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Trial registered on ANZCTR
Registration number
ACTRN12616000942459
Ethics application status
Approved
Date submitted
30/06/2016
Date registered
15/07/2016
Date last updated
23/05/2024
Date data sharing statement initially provided
2/02/2022
Type of registration
Prospectively registered
Titles & IDs
Public title
The effect of exercise on brain volume and function after stroke
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Scientific title
The effect of prescribed, home-based, cardiorespiratory fitness training intervention on brain volume and function after stroke
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Secondary ID [1]
289575
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None
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Universal Trial Number (UTN)
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Trial acronym
Post Ischaemic Stroke Cardiovascular Exercise Study - Zoom Delivered Intervention Against Cognitive Decline (PISCES-ZODIAC)
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Linked study record
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Health condition
Health condition(s) or problem(s) studied:
Stroke
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Dementia
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End-organ cerebrovascular disease
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Condition category
Condition code
Stroke
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0
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Ischaemic
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Neurological
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0
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Dementias
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Cardiovascular
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0
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Other cardiovascular diseases
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Intervention/exposure
Study type
Interventional
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Description of intervention(s) / exposure
Participants are randomly allocated into one of two fitness training intervention groups using a computer-generated schedule. At 2-month post-stroke, participants undertake their respective fitness training programs. The fitness training program occurs 3 times per week for a duration of 8 weeks. Each fitness training session involves 1 hour of activities. The two exposure groups are:
* Balance-Stretching Group: Warm up (5 mins), Balance activities (25 mins), Stretching activities (25 mins), Cool down (5 mins).
* Strength Training-Aerobic Exercise Group: Warm up (5 mins), Strength activities (10 mins), Aerobic activities (i.e., activities that will raise heart-rate and breathing = 30 mins), Cool down (5 mins).
The trial commenced on 26/05/2016 with exercise sessions being delivered face-to-face by an Exercise Physiologist or Physiotherapist (EP) at a time and location convenient for participants. 34 participants were recruited. Due to restrictions and health guidance enacted during the global pandemic, on 27/10/20 the sessions were pivoted to be delivered live, one-on-one by an EP via the video-conferencing platform Zoom from within the participants’ own homes.
The EP closely monitors participants to ensure they are safe to exercise. For safety purposes, and to support intervention fidelity, participants are trained in conducting their own safe-to-exercise measures. Heart Rate and Rate of Perceived Exertion are self-monitored by the participant and reported back to the EP in real time for recording during each exercise session.
The individual activities undertaken in each of the fitness training programmes will vary depending on each participant’s fitness level and will be progressed over the 8 weeks to match any improvements made. The programmes have been established in accordance with an international framework for prescribing safe and efficacious exercise interventions to chronic stroke populations.
Participants will be aware of their group allocation based on the fitness training programme they are administered. Investigators who are blind to participant group will conduct the pre- and post-fitness training intervention assessments.
To gauge activity levels outside of the intervention during the fitness training programs, all participants will be assessed via the Physical Activity Scale for the Elderly questionnaire at the start of each week of the intervention.
As reflected in the changes to the study title, the study now includes two independent components of the intervention delivery: face-to-face and telehealth. These components will be analysed and reported independently, with a potential pooling of the results through meta-analysis if appropriate.
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Intervention code [1]
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Treatment: Other
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Intervention code [2]
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Prevention
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Intervention code [3]
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Lifestyle
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Comparator / control treatment
A ‘Control’ group (i.e., No exercise) will not be directly sampled. This study has been designed to fit closely alongside the CANVAS trial timepoints (Trial ID: NCT02205424) so ‘Control’ information can be captured from the existing CANVAS database.
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Control group
Active
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Outcomes
Primary outcome [1]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 1. Whole brain volume and site-specific regional brain volume as measured via change in MRI brain scans.
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Assessment method [1]
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Timepoint [1]
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4-months post-stroke
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Secondary outcome [1]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 4. Changes in vascular burden using 3 end-organ effects: 4a) incident recurrent brain infarction (measured via clinical report and MRI), 4b) cardiac diastolic dysfunction, 4c) ambulatory blood pressure. 4b and 4c will be measured using a 24 hour ambulatory blood pressure and ECG recorder.
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Assessment method [1]
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Timepoint [1]
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2 months post-stroke (Baseline), 4 months post-stroke, and 12 months post-stroke.
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Secondary outcome [2]
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A sub-study nested within the greater protocol, will help understand the specific factors that influence participation in, or adherence to, post-stroke exercise regimens.
This will be assessed using a qualitative semi-structured interview.
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Assessment method [2]
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Timepoint [2]
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2 months post-stroke (Baseline), 4 months post-stroke, and 12 months post-stroke.
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Secondary outcome [3]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 3. levels of biomarkers as measured by blood pathology analysis: BDNF, HbA1c, IL-6, IL-1ß, TNF-a, IL-8, IL-10, and IL-1ra
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Assessment method [3]
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Timepoint [3]
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4-months and 12-months post-stroke
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Secondary outcome [4]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 4. levels of general fitness as measured by VO2 peak graded exercise test using a total body recumbent stepper
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Assessment method [4]
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Timepoint [4]
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2 months post-stroke (Baseline), 4 months post-stroke, and 12 months post-stroke.
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Secondary outcome [5]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 5. daily physical activity, energy expenditure and objective sleep activity as measured by the Actiwatch Spectrum Plus
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Assessment method [5]
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Timepoint [5]
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4-months and 12-months post-stroke
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Secondary outcome [6]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 6. diet. Participants complete a 3-day food diary across a one week time period and enter their food and drink consumed into the Research Food Diary app (Xyris Software)
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Assessment method [6]
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Timepoint [6]
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4-months and 12-months post-stroke
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Secondary outcome [7]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 7. gut microbiome. Microbial sequencing will take place on stool samples provided by participants.
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Assessment method [7]
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Timepoint [7]
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4-months and 12-months post-stroke
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Secondary outcome [8]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 1. Whole brain volume and site-specific regional brain volume as measured via MRI brain scans.
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Assessment method [8]
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Timepoint [8]
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12-months post-stroke
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Secondary outcome [9]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on changes in neurocognitive function and mood state as measured by a neuropsychological assessment battery.
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Assessment method [9]
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Timepoint [9]
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4-months and 12-months post-stroke
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Secondary outcome [10]
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To explore the feasibility of a home-based telehealth delivered cardiorespiratory fitness training intervention
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Assessment method [10]
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Timepoint [10]
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8-week intervention delivered between 2-months and 4-months post-stroke
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Secondary outcome [11]
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Impact of a prescribed 8-week cardiorespiratory fitness training intervention at 2-months after ischaemic stroke on: 2. Changes in neurocognitive function as measured via change in ADAS-Cog scores.
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Assessment method [11]
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Timepoint [11]
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12-months post-stroke
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Eligibility
Key inclusion criteria
- Ischaemic stroke (first or recurrent stroke);
- Able to attend 3 study sessions over 10 months;
- Motivation and willingness to participate in the study protocol;
- No prior neurological or psychiatric disease, including dementia;
- Can give informed consent and participate in cognitive testing.
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Minimum age
18
Years
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Maximum age
No limit
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Sex
Both males and females
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Can healthy volunteers participate?
No
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Key exclusion criteria
- No significant medical comorbidities (e.g., severe cardiac disease) and/or musculoskeletal injuries precluding participation in exercise intervention, or making survival for 1 year poststroke unlikely;
- Regular exclusion criteria for MRI (e.g., implanted metal, severe claustrophobia);
- Pre-existing dementia, or mRS >3.
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Study design
Purpose of the study
Treatment
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Allocation to intervention
Randomised controlled trial
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Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)
Central randomisation by computer.
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Methods used to generate the sequence in which subjects will be randomised (sequence generation)
At recruitment, participants will be randomly allocated into one of two exercise groups using a computer generated schedule with permuted blocks of various sizes. This will be part of the electronic case report form (ECRF) hosted at secure server at Monash University and compliant with Good Clinical Practice (GCP) guidelines for clinical trials. The randomisation will be stratified by baseline function (modified Rankin Scale score, grouped into mRS 0-1, 2 and 3).
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Masking / blinding
Blinded (masking used)
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Who is / are masked / blinded?
The people assessing the outcomes
The people analysing the results/data
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Intervention assignment
Parallel
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Other design features
While investigators conducting the exercise programme will be aware of participant group in order to prescribe and deliver the exercise intervention, only investigators who are blind to participant group will conduct cognitive/mood testing, MRI analysis, and cardiovascular testing.
All data will be analysed in a de-identified format.
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Phase
Not Applicable
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Type of endpoint/s
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Statistical methods / analysis
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Recruitment
Recruitment status
Active, not recruiting
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Date of first participant enrolment
Anticipated
1/09/2016
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Actual
11/01/2017
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Date of last participant enrolment
Anticipated
29/02/2024
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Actual
12/02/2024
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Date of last data collection
Anticipated
28/02/2025
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Actual
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Sample size
Target
154
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Accrual to date
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Final
109
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Recruitment in Australia
Recruitment state(s)
VIC
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Recruitment hospital [1]
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Austin Health - Austin Hospital - Heidelberg
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Recruitment hospital [2]
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Box Hill Hospital - Box Hill
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Recruitment hospital [3]
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Sunshine Hospital - St Albans
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Recruitment hospital [4]
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Epworth Rehabilitation Camberwell - Camberwell
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Recruitment postcode(s) [1]
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3084 - Heidelberg
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Recruitment postcode(s) [2]
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3128 - Box Hill
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Recruitment postcode(s) [3]
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3021 - St Albans
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Recruitment postcode(s) [4]
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3124 - Camberwell
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Funding & Sponsors
Funding source category [1]
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Charities/Societies/Foundations
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Name [1]
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Heart Foundation
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Address [1]
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12/500 Collins St
Melbourne
VIC
3000
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Country [1]
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Australia
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Funding source category [2]
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Government body
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Name [2]
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National Health and Medical Research Council
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Address [2]
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414 La Trobe St,
Melbourne VIC 3000
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Country [2]
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Australia
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Funding source category [3]
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Charities/Societies/Foundations
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Name [3]
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Stroke Foundation
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Address [3]
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Head Office
Level 7, 461 Bourke Street
Melbourne VIC 3000
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Country [3]
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Australia
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Primary sponsor type
Other
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Name
Monash University
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Address
Melbourne Brain Centre ,Austin Campus, 245 Burgundy Street,Heidelberg,VIC ,3084
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Country
Australia
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Secondary sponsor category [1]
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None
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Name [1]
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Address [1]
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Country [1]
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Ethics approval
Ethics application status
Approved
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Ethics committee name [1]
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Austin Health HREC
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Ethics committee address [1]
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Level 8 Harold Stokes Building Austin Health 145 Studley Road Heidelberg VIC 3084
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Ethics committee country [1]
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Australia
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Date submitted for ethics approval [1]
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31/03/2016
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Approval date [1]
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26/05/2016
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Ethics approval number [1]
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HREC/16/Austin/45
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Summary
Brief summary
There is a link between two major causes of death, disability, and reduced quality of life in our society: stroke and neurodegenerative dementia. We now understand patients who suffer stroke are more likely to experience a long-term decline in thinking ability and a reduction in brain volume. Exercise is a simple, yet effective, method of improving cardiovascular health. We will examine if exercise after stroke can modify risk factors that may lead to post-stroke brain atrophy and cognitive decline. The aim of this project is to determine whether home-based aerobic exercise has a positive impact on preserving brain volume and function, as well as general physical and psychological well-being. We hypothesise that participants who undertake prescribed aerobic exercise (i.e., exercise that increases heart rate and breathing) after a stroke will have preserved brain volume and neurocognitive performance, higher mood levels, and better end-organ disease well-being (i.e., less recurrent strokes, improved blood pressure, reduced cardiovascular disease) compared to participants who do not undertake aerobic exercise. Results from this study will provide unique information on the relationship between stroke, physical activity, brain health, and dementia. Our findings will establish whether post-stroke aerobic physical activity can prevent, or at least minimise, the impact of brain atrophy, cognitive impairment, and end organ disease state. A prescribed and tailored exercise programme could offer a simple and economically viable solution to patient care.
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Trial website
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Trial related presentations / publications
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Public notes
As the study includes two independent components, the second component (intervention delivered via Zoom) is independently powered, and requires 120 participants. Considering 34 participants were recruited into PISCES prior to the change to PISCES-ZODIAC due to COVID restrictions, the total sample size is estimated to be 154.
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Contacts
Principal investigator
Name
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Prof Amy Brodtmann
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Address
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Monash University, Central Clinical School
Level 5, The Alfred Centre
99 Commercial Road
Melbourne VIC 3008
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Country
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Australia
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Phone
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+61 3 9902 6000
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Fax
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Email
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[email protected]
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Contact person for public queries
Name
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Ruwayda Haibe
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Address
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Monash University, Central Clinical School
Level 5, The Alfred Centre
99 Commercial Road
Melbourne VIC 3008
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Country
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Australia
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Phone
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+61 466 096 812
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Fax
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Email
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[email protected]
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Contact person for scientific queries
Name
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Amy Brodtmann
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Address
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Monash University, Central Clinical School
Level 5, The Alfred Centre
99 Commercial Road
Melbourne VIC 3008
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Country
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Australia
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Phone
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+61 3 9902 6000
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Fax
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Email
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[email protected]
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Data sharing statement
Will individual participant data (IPD) for this trial be available (including data dictionaries)?
Yes
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What data in particular will be shared?
All individual participant data collected during the trial, after de-identification, and after publishing of the main study outcomes.
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When will data be available (start and end dates)?
2 years following publication of the primary hypothesis results, no end date determined.
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Available to whom?
Case-by-case basis at the discretion of Monash University.
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Available for what types of analyses?
Data will be available for any purposes.
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How or where can data be obtained?
Access subject to approvals by Principal Investigator Prof Amy Brodtmann -
[email protected]
+61 3 9902 6000
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What supporting documents are/will be available?
No Supporting Document Provided
Results publications and other study-related documents
Documents added manually
No documents have been uploaded by study researchers.
Documents added automatically
No additional documents have been identified.
Download to PDF