Upper Extremity Function

Question 1

upper extremity function

Answer 1

• transport hand to desired location
• grasp, dexterity, manipulation
• sensory input from different modalities
  -> tactile identification of objects/ properties
  -> interaction w/ environment
• coordinate visual, tactile information, head and upper extremity movements
• postural adjustments that occur w/ arm movements and bimanual coordination
• maintain balance while functioning in multiple postures
• communication: body language, hand contact
• balance: arm swing, protective arm response, supportive

Question 2

example of upper extremity impairments

Answer 2

peripheral extremity injuries (e.g. fractures, ligament tears, amputations))

chronic MSK conditions (e.g. rheumatoid, arthritis, osteoarthritis)

neurological conditions (e.g. stroke, parkinson’s, MS)

Question 3

motor control mechanisms - feed-forward neuromuscular control

Answer 3

• movements are planned based on information from past experiences
• operates on premise of initiating a motor response in anticipation of a load or activity

(e.g. reducing muscle contractions in response to anticipating a heavy load being removed from arm)

Question 4

motor control mechanisms - feed-back neruromuscular control

Answer 4

• continuously regulates muscle activity through reflexive pathways
• reactive muscle activity

(e.g. reducing muscle contractions in response to a heavy load being removed from arm)

Question 5

most movements utilise a combination of ____________ and ________________ control

Answer 5

feed-forward; feed-back

Question 6

there are multiple ways to reach for a target b/c…

Answer 6

three are more than 7 joints involved in upper extremity function w/ multiple degrees of freedom (joint rotations)

Question 7

general sequence of movement

Answer 7

• initiation and planning (vision, hand-eye coordination)
• trunk adjustment (trunk and spine move first)
• shoulder and scapula movement (position the arm)
• elbow and wrist adjustment (e.g. pronation/supination)
• hand and finger grasp (final stage= precise movement of fingers and thumb to grasp the object)

Question 8

in reaching…

Answer 8

• elbow and shoulder joint actions cannot be planned independently of each other (you should not see excessive movement of either one)
• single joint assessment may not be relevant

Question 9

triphasic burst - agonist and antagonist definitions

Answer 9

agonist= a muscle responsible for producing a specific movement through concentric muscle action

antagonist= a muscle responsible for opposing the concentric muscle action of the agonist

Question 10

triphasic burst

Answer 10

EMG pattern during a fast single-joint movement results in 3 bursts

example-> elbow extension

• agonist: triceps burst
• antagonist: biceps burst with quieting of triceps
• agonist: triceps again to dampen oscillations of moving limb

Question 11

eye-hand coordination

Answer 11

• eyes direct the movement of the hands to target, relaying the size and shape of object, and this info is used to determine forces required for reach and grasp
• in the dark, eye movements can be aimed toward the hand by just using proprioception
• viewing hand prior to movement improves accuracy

clinical implications: consider interaction of vision and proprioception when sensorimotor impairment

Question 12

trunk coordination

Answer 12

• exercises w/ trunk restraint may improve arm and hand function after injury (don’t allow compensation w/ trunk, so more focus on true hand/arm skills)
• but… trunk/core exercises may improve arm and hand function b/c:
  1. trunk control is required for optimal upper extremity function
  2. ultimately, people do compensate w/ trunk during normal movements

Question 13

Fitt’s law

Answer 13

increase accuracy, decrease speed
-> valid for tapping, reaching, and grasping movements
-> to reach a smaller target or pick up a smaller cylinder we take more time

what does this mean clinically when restraining reach?

Question 14

goal-oriented reaching is _______________

Answer 14

smoother and faster

Question 15

reach and grasp are _____________

Answer 15

coupled

Question 16

handedness

Answer 16

3 possibilities:
- right
- left (10-25%, usually male)
- ambidextrous (1%)

• in 95% of right handers and 60% of left handers, the left cerebral hemisphere is dominant for language
• handedness assessment plagued w/ ambiguities and inconsistencies (self-report)
• right-handed individuals have stronger right dominant hand (10-12% greater strength)
• left handed individuals have more equal strength b/w hands
• bone mineral density is 3% higher in the dominant right hand; but similar b/w sides in left handed people

Question 17

dexterity

Answer 17

speed, coordination, fine motor, interaction w/ the environment

a measure of function of the upper extremity