Adaptive Recalibration of Prosthetic Leg Neural Control System



Status:Recruiting
Healthy:No
Age Range:18 - 80
Updated:9/7/2018
Start Date:January 2015
End Date:January 2019
Contact:Levi Hargrove, PhD
Email:l-hargrove@northwestern.edu
Phone:312-238-2084

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The purpose of this study is for transfemoral amputees to walk with an experimental robotic
prosthesis. Electric signals will be measured from their muscles and used to help control an
artificial leg. The investigators will record from sensors placed on a prosthesis and
electric signals measured from muscles in the participants leg to see if the investigators
can develop better computer programs to help predict subject actions and prostheses function.

The investigators propose to use a powered knee-ankle prosthesis that is not yet commercially
available. The hierarchical control framework the investigators are developing will be
equally applicable to any prosthetic leg that needs to be transitioned between ambulation
modes, including microprocessor-controlled passive devices.

The overall objective is to develop and evaluate an adaptive framework for controlling lower
limb prostheses that compensates for changes in EMG signals. When a participant walks on a
lower limb prosthesis, the output of the high-level controller (or ambulation mode predictor)
directly influences patterns generated by the participant. After the participant has
completed the subsequent stride, a gait pattern estimator (GPE), will provide a label of what
the participant actually did. This may differ from the ambulation mode predictor output if
there was a misclassification. The label will then be used to update the ambulation mode
predictor algorithm such that future steps are predicted with higher accuracies. Finally, the
resulting system will be transferred to an embedded system and tested in real-time with
transfemoral amputees and compared to a non-adaptive system.

Amputee Subjects

Inclusion Criteria:

- Lower Limb Amputees

- K2/K3/K4 ambulators

Exclusion Criteria:

- Over 250lbs body weight

- Inactive, physically unfit

- cognitive deficits or visual impairment that would impair their ability to give
informed consent or to follow simple instructions during the experiments

- Pregnant women

- co-morbidity that interferes with the study (e.g. stroke, pace maker placement, severe
ischemia cardiac disease, etc.)

Able-bodied Subjects:

Inclusion Criteria:

- no injury on either lower extremity

Exclusion Criteria:

- inactive, physically unfit

- over 250 lbs body weight

- cognitive deficits or visual impairment that would impair their ability to give
informed consent or impair their ability to follow simple instructions during the
experiments

- Pregnant women (status determined by self-reporting)

- co-morbidity that interferes with the study (e.g. stroke, pace maker placement, severe
ischemia cardiac disease, etc.)
We found this trial at
1
site
345 E Superior St
Chicago, Illinois 60611
(312) 238-1000
Phone: 312-238-0937
Rehabilitation Institute of Chicago The Rehabilitation Institute of Chicago (RIC) is an independent, 501(c)3, non-profit...
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from
Chicago, IL
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