Mobility (Dynamic postural control)
• Skill
• Develop levels in order, but work on simultaneously

Question 18

Mobility

Answer 18

• Ability to move from one position to another

- Ability to initiate movement through a functional ROM

Question 19

Stability

Answer 19

• Ability to maintain a 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 or (alternating) isometric contractions

Question 20

Controlled Mobility

Answer 20

• Ability to move within a WB position or rotate around a long axis
• Ability to maintain postural stability and orientation with COM over BOS while parts are in motion
• Move COM away from BOS and back

Question 21

Static-dynamic controlled mobility

Answer 21

• Maintain posture while moving one or more limbs

Question 22

Skill

Answer 22

• Ability to CONSISTENTLY perform functional tasks and manipulate environment with normal postural reflex mechanisms and balance reactions
• Consistently doing activities in UNCONTROLLED environment

Question 23

Categories of Cognitive Deficits

Answer 23

• Focal: Only one or a few deficits

- Profuse/multifocal or global: Deficits across many areas of cog function

Question 24

5 levels of Consciousness

Answer 24

• Consciousness
• Lethargy
• Obtundation
• Stupor
• Coma

Question 25

Consciousness

Answer 25

• State of alertness and awareness of surroundings

Question 26

Lethargy

Answer 26

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

Question 27

Obtundation

Answer 27

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

Question 28

Stupor

Answer 28

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

Question 29

Coma

Answer 29

• Unconsciousness; unable to arouse
• Eyes open
• No sleep-wake cycle
• No response to painful stimuli
• Generally time-limited

Question 30

2 levels of Coma

Answer 30

• Minimally conscious (vegetative) state: Return of irregular sleep/wake cycles; Normalization of vegetative functions (respiration, digestion, BP); aroused, unaware of environment; nopurposeful or cog responsiveness
• Persistent vegetative state: Vegetative state for 1 year or more

Question 31

Orientation

Answer 31

• The who, what, where and when
• Time, place, person, circumstance
• A+O x 3: orient to time, place, person
• A+O x 4: includes circumstance

Question 32

Selective attention

Answer 32

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

Question 33

Sustained attention

Answer 33

• Length of time pt maintains attention

Question 34

Alternating attention

Answer 34

• Switching attention between two different tasks

- Add 2 numbers, then subtract 2 numbers

Question 35

Divided attention (dual task)

Answer 35

• Performing two tasks simultaneously (walk and talk)

Question 36

Receptive Aphasia

Answer 36

• Wernicke’s Aphasia (fluent aphasia)
• Can talk, but does not understand
• Left-sided - CVA, TBI

Question 37

Expressive Apashia

Answer 37

• Broca’s Aphasia (non-fluent aphasia)
• Difficulty talking, but understands
• Left-sided - usually not TBI

Question 38

Global Aphasia

Answer 38

• Receptive + Expressive Aphasia

Question 39

3 elements of Memory

Answer 39

• Acquisition or Learning (registration)
• Storage or retention (retention)
• Retrieval or recall (recall)
• Concept similar to card catalog (store info to be able to recall)

Question 40

Short-term memory

Answer 40

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

Question 41

Long-term memory

Answer 41

• Recall facts or events such as birth dates or anniversaries

Question 42

Memory impairments

Answer 42

• Amnesia: Memory deficit (Those with no long-term memory)
• Anterograde (post-traumatic) amnesia: Inability to learn new info
• Retrograde Amnesia: Inability to remember previously learned info that they knew prior to the insult to the brain

Question 43

Developmental Postures

Answer 43

• POE (Prone on elbows)
• Quadruped
• Bridging
• Sitting
• Kneeling and half-kneeling
• Modified plantargrade
• Standing

Question 44

Decorticate Posturing

Answer 44

• Abnormal flexor pattern
• UE in flexion (elbow, wrist and fingers flexed with shoulder adduction)
• LE in extension (extension, IR, plantar flexion)
• Pretty severe brain damage

Question 45

Decerebrate Posturing

Answer 45

• Abnormal extensor pattern
• UE in extension (elbow extended, forearm pronated, wrist and fingers flexed, shoulder abduction)
• LE in extension (extension, IR, plantar flexion)

Question 46

Rood (Neuromuscular facilitation/inhibition)

Answer 46

• Sensory stimuli to achieve motor output through facilitation (creation) or inhibition (decrease) of movement responses
• All motor output is the result of past or present sensory input; takes into account autonomic nervous system, emotional factors, motor ability
• Goals of treatment: Homeostasis in motor output; activate muscles - response to stimulus, perform task independently of stimulus
• Once desired response is achieved, stimulus is withdrawn

Question 47

Facilitation techniques

Answer 47

• Approximation
• Joint compression
• Icing
• Light touch
• Quick stretch
• Resistance
• Tapping
• Vibration
• Brushing

Question 48

Inhibition techniques

Answer 48

• Deep pressure
• Prolonged pressure
• Prolonged stretch
• Warmth (ex: inhibit muscle spasm)
• Prolonged cold
• Carotid reflex
• Traction (Grade 1 or 2 distraction)

Question 49

NDT (Neurodevelopmental Treatment)

Answer 49

• Function-induced recovery
• Inhibit bad postures (abnormal movement), facilitate normal movement
• Promote normal movement patterns that integrate function
• Abnormal movement patterns (compensations) are not tolerated
• Key points of control: Shoulder, Pelvis, Hand, Foot

Question 50

NDT (5 basic components of movement)

Answer 50

• Trunk control and movement (Estabish trunk stability to superimpose head and limb control)
• Head control on trunk (Head aligns on stable trunk)
• Midline orientation (Pt learns where midline is and begins moving away from and toward midline)
• Movement over BOS (Move trunk over BOS, prep for standing)
• Limb function on trunk (Allows for contact with environment, trunk stability = better limb function)

Question 51

Brunnstrom (Movement Therapy in Hemiplegia)

Answer 51

• Synergy is primitive patterns that occur at the SC as a result of CNS hierarchial organization
• Uses synergy to restore function
• Reinforcing synergies are difficult to change later
• Focus on pattern of movement
• Initial limb synergies encouraged as necessary milestone for recovery
• Encourage overflow to recruit active movement
• Use of repetition of task and positive reinforcement

Question 52

Brunnstrom (7 stages of recovery)

Answer 52

• Stg 1: No volitional movement of limbs can be elicited
• Stg 2: Appearance of basic limb synergies as associated reactions; beginning of spasticity
• Stg 3: Voluntary control of movement synergies, although not full range; spasticity increases, may be severe
• Stg 4: Spasticity decreases; movement combos that don’t follow paths of synergy are mastered
• Stg 5: Further decrease in spasticity; independence from limb synergy
• Stg 6: Disappearance of spasticity; isolated jt movement with coordination
• Stg 7: Normal motor function restored
• Pt may experience plateau at any stage of recovery, preventing full recovery

Question 53

Modified Ashworth Scale

Answer 53

0 = No increase in muscle tone
1 = Slight increase in muscle tone; catch-and-release, or min resistance at end of ROM when affected part moved in flexion/extension
1+ = Slight increase in muscle tone; catch, or min resistance throughout remainder (less than half) of ROM
2 = More marked increase in muscle tone throughout most of ROM, but affected part easily moved
3 = Considerable increase in muscle tone, passive movement difficult
4 = Affected part(s) rigid in flexion/extension

Question 54

PNF (Proprioceptive Neuromuscular Facilitation)

Answer 54

• Synergistic movement patterns are components of normal movement
• Emphasizes diagonal patterns with rotation (incorporate flexion, extension, rotation that are directed toward or away from midline)
• Originally developed for neurological conditions
• True PNF has more specific hand placements
• Stronger parts of body are utilized to stimulate and strengthen the weaker parts

Question 55

PNF (Intervention principles)

Answer 55

• Technique must have accurate timing, specific commands and correct hand placement
• Short and concise verbal commands
• Repetition in motor learning
• Isometric and isotonic muscle contractions
• Implemented to progress a pt through stages of motor control

Question 56

PNF Techniques (Mobility)

Answer 56

• Increase ROM: CR, HR, JD, RR, RS

- Initiate Movement: HR Active Movement, JD, RC, RI, RR

Question 57

PNF Techniques (Stability)

Answer 57

• AI, RS, SR SR Hold

Question 58

PNF Techniques (Controlled Mobility)

Answer 58

• AR, SR, SR Hold

Question 59

PNF Techniques (Skill)

Answer 59

• Distal Functional Movement: NT, SR, SR Hold

- Proximal Dynamic Stability: AR, RP

Question 60

PNF Techniques (Strength)

Answer 60

• AI, RC, RP, TE

Question 61

Motor Control Theory

Answer 61

• Task-oriented approach
• MC = ability to produce, regulate and alter mechanisms that produce movement and control posture
• Observation of functional performance, analysis of strategies used to accomplish tasks; assessment of impairments
• Design and implement effective recovery and compensatory strategies
• Retrain using functional activities
  Evaluation determines degree of impairment, intervention designed at level of impairment
• Tasks broken down into components of the task for practice

Question 62

CIMT (Constraint induced movement therapy)

Answer 62

• Restrain uninvolved extremity; forces use of involved extermity
• Most research focuses on UE because gait is natural CIMT
• Concentrated time frame (intense - multiple hours); repetitive practice; task- specific (practice of multiple tasks

Question 63

Functional, Task-oriented training

Answer 63

• Combined with motor control and motor learning, task-oriented training is leading approach to intervention
• Enhances recovery and re-acquire skill
• Functional task - focused on functional tasks; Motor control - Based on level of impairments
• PTA acts as “coach” and implements feedback with skill: Initial movements assisted or guided, active movements are overall goal

Question 64

Kleim Article (10 principles of neuroplasticity)

Answer 64

• Use it or lose it (failure to drive specific brain functions = degradation)
• Use it and improve it (training that drives specific brain function = enhancement)
• Specificity (Nature of training experience dictates nature of plasticity)
• Repetition matters (Plasticity requires sufficient repetition)
• Intensity matters (Plasticity requires sufficient training intensity)
• Time matters (Different forms of plasticity occur at different times during training)
• Salience matters (Plasticity requires sufficient salience)
• Age matters (Training plasticity occurs more readily in younger brains)
• Transference (Plasticity in response to one training experience can enhance acquisition of similar behaviors)
• Interference (Plasticity in response to one training experience can interfere with acquisition of other behaviors)