Prosthesis User Clinical Trial
Official title:
Biomechanical Assessment of Gait in Lower-Extremity-Amputees
This study is investigating the influence of several simulated real life conditions on the
symmetry of gait with trans-tibial prostheses
Hypotheses: It is hypothesized that the observable differences in gait pattern between
amputees can be detected by a combination of forces and moments that are measured internally
in the prosthesis, and electromyography data. It is further hypothesized that changing
conditions such as uneven walking surface, prosthetic misalignment or user fatigue are
characterized by typical values in the measured data or combinations thereof.
In amputee walking, an optimal static alignment of the artificial leg is important in order
to achieve the best possible performance. Comfort, energy expenditure, mobility and walking
speed should ideally be similar to those of able bodied persons. Of course, amputation
level, overall health status and other factors often pose certain individual limitations
that may prevent an amputee from reaching this goal.
Irrespective of that, the artificial leg must be aligned properly to eliminate unnecessary
inhibitions. Apart from manufacturing a well fitting socket, and selecting the appropriate
functional components of the prosthesis, the prosthetist has to routinely optimize the
static alignment during the fitting process. Hereby, objective measures and guidelines are
scarce. Despite various more or less useful tools that are available, the alignment
optimization in praxis is often based on subjective gait assessment and rules of thumb.
Commonly accepted is the notion, that the gait pattern should be most symmetrically, that is
step lengths, stance times, knee angles etc. should be identical between sound and
prosthetic leg.
There are different questions that our study wants to address: Is gait symmetry indeed a
valid measure of prosthetic performance (e.i. is it the most energy efficient way to walk)?
How does the gait pattern change when the prosthesis user walks on different surfaces,
becomes tired or tries to compensate for a less-than-optimal prosthesis fit? How can gait
symmetry be objectively assessed without using an expensive motion analysis laboratory? We
hope that our findings will provide practically useful information that can help improve
prosthetic fittings in the field.
The study will be based on data from up to 15 trans-tibial prosthesis users. Participants
will walk with their standard prosthesis, which will be equipped with a small sensor unit
for the measurement of forces and moments during walking. The muscle activity of the thigh
muscles will be measured using surface EMG sensors. All of the data collection will take
place at the USR facilities (115 E Reindl Way, Milwaukee), where a multi camera motion
analysis system is set up. Trials will require an overall time commitment of 5 hours at
most, and will include normal walking, walking on carpet and gravel, walking up and down
stairs, walking with fatigued thigh muscles.
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Intervention Model: Single Group Assignment, Masking: Open Label
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