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| ID | Type | Description | Link |
|---|---|---|---|
| P30AG048785 | U.S. NIH Grant/Contract | View source |
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| Name | Class |
|---|---|
| University of New England | OTHER |
| National Institute on Aging (NIA) | NIH |
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Regular, habitual exercise is a critical component of the long-term management of Parkinson disease (PD). However, PD-specific motor (e.g. slow and diminished movements, variable step timing) and non-motor (e.g. depression, apathy) problems collectively hinder physical activity. Rhythmic auditory stimulation (RAS) is a rehabilitation technique that employs coupling of auditory cues with movement. Walking with RAS has been shown to benefit walking rhythmicity, quality, and speed. These walking benefits make RAS advantageous in promoting moderate intensity walking activity -- an important health-objective in the management of PD. However, the therapeutic potential of RAS in self-directed walking programs has not been examined. In this pilot, we will utilize a breakthrough digital therapeutic that delivers music-adaptive RAS to alleviate PD-specific problems by regulating stepping patterns. Using music as a substrate for cue delivery, this digital therapeutic leverages gait benefits from RAS along with enjoyment of music listening, thus making it a viable and engaging modality that will yield habits of regular walking. Habits are automatically recurring psychological dispositions that emerge from repeated behaviors. The investigators posit that music cues provide recurring contextual cues that automatically evoke habitual response of exercise, thus has the potential to prompt regular physical activity. This study will enroll 61individuals with mild-to-moderate PD (Run-in: 17; Main Trial: 44). The experimental intervention, "Amped-PD", is a 6-week, user-managed community-based walking program that utilizes music-adaptive RAS that progressively increases walking intensities. This study will examine if Amped-PD (Experimental Intervention) is more effective than a standard-of-care walking program (Active-Control Intervention) in improving physical activity based on moderate intensity walking, and in improving motor deficits related to quality of walking in individuals with mild-to-moderate PD. This study will also examine whether the resultant habits formed from each intervention matter in relation to training-related changes in physical activity.
Parkinson disease (PD) is the fastest growing source of disability among neurological disorders. Diminished physical activity is highly prevalent in PD and often lead to the onset of disability. Regular, habitual exercise is a critical component of the long-term PD management. However, PD-specific motor (e.g. slow and diminished movements, variable step timing) and non-motor (e.g. depression, apathy) problems collectively hinder physical activity. Rhythmic auditory stimulation (RAS) is a rehabilitation technique that employs the coupling of auditory cues with movement. When used during walking, RAS has been shown to benefit walking rhythmicity, quality, and speed. Therefore this rehabilitation technique can be advantageous in promoting moderate intensity walking activity. While clinical studies support RAS-based intervention, its translation to real-world, community-based environments and for long-term exercise for the promotion of physical activity is limited. The difference that determines viability of RAS for out-of-lab applications lie in the distinction between external entrainment (open-loop) versus autonomous entrainment (closed-loop). Open-loop RAS requires high levels of vigilance and is prone to error accumulation, which is problematic with gait dysfunction in PD. On the other hand, closed-loop RAS allows for natural and stable entrainment. A closed-loop approach in this case is a necessity of the task and a technological challenge to translate RAS to community-based settings. In this pilot, the investigators will utilize a breakthrough digital therapeutic that employs closed-loop RAS to alleviate PD-specific problems by regulating stepping patterns. Using music as a substrate for cue delivery, this digital therapeutic leverages gait benefits from RAS along with enjoyment of music listening, thus making it a viable and engaging modality that will yield habits of regular walking. The investigators posit that music that is linked to enjoyment serves as context cues that define the pre-condition to engaging in habitual walking exercise and increased physical activity. With repetition, these recurring contextual triggers (i.e. music) automatically evoke a habitual response of exercise, and thus has the potential to amplify physical activity.
The main aims of the study seek to examine if Amped-PD (Experimental Intervention) is more effective than a standard-of-care walking program (Active-Control Intervention) in improving physical activity based on moderate intensity walking (Aim 1), and in improving motor deficits related to quality of walking (Aim 2) in individuals with mild-to-moderate PD. Additionally, this study will examine whether habit formation mediates the relationship between the intervention (Amped-PD or Active-Control) and physical activity (Aim 3). The investigators hypothesize that Amped-PD will have greater improvements in amounts of moderate intensity walking and stride-to-stride variability based on stride length and swing time. Further, habit formation will be one mechanism that will explain the link between the intervention and physical activity. Secondary research aims will examine whether Amped-PD is more effective than Active-Control in improving motor and non-motor features based on short- and long-distance walking function, spatiotemporal measures of walking, step activity based on daily step counts, disease severity scores, quality of life, self-efficacy on walking, and depression.
This study will utilize the breakthrough digital music therapeutic developed and manufactured by MedRhythms (Portland, ME). To examine the effects of the intervention, the investigators will use clinical measures of motor and gait function, participant self-reports on habit formation, and quantified movement data on walking and physical activity using wearable sensors. This study will be implemented by carrying out the following study visits: (1) Primary screen over the phone, (2) Clinical Screening and Baseline Assessment, (3) Community-based, self-directed walking program (6 weeks), (3) Post-training Assessment; (4) Follow-up training (2 weeks), and (5) Final Follow-Up Assessment. Altogether, these procedures may take up to 10 weeks.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Amped-PD | Experimental | 6-week community-based, self-directed walking program that uses a novel digital therapeutic that delivers music-adaptive rhythmic auditory stimulation. |
|
| Active-Control | Active Comparator | 6-week community-based, self-directed walking program without using a novel digital therapeutic or any form of rhythmic auditory stimulation. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Digital music therapeutic | Device | The digital music therapeutic is comprised of foot sensors, a smart phone with pre-installed proprietary software application, and headphones. The device obtains real-time walking data through movement sensors that communicate wirelessly with the smartphone application software. Music cues are tailored to the person's walking pattern, and are transmitted wirelessly to the headphones. Music cues are time-shifted to the user's baseline cadence and adjusted in real-time based on the user's walking performance metrics. |
| Measure | Description | Time Frame |
|---|---|---|
| Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Baseline |
| Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | During training up to 4 days from start of training |
| Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Immediately after the intervention (up to 6 weeks) |
| Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Follow-up (up to 2 weeks post-intervention) |
| Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. |
| Measure | Description | Time Frame |
|---|---|---|
| 10-Meter Walk Test (10MWT) - Comfortable Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at comfortable walking speed (CWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Baseline |
| 10-Meter Walk Test (10MWT) - Comfortable Walking Speed |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Franchino Porciuncula, PT, EdD | Boston University | Principal Investigator |
| Terry D. Ellis, PT, PhD | Boston University | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Center for Neurorehabilitation at Boston University | Boston | Massachusetts | 02215 | United States |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 25858971 | Background | Cavanaugh JT, Ellis TD, Earhart GM, Ford MP, Foreman KB, Dibble LE. Toward Understanding Ambulatory Activity Decline in Parkinson Disease. Phys Ther. 2015 Aug;95(8):1142-50. doi: 10.2522/ptj.20140498. Epub 2015 Apr 9. | |
| 26876037 | Background | Ellis TD, Cavanaugh JT, Earhart GM, Ford MP, Foreman KB, Thackeray A, Thiese MS, Dibble LE. Identifying clinical measures that most accurately reflect the progression of disability in Parkinson disease. Parkinsonism Relat Disord. 2016 Apr;25:65-71. doi: 10.1016/j.parkreldis.2016.02.006. Epub 2016 Feb 2. |
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| ID | Title | Description |
|---|---|---|
| FG000 | Amped-PD | 6-week community-based, self-directed walking program that uses a novel digital therapeutic that delivers music-adaptive rhythmic auditory stimulation. Digital music therapeutic: The digital music therapeutic is comprised of foot sensors, a smart phone with pre-installed proprietary software application, and headphones. The device obtains real-time walking data through movement sensors that communicate wirelessly with the smartphone application software. Music cues are tailored to the person's walking pattern, and are transmitted wirelessly to the headphones. Music cues are time-shifted to the user's baseline cadence and adjusted in real-time based on the user's walking performance metrics. |
| FG001 | Active-Control | 6-week community-based, self-directed walking program without using a novel digital therapeutic or any form of rhythmic auditory stimulation. Active-Control: The Active-Control intervention will implement a similarly structured community-based walking program as Amped-PD, with the only exception the digital music therapeutic. |
| Title | Milestones | Reasons Not Completed | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Overall Study |
|
Participant baseline was based on completer analysis.
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| ID | Title | Description |
|---|---|---|
| BG000 | Amped-PD | 6-week community-based, self-directed walking program that uses a novel digital therapeutic that delivers music-adaptive rhythmic auditory stimulation. Digital music therapeutic: The digital music therapeutic is comprised of foot sensors, a smart phone with pre-installed proprietary software application, and headphones. The device obtains real-time walking data through movement sensors that communicate wirelessly with the smartphone application software. Music cues are tailored to the person's walking pattern, and are transmitted wirelessly to the headphones. Music cues are time-shifted to the user's baseline cadence and adjusted in real-time based on the user's walking performance metrics. |
| Units | Counts |
|---|---|
| Participants |
|
| Title | Description | Population Description | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Denominator Units Selected | Denominators | Classes |
|---|---|---|---|---|---|---|---|---|---|
| Age, Continuous | Mean |
| Type | Title | Description | Population Description | Reporting Status | Anticipated Posting Date | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Time Frame | Units Analyzed | Denominator Units Selected | Arm/Group Information | Denominators | Classes | Analyses | |||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Primary | Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | minutes of moderate intensity walking | Baseline |
|
8 weeks (includes 6-week intervention and 2-week follow-up)
The 6-week walking program received by both intervention arms incurs negligible risk for all-cause mortality.
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| ID | Title | Description | Deaths (Affected) | Deaths (At Risk) | Serious Events (Affected) | Serious Events (At Risk) | Other Events (Affected) | Other Events (At Risk) |
|---|---|---|---|---|---|---|---|---|
| EG000 | Amped-PD | 6-week community-based, self-directed walking program that uses a novel digital therapeutic that delivers music-adaptive rhythmic auditory stimulation. Digital music therapeutic: The digital music therapeutic is comprised of foot sensors, a smart phone with pre-installed proprietary software application, and headphones. The device obtains real-time walking data through movement sensors that communicate wirelessly with the smartphone application software. Music cues are tailored to the person's walking pattern, and are transmitted wirelessly to the headphones. Music cues are time-shifted to the user's baseline cadence and adjusted in real-time based on the user's walking performance metrics. |
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| Term | Organ System | Source Vocabulary | Assessment Type | Notes | Statistical Information |
|---|---|---|---|---|---|
| Fall (unrelated) | Nervous system disorders | Systematic Assessment | An unrelated fall is an unexpected, unplanned contact with a supporting surface that occurred outside of the walking program. |
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| Title | Organization | Phone | Extension | |
|---|---|---|---|---|
| Franchino Porciuncula, EdD, PT, DScPT | Boston University | (617) 353-7525 | fporciun@bu.edu |
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| Type | Includes Protocol | Includes SAP | Includes ICF | Document Label | Document Date | Document Uploaded Date | Document File Name |
|---|---|---|---|---|---|---|---|
| Prot | Yes | No | No | Study Protocol | Jul 12, 2022 | May 14, 2025 | Prot_004.pdf |
| SAP | No | Yes | No | Statistical Analysis Plan | Jul 12, 2022 | May 14, 2025 | SAP_005.pdf |
| ICF | No | No | Yes | Informed Consent Form | Aug 10, 2024 | Feb 24, 2025 | ICF_003.pdf |
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| ID | Term |
|---|---|
| D010300 | Parkinson Disease |
| D006184 | Habits |
| D009043 | Motor Activity |
| ID | Term |
|---|---|
| D020734 | Parkinsonian Disorders |
| D001480 | Basal Ganglia Diseases |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
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Participants are randomly assigned to either intervention of (1) Amped-PD, or (2) Active-Control.
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|
|
| Active-Control | Behavioral | The Active-Control intervention will implement a similarly structured community-based walking program as Amped-PD, with the only exception the digital music therapeutic. |
|
| Baseline |
| Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | During training up to 4 days from start of training |
| Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Immediately after the intervention (up to 6 weeks) |
| Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Gait Quality Based on Variability of Stride Time | Stride-to-stride variability of stride time of the gait cycle will be measured using wearable sensors. Stride time variability is calculated by dividing the standard deviation of stride time by the mean of stride time, multiplied by 100 to express as percentage. Worse gait quality is indicated by higher stride time variability, while improved gait quality is indicated by lower stride time variability. | Baseline |
| Gait Quality Based on Variability of Stride Time | Stride-to-stride variability of stride time of the gait cycle will be measured using wearable sensors. Stride time variability is calculated by dividing the standard deviation of stride time by the mean of stride time, multiplied by 100 to express as percentage. Worse gait quality is indicated by higher stride time variability, while improved gait quality is indicated by lower stride time variability. | Immediately after the intervention (up to 6 weeks) |
| Gait Quality Based on Variability of Stride Time | Stride-to-stride variability of stride time of the gait cycle will be measured using wearable sensors. Stride time variability is calculated by dividing the standard deviation of stride time by the mean of stride time, multiplied by 100 to express as percentage. Worse gait quality is indicated by higher stride time variability, while improved gait quality is indicated by lower stride time variability. | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Self-Report Habit Index (SRHI) | The Self-Report Habit Index (SRHI) will be used to assess habit formation. This index is a patient-reported outcome that examines habit strength. This self-report index comprises of 12 statements with constructs spanning behavior repetition, automaticity, and identity, with responses made on 11-point Likert scales (0 = strongly disagree; 10 = strongly agree). Higher scores indicate stronger habit formation (min = 0, max = 100). | Baseline |
| Self-Report Habit Index (SRHI) | The Self-Report Habit Index (SRHI) will be used to assess habit formation. This index is a patient-reported outcome that examines habit strength. This self-report index comprises of 12 statements with constructs spanning behavior repetition, automaticity, and identity, with responses made on 11-point Likert scales (0 = strongly disagree; 10 = strongly agree). Higher scores indicate stronger habit formation (min = 0, max = 100). | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
This is a test of short-distance walking function. The participant will be asked to walk at comfortable walking speed (CWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. |
| Immediately after the intervention (up to 6 weeks) |
| 10-Meter Walk Test (10MWT) - Comfortable Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at comfortable walking speed (CWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| 10-Meter Walk Test (10MWT) - Maximum Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at maximum walking speed (MWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Baseline |
| 10-Meter Walk Test (10MWT) - Maximum Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at maximum walking speed (MWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Immediately after the intervention (up to 6 weeks) |
| 10-Meter Walk Test (10MWT) - Maximum Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at maximum walking speed (MWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| 6-Minute Walk Test (6MWT) | This is test of long-distance walking function. The participant will be asked to "cover as much distance as they safely can" for 6 minutes, and total distance is the main metric from this test. | Baseline |
| 6-Minute Walk Test (6MWT) | This is test of long-distance walking function. The participant will be asked to "cover as much distance as they safely can" for 6 minutes, and total distance is the main metric from this test. | Immediately after the intervention (up to 6 weeks) |
| 6-Minute Walk Test (6MWT) | This is test of long-distance walking function. The participant will be asked to "cover as much distance as they safely can" for 6 minutes, and total distance is the main metric from this test. | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Gait Velocity During In-clinic Walking | Quantified metrics of walking velocity (m/s) will be collected using wearable sensors. | Baseline |
| Gait Velocity During In-clinic Walking | Quantified metrics of walking velocity (m/s) will be collected using wearable sensors. | Immediately after the intervention (up to 6 weeks) |
| Gait Velocity During In-clinic Walking | Quantified metrics of walking velocity (m/s) will be collected using wearable sensors. | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Stride Length During In-clinic Walking | Quantified metrics of stride length (m) will be collected using wearable sensors. | Baseline |
| Stride Length During In-clinic Walking | Quantified metrics of stride length (m) will be collected using wearable sensors. | Immediately after the intervention (up to 6 weeks) |
| Stride Length During In-clinic Walking | Quantified metrics of stride length (m) will be collected using wearable sensors. | Follow-up (up to 2 weeks post-intervention) |
| Movement Disorder Society Unified Parkinson Disease Rating Scale Motor Subsection (MDS-UPDRS III) | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Baseline |
| Movement Disorder Society Unified Parkinson Disease Rating Scale Motor Subsection (MDS-UPDRS III) | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Immediately after the intervention (up to 6 weeks) |
| Movement Disorder Society Unified Parkinson Disease Rating Scale Motor Subsection (MDS-UPDRS III) | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Self-Efficacy of Walking - Duration (SEW-D) | The SEW-D is a 10-item self-report that will be administered to determine participants' beliefs of their physical capabilities to successfully complete incremental 5-minute intervals (5 to 40 minutes) of walking at a moderately fast pace, with responses made on 11-point Likert scale (0% = not at all confident; 100% = highly confident). | Baseline |
| Self-Efficacy of Walking - Duration (SEW-D) | The SEW-D is a 10-item self-report that will be administered to determine participants' beliefs of their physical capabilities to successfully complete incremental 5-minute intervals (5 to 40 minutes) of walking at a moderately fast pace, with responses made on 11-point Likert scale (0% = not at all confident; 100% = highly confident). | Immediately after the intervention (up to 6 weeks) |
| Self-Efficacy of Walking - Duration (SEW-D) | The SEW-D is a 10-item self-report that will be administered to determine participants' beliefs of their physical capabilities to successfully complete incremental 5-minute intervals (5 to 40 minutes) of walking at a moderately fast pace, with responses made on 11-point Likert scale (0% = not at all confident; 100% = highly confident). | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Geriatric Depression Scale (GDS) | The GDS is a brief, self-report involving yes/no questions instrument on psychological aspects and social consequences of depression in the elderly. The short form of GDS of 15-items will be used in this study. Higher scores indicate greater depression (min = 0, max = 15). | Baseline |
| Geriatric Depression Scale (GDS) | The GDS is a brief, self-report involving yes/no questions instrument on psychological aspects and social consequences of depression in the elderly. The short form of GDS of 15-items will be used in this study. Higher scores indicate greater depression (min = 0, max = 15). | Immediately after the intervention (up to 6 weeks) |
| Geriatric Depression Scale (GDS) | The GDS is a brief, self-report involving yes/no questions instrument on psychological aspects and social consequences of depression in the elderly. The short form of GDS of 15-items will be used in this study. Higher scores indicate greater depression (min = 0, max = 15). | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Parkinson's Disease Questionnaire - 39 (PDQ-39) | The PDQ- 39 is a self-report questionnaire that assesses quality of life over the past month across 8 different dimensions. Items are scored based on a 5-point ordinal system with lower scores reflecting better quality of life. Lower scores reflect better quality of life (min = 0, max = 100). | Baseline |
| Parkinson's Disease Questionnaire - 39 (PDQ-39) | The PDQ- 39 is a self-report questionnaire that assesses quality of life over the past month across 8 different dimensions. Items are scored based on a 5-point ordinal system with lower scores reflecting better quality of life. Lower scores reflect better quality of life (min = 0, max = 100). | Immediately after the intervention (up to 6 weeks) |
| Parkinson's Disease Questionnaire - 39 (PDQ-39) | The PDQ- 39 is a self-report questionnaire that assesses quality of life over the past month across 8 different dimensions. Items are scored based on a 5-point ordinal system with lower scores reflecting better quality of life. Lower scores reflect better quality of life (min = 0, max = 100). | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| Mini Balance Evaluation Systems Test (Mini BESTest) | This test comprises of 14 items that span anticipatory postural adjustments, reactive postural control, sensory orientation, and dynamic gait. Each item is scored from 0-2 (0 = lowest level of function, 2 = highest level of function). The total score is reported, calculated as the sum of all items, with possible scores of 0 (lowest level of balance function) and a maximum score of 28 (highest level of balance function). | Baseline |
| Mini Balance Evaluation Systems Test (Mini BESTest) | This test comprises of 14 items that span anticipatory postural adjustments, reactive postural control, sensory orientation, and dynamic gait. Each item is scored from 0-2 (0 = lowest level of function, 2 = highest level of function). The total score is reported, calculated as the sum of all items, with possible scores of 0 (lowest level of balance function) and a maximum score of 28 (highest level of balance function). | Immediately after the intervention (up to 6 weeks) |
| Mini Balance Evaluation Systems Test (Mini BESTest) | This test comprises of 14 items that span anticipatory postural adjustments, reactive postural control, sensory orientation, and dynamic gait. Each item is scored from 0-2 (0 = lowest level of function, 2 = highest level of function). The total score is reported, calculated as the sum of all items, with possible scores of 0 (lowest level of balance function) and a maximum score of 28 (highest level of balance function). | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
| 24012774 | Background | Nombela C, Hughes LE, Owen AM, Grahn JA. Into the groove: can rhythm influence Parkinson's disease? Neurosci Biobehav Rev. 2013 Dec;37(10 Pt 2):2564-70. doi: 10.1016/j.neubiorev.2013.08.003. Epub 2013 Sep 3. |
| 8684391 | Background | Thaut MH, McIntosh GC, Rice RR, Miller RA, Rathbun J, Brault JM. Rhythmic auditory stimulation in gait training for Parkinson's disease patients. Mov Disord. 1996 Mar;11(2):193-200. doi: 10.1002/mds.870110213. |
| 33040685 | Background | Hutchinson K, Sloutsky R, Collimore A, Adams B, Harris B, Ellis TD, Awad LN. A Music-Based Digital Therapeutic: Proof-of-Concept Automation of a Progressive and Individualized Rhythm-Based Walking Training Program After Stroke. Neurorehabil Neural Repair. 2020 Nov;34(11):986-996. doi: 10.1177/1545968320961114. Epub 2020 Oct 10. |
| 25207647 | Background | Gardner B. A review and analysis of the use of 'habit' in understanding, predicting and influencing health-related behaviour. Health Psychol Rev. 2015;9(3):277-95. doi: 10.1080/17437199.2013.876238. Epub 2014 Jan 21. |
| 25643222 | Background | Galla BM, Duckworth AL. More than resisting temptation: Beneficial habits mediate the relationship between self-control and positive life outcomes. J Pers Soc Psychol. 2015 Sep;109(3):508-25. doi: 10.1037/pspp0000026. Epub 2015 Feb 2. |
| 32083083 | Background | Wittwer JE, Winbolt M, Morris ME. Home-Based Gait Training Using Rhythmic Auditory Cues in Alzheimer's Disease: Feasibility and Outcomes. Front Med (Lausanne). 2020 Jan 31;6:335. doi: 10.3389/fmed.2019.00335. eCollection 2019. |
| 32255504 | Background | Jeng B, Cederberg KL, Lai B, Sasaki JE, Bamman MM, Motl RW. Step-rate threshold for physical activity intensity in Parkinson's disease. Acta Neurol Scand. 2020 Aug;142(2):145-150. doi: 10.1111/ane.13250. Epub 2020 Apr 22. |
| 21798044 | Background | Tudor-Locke C, Craig CL, Aoyagi Y, Bell RC, Croteau KA, De Bourdeaudhuij I, Ewald B, Gardner AW, Hatano Y, Lutes LD, Matsudo SM, Ramirez-Marrero FA, Rogers LQ, Rowe DA, Schmidt MD, Tully MA, Blair SN. How many steps/day are enough? For older adults and special populations. Int J Behav Nutr Phys Act. 2011 Jul 28;8:80. doi: 10.1186/1479-5868-8-80. |
| 40438970 | Derived | Cavanaugh JT, Porciuncula F, Zajac JA, Baker T, Wendel N, Awad LN, Ellis TD. Gait Responses in People with Parkinson Disease During Autonomous Closed-loop Rhythmic Auditory Stimulation: An Exploratory Analysis. Neurorehabil Neural Repair. 2025 Aug;39(8):666-676. doi: 10.1177/15459683251340910. Epub 2025 May 29. |
| 40301366 | Derived | Porciuncula F, Cavanaugh JT, Zajac J, Wendel N, Baker T, Arumukhom Revi D, Eklund N, Holmes MB, Awad LN, Ellis TD. Amplifying walking activity in Parkinson's disease through autonomous music-based rhythmic auditory stimulation: randomized controlled trial. NPJ Parkinsons Dis. 2025 Apr 29;11(1):100. doi: 10.1038/s41531-025-00952-x. |
| BG001 | Active-Control | 6-week community-based, self-directed walking program without using a novel digital therapeutic or any form of rhythmic auditory stimulation. Active-Control: The Active-Control intervention will implement a similarly structured community-based walking program as Amped-PD, with the only exception the digital music therapeutic. |
| BG002 | Total | Total of all reporting groups |
| years |
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| Sex: Female, Male | Count of Participants | Participants |
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| Race (NIH/OMB) | Count of Participants | Participants |
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| Region of Enrollment | Number | participants |
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| Unified Parkinson's Disease Rating Scale Part III Score | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Mean | Standard Deviation | Points |
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| OG001 | Active-Control | 6-week community-based, self-directed walking program without using a novel digital therapeutic or any form of rhythmic auditory stimulation. Active-Control: The Active-Control intervention will implement a similarly structured community-based walking program as Amped-PD, with the only exception the digital music therapeutic. |
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| Primary | Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | minutes of moderate intensity walking | During training up to 4 days from start of training |
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| Primary | Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | minutes of moderate intensity walking | Immediately after the intervention (up to 6 weeks) |
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| Primary | Physical Activity Based on the Amount of Moderate Intensity Walking | The amount of moderate intensity walking, defined as mean number of minutes per day with >100 steps/min. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | minutes of moderate intensity walking | Follow-up (up to 2 weeks post-intervention) |
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| Primary | Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | steps | Baseline |
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| Primary | Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | steps | During training up to 4 days from start of training |
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| Primary | Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | steps | Immediately after the intervention (up to 6 weeks) |
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| Primary | Step Activity Based on Daily Step Counts | Daily step counts refer to the total number of steps taken on the leg with the monitor. This will be measured using research-grade activity monitors (StepWatch Activity Monitor, Modus Health, Edmonds, WA) validated for use in PD. | Posted | Mean | Standard Deviation | steps | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Primary | Gait Quality Based on Variability of Stride Time | Stride-to-stride variability of stride time of the gait cycle will be measured using wearable sensors. Stride time variability is calculated by dividing the standard deviation of stride time by the mean of stride time, multiplied by 100 to express as percentage. Worse gait quality is indicated by higher stride time variability, while improved gait quality is indicated by lower stride time variability. | Posted | Mean | Standard Deviation | %coefficient of variation | Baseline |
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| Primary | Gait Quality Based on Variability of Stride Time | Stride-to-stride variability of stride time of the gait cycle will be measured using wearable sensors. Stride time variability is calculated by dividing the standard deviation of stride time by the mean of stride time, multiplied by 100 to express as percentage. Worse gait quality is indicated by higher stride time variability, while improved gait quality is indicated by lower stride time variability. | Posted | Mean | Standard Deviation | %coefficient of variation | Immediately after the intervention (up to 6 weeks) |
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| Primary | Gait Quality Based on Variability of Stride Time | Stride-to-stride variability of stride time of the gait cycle will be measured using wearable sensors. Stride time variability is calculated by dividing the standard deviation of stride time by the mean of stride time, multiplied by 100 to express as percentage. Worse gait quality is indicated by higher stride time variability, while improved gait quality is indicated by lower stride time variability. | Posted | Mean | Standard Deviation | %coefficient of variation | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Primary | Self-Report Habit Index (SRHI) | The Self-Report Habit Index (SRHI) will be used to assess habit formation. This index is a patient-reported outcome that examines habit strength. This self-report index comprises of 12 statements with constructs spanning behavior repetition, automaticity, and identity, with responses made on 11-point Likert scales (0 = strongly disagree; 10 = strongly agree). Higher scores indicate stronger habit formation (min = 0, max = 100). | Posted | Mean | Standard Deviation | percent (out of 100%) | Baseline |
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| Primary | Self-Report Habit Index (SRHI) | The Self-Report Habit Index (SRHI) will be used to assess habit formation. This index is a patient-reported outcome that examines habit strength. This self-report index comprises of 12 statements with constructs spanning behavior repetition, automaticity, and identity, with responses made on 11-point Likert scales (0 = strongly disagree; 10 = strongly agree). Higher scores indicate stronger habit formation (min = 0, max = 100). | Posted | Mean | Standard Deviation | percent (out of 100%) | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | 10-Meter Walk Test (10MWT) - Comfortable Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at comfortable walking speed (CWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Posted | Mean | Standard Deviation | m/s | Baseline |
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| Secondary | 10-Meter Walk Test (10MWT) - Comfortable Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at comfortable walking speed (CWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Posted | Mean | Standard Deviation | m/s | Immediately after the intervention (up to 6 weeks) |
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| Secondary | 10-Meter Walk Test (10MWT) - Comfortable Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at comfortable walking speed (CWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Posted | Mean | Standard Deviation | m/s | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | 10-Meter Walk Test (10MWT) - Maximum Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at maximum walking speed (MWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Posted | Mean | Standard Deviation | m/s | Baseline |
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| Secondary | 10-Meter Walk Test (10MWT) - Maximum Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at maximum walking speed (MWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Posted | Mean | Standard Deviation | m/s | Immediately after the intervention (up to 6 weeks) |
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| Secondary | 10-Meter Walk Test (10MWT) - Maximum Walking Speed | This is a test of short-distance walking function. The participant will be asked to walk at maximum walking speed (MWS) on a ten-meter straight walkway. Two trials will be administered, and the average of two trials will be reported. | Posted | Mean | Standard Deviation | m/s | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | 6-Minute Walk Test (6MWT) | This is test of long-distance walking function. The participant will be asked to "cover as much distance as they safely can" for 6 minutes, and total distance is the main metric from this test. | Posted | Mean | Standard Deviation | m | Baseline |
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| Secondary | 6-Minute Walk Test (6MWT) | This is test of long-distance walking function. The participant will be asked to "cover as much distance as they safely can" for 6 minutes, and total distance is the main metric from this test. | Posted | Mean | Standard Deviation | m | Immediately after the intervention (up to 6 weeks) |
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| Secondary | 6-Minute Walk Test (6MWT) | This is test of long-distance walking function. The participant will be asked to "cover as much distance as they safely can" for 6 minutes, and total distance is the main metric from this test. | Posted | Mean | Standard Deviation | m | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | Gait Velocity During In-clinic Walking | Quantified metrics of walking velocity (m/s) will be collected using wearable sensors. | Posted | Mean | Standard Deviation | m/s | Baseline |
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| Secondary | Gait Velocity During In-clinic Walking | Quantified metrics of walking velocity (m/s) will be collected using wearable sensors. | Posted | Mean | Standard Deviation | m/s | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Gait Velocity During In-clinic Walking | Quantified metrics of walking velocity (m/s) will be collected using wearable sensors. | Posted | Mean | Standard Deviation | m/s | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | Stride Length During In-clinic Walking | Quantified metrics of stride length (m) will be collected using wearable sensors. | Posted | Mean | Standard Deviation | m | Baseline |
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| Secondary | Stride Length During In-clinic Walking | Quantified metrics of stride length (m) will be collected using wearable sensors. | Posted | Mean | Standard Deviation | m | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Stride Length During In-clinic Walking | Quantified metrics of stride length (m) will be collected using wearable sensors. | Posted | Mean | Standard Deviation | m | Follow-up (up to 2 weeks post-intervention) |
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| Secondary | Movement Disorder Society Unified Parkinson Disease Rating Scale Motor Subsection (MDS-UPDRS III) | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Posted | Mean | Standard Deviation | points | Baseline |
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| Secondary | Movement Disorder Society Unified Parkinson Disease Rating Scale Motor Subsection (MDS-UPDRS III) | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Posted | Mean | Standard Deviation | points | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Movement Disorder Society Unified Parkinson Disease Rating Scale Motor Subsection (MDS-UPDRS III) | The MDS UPDRS is the most widely used clinical rating scale for Parkinson disease. Part III is a motor examination (33 scores summed from 18 questions) conducted by the rater. The total score is reported, which can range from 0 (no impairment) to 141 (maximum impairment). | Posted | Mean | Standard Deviation | points | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | Self-Efficacy of Walking - Duration (SEW-D) | The SEW-D is a 10-item self-report that will be administered to determine participants' beliefs of their physical capabilities to successfully complete incremental 5-minute intervals (5 to 40 minutes) of walking at a moderately fast pace, with responses made on 11-point Likert scale (0% = not at all confident; 100% = highly confident). | Posted | Mean | Standard Deviation | percent | Baseline |
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| Secondary | Self-Efficacy of Walking - Duration (SEW-D) | The SEW-D is a 10-item self-report that will be administered to determine participants' beliefs of their physical capabilities to successfully complete incremental 5-minute intervals (5 to 40 minutes) of walking at a moderately fast pace, with responses made on 11-point Likert scale (0% = not at all confident; 100% = highly confident). | Posted | Mean | Standard Deviation | percent | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Self-Efficacy of Walking - Duration (SEW-D) | The SEW-D is a 10-item self-report that will be administered to determine participants' beliefs of their physical capabilities to successfully complete incremental 5-minute intervals (5 to 40 minutes) of walking at a moderately fast pace, with responses made on 11-point Likert scale (0% = not at all confident; 100% = highly confident). | Posted | Mean | Standard Deviation | percent | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | Geriatric Depression Scale (GDS) | The GDS is a brief, self-report involving yes/no questions instrument on psychological aspects and social consequences of depression in the elderly. The short form of GDS of 15-items will be used in this study. Higher scores indicate greater depression (min = 0, max = 15). | Posted | Mean | Standard Deviation | points | Baseline |
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| Secondary | Geriatric Depression Scale (GDS) | The GDS is a brief, self-report involving yes/no questions instrument on psychological aspects and social consequences of depression in the elderly. The short form of GDS of 15-items will be used in this study. Higher scores indicate greater depression (min = 0, max = 15). | Posted | Mean | Standard Deviation | points | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Geriatric Depression Scale (GDS) | The GDS is a brief, self-report involving yes/no questions instrument on psychological aspects and social consequences of depression in the elderly. The short form of GDS of 15-items will be used in this study. Higher scores indicate greater depression (min = 0, max = 15). | Posted | Mean | Standard Deviation | points | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | Parkinson's Disease Questionnaire - 39 (PDQ-39) | The PDQ- 39 is a self-report questionnaire that assesses quality of life over the past month across 8 different dimensions. Items are scored based on a 5-point ordinal system with lower scores reflecting better quality of life. Lower scores reflect better quality of life (min = 0, max = 100). | Posted | Mean | Standard Deviation | points | Baseline |
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| Secondary | Parkinson's Disease Questionnaire - 39 (PDQ-39) | The PDQ- 39 is a self-report questionnaire that assesses quality of life over the past month across 8 different dimensions. Items are scored based on a 5-point ordinal system with lower scores reflecting better quality of life. Lower scores reflect better quality of life (min = 0, max = 100). | Posted | Mean | Standard Deviation | points | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Parkinson's Disease Questionnaire - 39 (PDQ-39) | The PDQ- 39 is a self-report questionnaire that assesses quality of life over the past month across 8 different dimensions. Items are scored based on a 5-point ordinal system with lower scores reflecting better quality of life. Lower scores reflect better quality of life (min = 0, max = 100). | Posted | Mean | Standard Deviation | points | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| Secondary | Mini Balance Evaluation Systems Test (Mini BESTest) | This test comprises of 14 items that span anticipatory postural adjustments, reactive postural control, sensory orientation, and dynamic gait. Each item is scored from 0-2 (0 = lowest level of function, 2 = highest level of function). The total score is reported, calculated as the sum of all items, with possible scores of 0 (lowest level of balance function) and a maximum score of 28 (highest level of balance function). | Posted | Mean | Standard Deviation | points | Baseline |
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| Secondary | Mini Balance Evaluation Systems Test (Mini BESTest) | This test comprises of 14 items that span anticipatory postural adjustments, reactive postural control, sensory orientation, and dynamic gait. Each item is scored from 0-2 (0 = lowest level of function, 2 = highest level of function). The total score is reported, calculated as the sum of all items, with possible scores of 0 (lowest level of balance function) and a maximum score of 28 (highest level of balance function). | Posted | Mean | Standard Deviation | points | Immediately after the intervention (up to 6 weeks) |
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| Secondary | Mini Balance Evaluation Systems Test (Mini BESTest) | This test comprises of 14 items that span anticipatory postural adjustments, reactive postural control, sensory orientation, and dynamic gait. Each item is scored from 0-2 (0 = lowest level of function, 2 = highest level of function). The total score is reported, calculated as the sum of all items, with possible scores of 0 (lowest level of balance function) and a maximum score of 28 (highest level of balance function). | Posted | Mean | Standard Deviation | points | Follow-up (up to 2 weeks post-intervention completion, and up to 8 weeks from baseline/start of intervention) |
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| 0 |
| 21 |
| 0 |
| 21 |
| 4 |
| 21 |
| EG001 | Active-Control | 6-week community-based, self-directed walking program without using a novel digital therapeutic or any form of rhythmic auditory stimulation. Active-Control: The Active-Control intervention will implement a similarly structured community-based walking program as Amped-PD, with the only exception the digital music therapeutic. | 0 | 20 | 0 | 20 | 6 | 20 |
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| Fall (related) | General disorders | Systematic Assessment | A program-related fall is an unexpected and/ or unanticipated contact with the support surface while performing the walking program. |
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| Toe pain | Musculoskeletal and connective tissue disorders | Systematic Assessment | Pain and soreness on toe, unrelated to the walking program. |
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| Surgery | Hepatobiliary disorders | Systematic Assessment | Surgery involving gall bladder |
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| Arm pain | Musculoskeletal and connective tissue disorders | Systematic Assessment | General and non-specific report of pain on arm, unrelated to the walking program. |
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| Covid-19 | Infections and infestations | Systematic Assessment | Covid-19 infection with mild respiratory symptoms |
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| Pneumonia | Infections and infestations | Systematic Assessment |
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Not provided
Not provided
Not provided
| D009422 | Nervous System Diseases |
| D009069 | Movement Disorders |
| D000080874 | Synucleinopathies |
| D019636 | Neurodegenerative Diseases |
| D001519 | Behavior |