High Intensity Gait Training

Question 1

3 Important principles of neuroplasticity that apply to gait training

Answer 1

Specificity, Repetition Matters, Intensity Matters

Question 2

Specificity

Answer 2

• Weight-bearing, stepping, efficiency and balance are retrained SIMULTANEOUSLY during locomotor training
• Walking is a continuous task, whole practice should be provided
• If the goal is walking, practice walking!

Question 3

What is intensity

Answer 3

• workload as estimated by HR or perceived exertion
• Active ingredient to precipitate change in walking function

Question 4

What hormone is important for intensity

Answer 4

brain derived neurotrophic factor

Question 5

flowchart of intensity

Answer 5

higher intensity training –> improved cardiovascular and neurologic function –> improved walking outcomes

Question 6

High intensity gait training with Parkinson’s disease

Answer 6

• Moderate to high intensity aerobic exercises in Parkinson disease reduces motor
  disease severity in early-stage PD
• Moderate to high intensity aerobic exercises in Parkinson disease improve functional outcomes and quality of life in individuals with mild to moderate PD

Question 7

High intensity gait training with multiple sclerosis

Answer 7

 High intensity interval training safe and effective in improving fitness in lower levels of
disability
 Little evidence on effects on biomarkers, need to ensure incorporating adequate rest and
avoid overheating

Question 8

Monitoring intensity during high intensity gait training

Answer 8

• determine Max HR (208 - 0.7age)
• Target: 70-85% of HRmax
• Equivalent to 15-17 on borg

Question 9

Safety considerations

Answer 9

• Determine if patients are medically appropriate for high intensity training
• Monitor patient response
• Ongoing communication with physician/medical team

Question 10

Leap frog hypothesis

Answer 10

earlier and more aggressive therapies associated with better outcomes

Question 11

reverse transfer

Answer 11

complex task practice translates to improvements in lower-level tasks without same amount of practice

Question 12

Other considerations

Answer 12

• cognition/language
• other medical issues
• Anticipated discharge plan –> focus on what they need to be as independent as possible

Question 13

goals of gait training

Answer 13

 Improve gait independence
 Improve gait capacity (cardiovascular endurance)
 Improve gait speed
 Improve safety with gait (balance)

Question 14

Variability

Answer 14

• need kinematic, task, and environment variability
• kinematic: body’s exploration of a movement in space (letting them start to fall but catch)

Question 15

How many consecutive errors should you allow for?

Answer 15

• no more than 3-5
   Error is critical for motor learning
   Too much error can result in less practice/repetition & patient disengagement

Question 16

is the ultimate goal learning or performance?

Answer 16

learning
- performance may go down when you increase the challenge but it will promote more learning

Question 17

successful task completion

Answer 17

stepping in an intended direction with a positive step length while maintaining upright

Question 18

biomechanical components of gait

Answer 18

 Propulsion – ability to move COM in specific direction
 Limb advancement – foot clearance & positive step length
 Postural stability – maintaining upright
 Stance control – absence of limb/trunk collapse

Question 19

Common movement problems in stance control

Answer 19

• knee buckling
• severe knee hyperextension thrust
• sagittal plane hip collapse
• uncontrolled ankle equinovarus

Question 20

is stance time asymmetry a primary focus?

Answer 20

no

Question 21

common movement problems in limb advancement

Answer 21

• inability/difficult to initiate swing
• insufficient toe/foot clearance
• negative step length

Question 22

is the limb advancement strategy (steppage, circumduction, etc) the patient chooses a primary focus?

Answer 22

no

Question 23

common movement problems in propulsion

Answer 23

• slow walking speed
• negative step length

Question 24

what is the most efficient way to elevate HR into target zone?

Answer 24

challenging propulsion

Question 25

ways to challenge propulsion

Answer 25

• increase treadmill speed
• overground timed challenges
• inclines
  -banded posterior-directed resistance at pelvis
• pushing or pulling heavy loads

Question 26

common movement problems for postural stability

Answer 26

inability to remain upright without UE use or other physical assistance

Question 27

focusing on balance may cause what to occur?

Answer 27

• decrease in HR intensity
• may benefit from alternating between propulsion demanding tasks and balance challenges within a session

Question 28

is treadmill or overground training better?

Answer 28

• one is not necessarily better than the other
• overground is more meaningful day to day

Question 29

Robotic exoskeleton

Answer 29

• tool not an intervention
• evidence is inconclusive
• does show the critical active ingredients of our gait interventions include specificity, repetition, intensity, motor learning (variability and errors)

Question 30

Does evidence support practice of optimal kinematics during gait?

Answer 30

• nope
• emphasize kinematics only related to successful task completion (limb advancement, prevention of trunk/limb collapse, sagittal and frontal plane stability)

Question 31

Clinicians SHOULD perform:

Answer 31

• walking training at moderate to high aerobic intensities
• walking training with virtual reality

Question 32

clinicians MAY consider:

Answer 32

• strength training at > 70% 1 RM
• circuit training, cycling or recumbent stepping at 75-85% HR
• balance training with virtual reality

Question 33

Clinicians SHOULD NOT perform:

Answer 33

• static or dynamic balance activities including pre-gait
• BWSTT with emphasis on kinematics
• robot assisted gait training

Question 34

evidence does NOT support what?

Answer 34

• body weight supported treadmill training in chronic, ambulatory post-stroke population
• applicable to subacute neurologic populations
• may not apply to non ambulatory individuals or those who require BWS or assistance to ambulate

Question 35

Check out the example strategies to assist with subcomponents of gait