dynamic posturography sensory organization motor control testing posture evoked response
TRANSCRIPT
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Dynamic Posturography
Sensory Organization
Motor Control Testing
Posture Evoked Response
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Computerized Dynamic Posturography
• Sensory Organization Test—measurement of sway energy under various visual and support conditions.
• Motor Control Test—measurement of sway in response to tilt or translation in the support surface.
• Posture Evoked Responses—EMG recordings during the Motor Control Test.
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Measuring Sway Energy
• Pt stands on force plates (pressure transducers)
• pick up vertical forces– weight distribution
• front-back
• left-right
• Pick up horizontal sheer forces
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LIMITS OFLIMITS OF STABILITYSTABILITYLIMITS OFLIMITS OF STABILITYSTABILITYThe furthest distance in any direction a
person can lean away from midline (vertical) without altering the original base-of-support (by stepping, reaching, or falling)
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Dynamic EquilibriumDynamic Equilibrium
Sensory Organization Motor Coordination
Choice ofBody Movement
EnvironmentalInteraction
VisualSystem
VestibularSystem
Somato-Sensation
Compare, Select& Combine Senses
Determinationof Body Position
Select & AdjustMuscle Contractile Patterns
AnkleMuscles
Generation ofBody Movement
TrunkMuscles
ThighMuscles
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Equilibrium Score
• Maximum sway compared to calculated limits of stability
• 1 – (Max sway/LOS)
• 100 % = No Sway
• 0% = Sway reaches LOS
• Normed for age and height
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F
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NormalNormalVisionVision
EyesEyesClosedClosed
Sway-ReferencedSway-Referenced VisionVision
SO
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Sen
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Test
Sen
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11 22 33
44 55 66
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Equilibrium Scores
• For each of the 6 conditions
• Composite of all 6
• Derived Sensory Analysis
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Ratio Conds. Functional Relevance
Somatosensory (SOM)
2/1 Pt’s ability to use input from the somatosensory system to maintain balance.
Visual (VIS) 4/1 Pt’s ability to use input from the visual system to maintain balance.
Vestibular (VEST)
5/1 Pt’s ability to use input to the vestibular system to maintain balance.
Preference (PREF)
3+6/2+5 The degree to which pt relies on visual info to maintain balance, even when the info is incorrect.
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Sensory Analysis
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Strategy Analysis
• Hip vs. Ankle Dominant
• Hip–high frequency, greater effect in horizontal shearing force
• Ankle–low frequency, greater effect in vertical forces.
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COG Alignment• Average weight distribution
• Displayed for each conditions
• Offsets may reflect:– peripheral sensory– neurogenic– musculoskeletal– adaptation
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Motor Control Test
• Support Surface Translations– Forward– Backward
• Sway amplitude
• Latency
• Weight symmetry
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• Amplitudes- Threshold/Small- Mid-range/Medium- Saturating/Large
• Directions- Forward- Backward
• Measures- Latency- Strength- Symmetry
Motor ControlTest (MCT)
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• Latencies Slightly Shorter For Large vs Medium Displacements
• Latencies Symmetrical Between Left & Right Sides
MCT: Normal LatenciesMCT: Normal LatenciesMCT: Normal LatenciesMCT: Normal Latencies
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MCT: Latencies ProlongedMCT: Latencies ProlongedMCT: Latencies ProlongedMCT: Latencies Prolonged
• Possible Deficits:- Extremity/Spinal Orthopedic Injury- Output Pathways
• Problem Conditions:- Minor If Isolated- Major If Combined
• Possible Treatments:- Rehabilitation?- Lifestyle
Un
ilate
rally
Un
ilate
rally
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Bilate
rally
Bilate
rally
Possible Deficits:- Neuropathy- Multiple Sclerosis- Spinal Orthopedic- Brainstem/Cortical
Problem Conditions:- Minor If Isolated- Major If Combined
Possible Treatments:- Lifestyle
MCT: Latencies ProlongedMCT: Latencies ProlongedMCT: Latencies ProlongedMCT: Latencies Prolonged
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Adaptation Test (ADT)
•Slow Toes Up (Down) Rotations- 8 degrees/sec
•Sequences of 5 Trials measure response time
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• Sway Energy Scores Higher During Initial Trials
Sway Energy Decreases Progressively With Repeated Rotations
Norm
al A
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Norm
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ADT: Adaptation TestADT: Adaptation TestADT: Adaptation TestADT: Adaptation Test
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Failu
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Possible Deficits- Mal Adaptation- Ankle Weakness
- ROM impairments
Problem Conditions- Irregular Surfaces
Possible Treatments- Rehabilitation
ADT: Adaptation TestADT: Adaptation TestADT: Adaptation TestADT: Adaptation Test
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Elderly Fallers: Fail Toes-Up AdaptationElderly Fallers: Fail Toes-Up AdaptationWhipple & Wolfson, Balance, 1990Whipple & Wolfson, Balance, 1990
• Age-Matched Age-Matched Groups of Fallers & Groups of Fallers & Non-Fallers Non-Fallers ComparedCompared
• Toes-Up Adaptation Toes-Up Adaptation Failure Significantly Failure Significantly Higher in Faller Higher in Faller GroupGroup
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Posture Evoked Responses
• EMG from:
Gastrocnemius Tibialis anterior
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PERs
Short Latency approx 30 msMonosynaptic stretch reflex
Mid Latency approx 73 msPolysynaptic segmental reflex
Long Latency approx 104 msPostural response – possibly automatic?