The purpose of this study is to increase clinical knowledge of the relationship between increased plantar sensory information and orthotics in a Parkinsonian gait. The objectives of this study are to determine if orthotics, with and without a textured top cover, can alter muscle activation, gait parameters, balance, functional mobility, and decrease fall risks in Parkinson's participants.
The purpose of this study is to increase clinical knowledge of the relationship between increased plantar sensory information and orthotics in a Parkinsonian gait. Observing gait parameters and muscle activation changes, in orthotics with and without a textured top cover, provides an increased understanding of conservative treatment options available to the Parkinson's population. It is hypothesized that balance and functional mobility in Parkinson's Disease (PD) patients will increase, while decreasing fall risks, when wearing both types of orthotics. Larger improvements are expected with the orthotics with a textured top cover, thus increasing plantar sensory feedback. Male and female participants, aged 55-75, with a diagnosis of idiopathic Parkinson's disease can participate in the study. Two types of orthotic design will be examined: 1) Customizable over-the-counter orthotics and 2) Customizable over-the-counter orthotics with a textured top cover. Five different assessments will be performed during three different testing sessions: 1) baseline testing; 2) 6-weeks post-baseline; and 3) 12-weeks post-baseline. The administered assessments include: 1) Static balance, double limb stance; 2) The Berg Balance Scale (BBS); 3) Timed Up and Go (TUG), 4) Functional Gait Assessment (FGA); and 5) Walking task.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
20
The sole thin sport orthotic will be heat moulded to participants footwear. A top cover will be used of similar cushioning thickness and durometer properties as the orthotics+texture intervention.
The sole thin sport orthotic will be heat moulded to participants footwear. A textured material will be used as the orthotic top cover in this intervention.
Wilfrid Laurier University
Waterloo, Ontario, Canada
Change in Postural Sway during Static Stance
Static balance will be measured by the amount of postural sway in both the medio-lateral (ML) and antero-posterior (AP) directions. Participants will be asked to stand, without movement, on the pressure platform for 2 minutes. The force platform will measure the amount of spatio-temporal firing patterns from the sensory afferents in the plantar surface of participant's feet. Secondly, the IRED markers placed on participants clothing, will measure the center of mass (COM) changes in relation to the base of support (BOS). An improvement in the location of the COM in relation to the BOS suggests an improvement in balance, resulting from increased cutaneous sensation from the textured material.
Time frame: 6 weeks and 12 weeks post-baseline
Change in Dynamic Balance, using the Berg Balance Scale, Timed Up and Go, and the Functional Gait Assessment
Improvements in dynamic balance and postural stability will be defined by score improvements on the BBS, TUG, and FGA assessments. Furthermore, plantar pressure changes will be recorded during the walking task to determine if simple changes in top cover design can alter the cutaneous information from the plantar surface of the foot. Observations will be made of the plantar pressure distribution changes between the orthotic, with and without a textured top cover, in comparison to participants walking patterns with footwear alone.
Time frame: 6 weeks and 12 weeks post-baseline
Change in Plantar Pressure Distribution
Force platform data will detail participant's plantar pressure distribution. Changes in plantar pressures will be recorded at 6-weeks and 12-weeks post-baseline. Pressure patterns can visually demonstrate the precise location of pressure changes on the plantar sole of the foot. Secondly, peak forces and increased load can be isolated to specific areas of the plantar sole of the foot, in relation to the total stance phase of the gait cycle (heel strike, midstance, forefoot load, and toe-off).
Time frame: 6 weeks and 12 weeks post-baseline
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Change in Stride Length
Force platform data will be recorded for each participant. The anterior-posterior displacement of the ankle markers will be used to determine stride length, defined as the distance between heel strikes of the same limb.
Time frame: 6 weeks and 12 weeks post-baseline
Change in Stride Width
Force platform data will be recorded for each participant. Platform data and marker placement on participants will determine stride width, also known as base of gait, which is defined as the lateral distance between midlines of each foot.
Time frame: 6 weeks and 12 weeks post-baseline
Change in Single Limb Support Time
Force platform data will be recorded for each participant. Single limb support time is the duration of weight bearing, when only 1 limb is on contact with the ground. The force platform will record the duration of time a participant spends weight bearing on each limb.
Time frame: 6 weeks and 12 weeks post-baseline
Change in Walking Velocity
Walking velocity, or speed of gait, will be recoded by the force platform data.
Time frame: 6 weeks and 12 weeks post-baseline
Change in Electromyography (EMG) Activity
Muscle activity will be measured through EMG recordings of the tibialis anterior, peroneus longus, and gastrochnemius musculature. Secondly, changes in muscle activity will be observed in the orthotics alone compared to the textured top cover condition. The study will evaluate if the length, timing, and magnitude of the tibialis anterior, peroneus longus, and gastrochnemius properties altered with the use of orthotics, with and without a textured top cover, compared to footwear alone. EMG data analysis will be isolated to the stance phase of gait for each of the three muscles. The time of muscle onset and offset will be recorded within the stance phase. This will determine the location and total percentage of the stance phase each muscle activity occupied. The length of activation, the muscle's specific start and stop time of activation, and magnitude of activation will be recorded.
Time frame: 6 weeks and 12 weeks post-baseline