Our Trials

Our Trials

  • ABC

    Arm Boot Camp Study: Evaluation of a Program to Increase Upper Limb Recovery After Stroke

    Description:

    This study examines the feasibility and effect of a program that combines exercise and feedback from a wearable device on upper limb movement practice and function in individuals with stroke.

    Participants were randomized into either the Immediate Treatment Group or the Delayed Treatment group. Both groups completed the same intervention program. The Immediate treatment group started the program right away while the Delayed Treatment group started the program after a 3-week delay.

    The intervention program is 3 weeks in duration and consists of participants completing at least two hours of exercises (adapted from the Home-GRASP program) daily and wearing an activity monitor on their affected wrist during waking hours for the duration of the intervention. Participants were asked to meet daily movement count goals based on information from the monitor and had 6 virtual sessions with a therapist.

    Sites involved:

    • GF Strong Rehab Centre, Vancouver, British Columbia, Canada
    • University of Calgary, Calgary, Alberta, Canada
    • Riverview Health Centre, Winnipeg, Manitoba, Canada
    • Parkwood Institute, London, Ontario, Canada,
    • Sunnybrook Health Sciences Centre, Toronto, Ontario, Canada
    • Toronto Rehabilitation Institute – University Health Network, Toronto, Ontario, Canada
    • Dalhousie University, Halifax, Nova Scotia, Canada

    Principal Investigator:

    Dr. Janice Eng, University of British Columbia

    Other investigators:

    Dr. Sean Dukelow (Calgary, AB)
    Dr. Ruth Barclay (Winnipeg, MB)
    Dr. Bob Teasell (London, ON)
    Dr. Bradley MacIntosh (Toronto, ON)
    Dr. Mark Bayley (Toronto, ON)
    Dr. Marilyn MacKay-Lyons (Halifax, NS)

    Target population:

    Adults living with a stroke less than one year and have a mobility impairment on stroke affected upper limb

    Recruitment:

    Data collection has been completed. 62 participants were enrolled in the study.

    Study eligibility:

    • 19 years or older
    • Less than 1 year since the stroke occurred
    • Living in the community
    • Have unilateral upper limb impairment
    • Have some ability to move their arm and hand (> 30° shoulder flexion or abduction and Fugl Meyer finger extension score > 0)
    • Are using their affected upper limb in a different way than prior to their stroke (REACH score < 4)
    • Completed formal physical and occupational therapy rehabilitation for the upper limb
    • Have access to a tablet, computer, laptop or phone with internet and email access.

    The trial protocol is published at the following site
    https://trialsjournal.biomedcentral.com/articles/10.1186/s13063-022-06047-9

  • CAMAROS

    The Canadian Maraviroc Randomized Controlled Trial To Augment Rehabilitation Outcomes After Stroke (CAMAROS)

    Description:

    After stroke, the combination of progressive skills practice in an adequate dose, exercise for fitness augments motor and cognitive outcomes. However, sensorimotor and cognitive improvements often plateau after 12 weeks. There is an urgent need to find novel methods to drive recovery and lessen limb paralysis. Drugs that might enhance learning or neural repair, as well as other molecular and synaptic adaptations that occur during skills training and fitness exercise, might extend that recovery curve. Several very recent preclinical experiments and observational studies in patients after stroke suggest that the commercially available medication, Maraviroc, may augment skills learning during rehabilitation training especially during the first three months after onset, by acting on unique molecular components for novel learning.

    The CAMAROS trial is a randomized, placebo-controlled, blinded phase II trial evaluating the efficacy of coupling Maraviroc (Celsentri) with exercise rehabilitation across multiple Canadian sites in 120 stroke participants. Participants will begin their participation within 6 weeks of stroke onset. Both groups will receive an exercise program in addition to standard of care rehabilitation, but only one group (the intervention group) will receive the active drug Maraviroc.

    Participants will be evaluated using physical assessments, cognitive assessments, and using wrist and ankle activity sensors at baseline, after 4 weeks of taking the drug/placebo, after 8 weeks of taking the drug/placebo, and at 6-months post-stroke. While enrolled in the study, participants will be required to take part in an 8 week, daily exercise program. Participants will also perform a short motor learning assessment at each formal assessment and again within 24 hours of each formal assessment (initial test and 24-hour retention test).

    Sites involved:

    • Vancouver, BC
    • Kelowna, BC
    • Calgary, AB
    • London, ON
    • Toronto, ON
    • Kingston, ON
    • Windsor, ON
    • Quebec City, QC
    • Halifax, NS
    • Charlottetown, PEI

    Principal Investigator:

    Dr. Sean Dukelow, MD, PhD, University of Calgary/Hotchkiss Brain Institute

    Other Investigators:

    Vancouver, BC:
    Drs Janice Eng, Courtney Pollock, Jennifer Yao

    Kelowna, BC:
    Drs Brodie Sakakibara, Aleksander Tkach

    Calgary, AB:
    Drs Sean Dukelow, Gentson Leung

    London, ON:
    Dr. Robert Teasell

    Toronto, ON:
    Drs Mark Bayley, Bradley MacIntosh, Sandra Black

    Kingston, ON:
    Drs Stephen Scott, Benjamin Ritsma

    Windsor, ON:
    Drs Jennifer Voth, Nathania Liem

    Quebec City, QC
    Dr. Catherine Mercier

    Halifax, NS:
    Drs Marilyn Mackay-Lyons, Anita Mountain

    Charlottetown, PEI:
    Drs Trish Helms-Neima, Nathanial Heinrichs

    Target population:

    Individuals within 5 days and 6 weeks of stroke who are experiencing hemiparesis requiring inpatient rehabilitation.

    Recruitment:

    The trial is currently recruiting participants.  Target recruitment n = 120.

    Eligibility:

    Inclusion Criteria

    1. Primary ischemic anterior circulation stroke
    2. age ≥18 years
    3. at least 5 days after stroke but within 6 weeks of stroke on the date of medication (maraviroc or placebo) start
    4. hemiparesis requiring inpatient rehabilitation
    5. at least one of the following:
      1. some shoulder abduction, with gravity eliminated and visible extension in two or more digits
        OR
      2. visible hip flexion or extension
    6. assistance available for daily rehabilitation training practice and for transportation when needed
    7. adequate language skills to understand the Informed Consent and retain information during daily therapies

    Exclusion Criteria

    1. pre-stroke modified Rankin score ≥ 2
    2. limited resources or illness that will not enable a return to living outside of a facility
    3. history of dementia
    4. history of hepatitis or elevated hepatic transaminases or bilirubin
    5. history of renal insufficiency or creatinine clearance (eGFR) < 60mL / min / 1.73m2
    6. cancer or other chronic illness that makes 1-year survival unlikely or will detract from the ability to carry out exercise and skills practice
    7. existing pre-stroke serious disabling disease (e.g., Parkinson’s disease, severe traumatic brain injury, amputation)
    8. seizure related to stroke
    9. acute or chronic epilepsy
    10. currently taking any of the following anticonvulsant medications:
      1. Carbamazepine, Phenobarbital, or Phenytoin
    11. pregnant, breastfeeding, or positive test for pregnancy at baseline
    12. women of childbearing potential who are not using one highly effective form of contraception or two forms of effective contraception
    13. known HIV positivity
    14. currently taking any of the following antifungal and/or antibacterial medications:
      1. Ketoconazole, Itraconazole, Voriconazole, Rifampin, Clarithromycin, or Rifabutin + Protease Inhibitor
    15. currently taking St. John’s Wort

    Subgroup Stratification Criteria

    For Upper Extremity Group: 

    Minimum Ability: Medical Research Council (MRC) grade >1 for shoulder abduction AND MRC grade >1 for finger extensor on at least one digit

    Maximum Ability: Upper Extremity Fugl-Meyer Assessment Score >56

    For Lower Extremity Group:

    Minimum Ability: requiring a 2-person assist

    Maximum Ability: walking speed <0.8m/s


    Dr. Sean Dukelow, above, is the study leader

  • EMPOW-HER

    EXPLORING METHODS TO IMPROVE PARTICIPATION OF WOMEN IN CLINICAL TRIALS TO HELP ENHANCE STROKE RECOVERY RESEARCH (EMPOW-HER)

    Description:

    Sex differences exist in the burden of stroke and treatment efficacy, therefore equal representation in research studies is of paramount importance. However, women are under-represented in stroke research trials reducing the generalizability of research outcomes.

    Therefore, we are conducting two cross-sectional questionnaire-based studies and one focus group to determine sex and gender-related factors associated with willingness to participate in stroke research studies. A retrospective review of CanStroke Recovery Trials data is also underway, to determine whether the sex distribution as well as other demographic and clinical characteristics of participants differed from that of the general diseased population.

    Sites Involved:

    A survey of the CanStroke research team will be sent to all current CanStroke personnel to explore their perceptions of barriers and facilitators to recruitment of women and men in clinical trials.

    Respondents for the survey of people post-stroke will be recruited from 9 sources across Canada. These include in-patient and out-patient stroke rehabilitation programs, cardiovascular rehabilitation, and March of Dimes.

    We will also be contacting the CanStroke Trials Recovery Platform researchers to invite them to disseminate research flyers to the patients of their studies.

    Principal Investigator:

    Dr. Mark Bayley, MD

    Other Investigators:

    Dr. Susan Marzolini
    Dr. Shannon MacDonald
    Dr.  Urvashy Gopaul
    Dr. Amy Yu
    Juliana Nunes da Silva
    And others from the CanStroke research team.

    Target population:

    The CanStroke Recovery Trials research team.
    Men and women post-stroke.

    Recruitment:

    Recruitment is underway for the cross-sectional questionnaire of people post-stroke (target of 400 respondents).

    Study eligibility:

    Men and women (at least 18 years of age) having had at least one stroke (any type).
    Ability to read in English.


    Dr. Mark Bayley, above, is the study leader.

  • FLOW

    FLOW Trial: FLuoxetine to Open the critical time period Window to improve motor recovery after stroke

    Description:

    FLOW Trial is a randomized, placebo-controlled, blinded phase II trial evaluating the efficacy of coupling antidepressant therapy (e.g., selective serotonin reuptake inhibitor – fluoxetine) with exercise rehabilitation in expanding the window of post-stroke recovery and improving functional outcomes. 52 patients have been enrolled in the study at 8 Canadian sites.

    Participants were randomized into the intervention and the control group. The intervention group received a low dose of active drug fluoxetine, while the control group received placebo. Both groups received a 12-week, 3 times per week exercise program in addition to standard of care rehabilitation.  Study participants were evaluated at baseline, post-exercise program and 6-months post-exercise program.

    Sites Involved:

    • University of Calgary, Calgary, Alberta,
    • University of British Columbia & GF Strong Centre, Vancouver, British Columbia
    • Riverview Health Centre, Winnipeg, Manitoba,
    • Memorial University of Newfoundland, St. John’s, Newfoundland and Labrador
    • Dalhousie University, Halifax, Nova Scotia,
    • Parkwood Institute, London, Ontario
    • Sunnybrook Health Sciences Centre, Toronto, Ontario
    • Toronto Rehabilitation Institute – University Health Network, Toronto, Ontario

    Principal Investigators:

    Dr. Mark Bayley and Dr. Janice Eng

    Other Investigators:

    Dr. Mark Bayley, MD. University Health Network, Toronto
    Dr. Courtney Pollock, PhD. University of British Columbia & GF Strong Rehab Centre
    Dr. Bradley MacIntosh, PhD, Sunnybrook Health Sciences Centre
    Dr. Sean Dukelow, MD, PhD, University of Calgary/Hotchkiss Brain Institute
    Dr. Sepideh Pooyania, MD. Riverview Health Centre
    Dr. Michelle Ploughman, PhD. Memorial University of Newfoundland
    Dr.  Marilyn Mackay-Lyons, PhD. Dalhousie University
    Dr. Robert Teasell, MD. Parkwood Institute
    Dr. Marc Roig, McGill, University, Quebec

    Target Population:

    Individuals within 12 months of stroke who are experiencing lower extremity impairment.

    Recruitment:

    The trial is not recruiting patients. Recruitment and data collection have been completed and researchers have begun analysis of the results.

    Eligibility:

    Inclusion Criteria: 

    • 25 years of age or older
    • Between 2 to 12 months post-stroke
    • Experiencing significant weakness in one or both legs as the result of stroke
    • Not currently taking SSRIs or MOIs

    Exclusion Criteria:

    1. Pre-existing conditions causing severe impairment of mobility
    2. Taking medications for depression
    3. Substantial premorbid disability or pre-existing deficit or language comprehension deficit that could interfere with assessments
    4. Unstable serious medical condition (e.g., terminal cancer, renal or liver failure, congestive heart failure)
    5. Uncontrolled high blood pressure
    6. Requires more than a one person assist for transfer
    7. Planned surgery that would affect participation in the trial
    8. Participating in another formal lower limbs exercise program more than one day per week
    9. History of seizures
    10. Pregnancy
  • MODEX

    Modafinil and Exercise for Post Stroke Fatigue (MODEX)

    Description:

    A lot of people report fatigue as one of the worst symptoms post stroke that can affect daily activities and the length and quality of life. We do not fully understand all the reasons for fatigue after stroke or how to best treat it. We think that fatigue results from the stroke changing the brain, reducing physical fitness, and decreasing muscle strength.

    Some studies have tested a drug called Modafinil for post stroke fatigue, while other studies have tested exercise for it. Yet, there is unclear evidence for either treatment so our study has two main aims:

    1. Test which type of exercise is best.
    2. Test if Modafinil is better than a sugar pill.

    As another aim, we will also look at if combining Modafinil with exercise has any benefits.

    We will assess the results to identify the best treatment for post stroke fatigue. We hope to be able to find a treatment that will help reduce fatigue and improve quality of life after a stroke.

    Sites Involved:

    Toronto (UHN and Sunnybrook)
    London, ON
    Vancouver
    Calgary
    Winnipeg
    Halifax
    St. John’s

    Principal Investigators:

    Dr.  Mark Bayley, MD
    Dr.  Janice Eng, PhD

    Other Investigators:

    Dr. Mark Bayley, Toronto Rehabilitation Institute – University Health Network
    Drs. Bradley MacIntosh and Sandra Black, Sunnybrook Health Sciences Centre
    Dr. Sean Dukelow, University of Calgary
    Drs. Jennifer Yao, Janice Eng, and Courtney Pollock, University of British Columbia & GF Strong Rehab Centre
    Drs. Michelle Ploughman and Jason McCarthy, Memorial University of Newfoundland
    Drs. Marilyn Mackay-Lyons and Anita Mountain, Dalhousie University
    Dr. Robert Teasell, Parkwood Institute
    Drs. Sepideh Pooyania and Ruth Barclay, Riverview Health Centre

    Target Population:

    Individuals with fatigue > 3 months post stroke.

    Recruitment:

    Not recruiting yet.
    Target number: up to n=300.

    Eligibility:

    Inclusion Criteria:

    • >18 years of age
    • >3 months post stroke onset (i.e. intracerebral hemorrhage or ischemic stroke diagnosed by a physician)
    • evidence of stroke on computed tomography or magnetic resonance imaging
    • disabling post stroke fatigue as measured by Multidimensional Fatigue Inventory score >60
    • Modified Rankin disability score <4
    • mobile enough to participate in exercise (i.e. able to walk with one person assistance or less)

    Exclusion Criteria:

    • Contraindications to Modafinil
    • On stimulant medications already
    • subarachnoid hemorrhage
    • impaired comprehension or language impairment that prevents following visual or pictograph adapted instructions and providing informed consent
    • severe motor impairment and inability to participate in the exercise
    • unable to participate in exercise due to musculoskeletal complaints, unstable heart failure, or renal disease
    • untreated hypothyroidism or anemia
    • cancer likely to result in death in less than 6 months
    • severe depression requiring therapy as indicated by suicidal ideation and/or DASS depression sub-score > 20
    • currently enrolled in a structured exercise program
    • untreated severe sleep apnea with an Apnea/Hypopnea index >30


    Dr. Mark Bayley, pictured above, is one of the study leaders.

  • RESTORE

    Robot-Enhanced Stroke Therapy Optimizes REhabilitation (RESTORE)

    Description:

    Robotics in upper limb stroke rehabilitation first garnered attention in late 1990’s. Robots were a way to 1) perform passive range of motion and reduce hypertonia (resistance to passive movement), 2) aid patients in performing movements that would not otherwise be possible because of weakness and 3) increase strength by providing resistance to movements. The first observational study focused on chronic stroke and showed that working with a simple robotic device, the MIT-Manus, could improve motor function. Many observational studies using robotics for motor rehabilitation followed. As the number and complexity of robots increased, so did study designs.

    Case-control and small single centre randomized controlled trials evaluated robotic therapy versus standard rehabilitation care or sham therapy. In most studies, robotic rehabilitation proved superior to the control conditions.

    The purpose of this study is to investigate two aspects of robotic therapy after stroke. One goal is to determine if early robotic rehabilitation of the upper limb (beginning 5-9 days post-stroke) is more effective than later robotic rehabilitation (beginning 21-25 days post-stroke). The other goal is to determine if higher intensity robotic rehabilitation (2 hours/day) is more effective than lower intensity robotic rehabilitation (1 hour/day).

    Sites Involved:

    Calgary, AB
    Kingston, ON

    Principal Investigator

    Dr. Sean Dukelow, MD, PhD, University of Calgary, Hotchkiss Brain Institute

    Other Investigators:

    Calgary, AB
    Dr. Sean Dukelow

    Kingston, ON
    Drs Stephen Scott, Benjamin Ritsma

    Target Population:

    Individuals experiencing a recent first stroke who are experiencing an upper extremity impairment.

    Recruitment:

    The trial is currently recruiting participants.
    Target recruitment n = 132 stroke participant, n=24 control participants.

    Study Eligibility:

    Inclusion Criteria – Stroke:

    • Recent first stroke (ischemic or hemorrhagic)
    • Upper extremity Fugl-Meyer score 15-45
    • Modified Ashworth score of shoulder/elbow less than or equal to 2
    • Able to follow task instructions
    • Visual acuity better than 20/50 in both eyes
    • Able to give consent
    • Able to commit to follow-up

    Inclusion Criteria – Control:

    • Aged 18 or older
    • Visual acuity better than 20/50 in both eyes
    • Able to give consent
    • Able to complete intervention

    Exclusion Criteria:

    • Prior stroke or significant neurologic problem (e.g. Multiple Sclerosis)
    • Pre-existing musculoskeletal injury that will interfere with active therapy
    • Pre-Stroke Modified Rankin Score > 2
    • Clinical evidence of Unilateral Spatial Neglect on the Behavioural Inattention Test (BIT)
    • Enrollment in a concurrent clinical intervention trial
    • Major co-morbid or concurrent illness such that improvement is unlikely or completion of the protocol as specified is unlikely


    Dr. Sean Dukelow, pictured here, is the study leader.

  • TRAIL

    TeleRehabilitation with Aims to Improve Lower Extremity Recovery Post-Stroke (TRAIL-RCT): A Randomized Controlled Trial

    Description:

    The multi-site RCT aims to compare functional mobility between stroke survivors in TRAIL, a 4-week progressive intensity and self-management support telerehabilitation program, and those in the attention-controlled stroke education program (EDUCATION). The trial also compares lower extremity muscle strength, motor impairment, functional balance, balance self-efficacy, and costs and health-related quality of life between TRAIL and EDUCATION participants.

    The end goal is to inform best practices in virtual care and have widespread application in practice when access to in-person rehabilitation is not feasible, such as in rural, remote and under-serviced areas.

    Sites involved:

    Vancouver
    Kelowna
    Winnipeg
    Halifax
    Toronto
    London

    Principal Investigators:

    Dr. Ada Tang, McMaster University
    Dr. Brodie Sakakibara, University of British Columbia, Okanagan

    Other investigators:

    • Nova Scotia Health Authority (Halifax), site investigator Dr. Marilyn Mackay-Lyons,
    • University Health Network (Toronto), site investigator Dr. Mark Bayley,
    • Parkwood Institute (London), Dr. Robert Teasell,
    • Riverview Health Centre (Winnipeg), Dr. Ruth Barclay & Dr. Sepideh Pooyania,
    • GF Strong Rehabilitation Centre (Vancouver), Dr. Courtney Pollock.

    Target population for the trial:

    Individuals within 12 months of stroke who are experiencing lower extremity impairment.

    Recruitment:

    The trial is currently recruiting participants
    Target recruitment n=96 (n=48 females, 48 males)

    Study eligibility:

    Inclusion Criteria: 

    • ≥19 years of age
    • ≤12 months post-stroke with lower extremity hemiparesis
    • Walk ≥10 meters with or without a gait aid and without physical assistance of another person
    • Tolerate 50 minutes of activity (including rest breaks)

    Exclusion Criteria:

    • Currently participating in formal in- or out-patient stroke rehabilitation focusing on lower extremity training
    • Living in long-term care
    • Severe vision or hearing loss
    • Significant musculoskeletal or other neurological conditions
    • Not medically stable
    • Comorbidities (e.g. limb amputation), pain or other symptoms that significantly impact lower extremity

    To learn more: farrell@canadianstroke.ca


    Drs Brodie Sakakibara and Ada Tang, pictured here, are the study leaders.

    The TRAIL trial was preceded by TRAIL-PROOF, described below.

    Telerehabilitation with Aims to Improve Lower Extremity Recovery – Proof-of-Concept (TRAIL-PROOF)

    Description:

    TRAIL-Proof was a feasibility study aiming to examine the feasibility of a 4-week lower extremity telerehabilitation program to improve lower extremity recovery among community-living stroke survivors across Canada. 32 patients have been enrolled in the study at 5 Canadian sites.

    Participants received a telerehabilitation program comprised of evidence-based exercises and self-management delivered by physiotherapist trained in telerehabilitation over videoconferencing.  The program consisted of two 60-minute telerehabilitation sessions per week over the course of 4 weeks. Participants were also asked to complete at least one additional independent self-managed exercise session each week. Study participants were evaluated before the start of the telerehabilitation program and immediately after the telerehabilitation program.

    Sites involved:

    University of British Columbia & GF Strong Centre, Vancouver, British Columbia
    Riverview Health Centre, Winnipeg, Manitoba
    Dalhousie University, Halifax, Nova Scotia
    Parkwood Institute, London, Ontario
    Toronto Rehabilitation Institute – University Health Network, Toronto, Ontario

    Principal Investigators:

    Brodie Sakakibara, PhD
    Ada Tang PT PhD

    Other Investigators:

    Mark Bayley, MD. University Health Network, Toronto
    Courtney Pollock, PhD. University of British Columbia & Rehabilitation Research Program
    Janice Eng, PhD. University of British Columbia & Rehabilitation Research Program
    Sepideh Pooyania, MD. Riverview Health Centre
    Ruth Barclay, PhD. Riverview Health Centre
    Marilyn Mackay-Lyons, PhD. Dalhousie University
    Robert Teasell, MD. Parkwood Institute
    Sarah Park, MSc candidate, University of British Columbia & Rehabilitation Research Program

    Target population:

    Individuals within 18 months of stroke who are experiencing lower extremity impairment.

    Recruitment:

    Recruitment is complete. 32 participants have been recruited. Recruitment and data collection for the Proof-of-concept study have been completed. A Randomized Controlled Trial is currently underway and recruiting participants who have experienced stroke within the past 12 months.

    Study eligibility:

    Inclusion Criteria: 

    1. 19 years of age or older
    2. Experienced stroke within the past 18 months
    3. Have weakness in your legs
    4. Are able to walk 10m
    5. Are able to tolerate 50 minutes of activity;
    6. Are able to communicate in English

    Exclusion criteria:

    1. Currently receiving in- or outpatient rehabilitation;
    2. Living in long-term care;
    3. Severe vision or hearing loss;
    4. Other neurological conditions, e.g. Parkinson’s disease;
    5. Presence of significant comorbidities (e.g. severe osteoarthritis), pain or other symptoms that significantly impact lower extremity function;
    6. Planned surgery that would preclude or affect participation in the protocol
  • V-PASE

    Virtual Physical Activity Seated Exercise Study (V-PASE) 

    Description:

    The Virtual Physical Activity Seated Exercise (V-PASE) study is a 10-week online exercise study in those living with a stroke and mobility impairment. The study has the potential to improve an individual’s balance, mobility, quality of life, and cardiometabolic health outcomes (sugar and cholesterol levels).

    The study will be conducted at multiple sites across Canada (Vancouver, Kelowna, Winnipeg, London, Toronto, and Halifax) and will recruit 120 people who have lived with a stroke for more than 6 months and have difficulties walking. All sessions will be completed online (Zoom) in the comfort of your own home, by a trained instructor or physical therapist.

    At each measurement session, balance, lower extremity strength, walking capacity, cardiometabolic health (blood sugar and cholesterol), and quality of life will be measured. Seated exercise sessions will be 60 minutes in duration and take place 3 times per week.

    Sites involved:

    Vancouver
    Kelowna
    Winnipeg
    London
    Toronto
    Halifax

    Principal Investigator:

    Dr. Janice Eng, University of British Columbia

    Other investigators:

    British Columbia (Vancouver) – Dr. Paul Mackie | Dr. Jennifer Yao | Dr. Ben Mortenson | Sally-Anne Stelling | Dr. Courtney Pollock | Dr. Maureen Ashe
    British Columbia (Kelowna) – Dr. Brodie Sakakibara

    Manitoba – Dr. Ruth Barclay | Dr. Sepideh Pooyania

    Ontario (London) – Dr. Sue Peters

    Ontario (Toronto) – Dr. Mark Bayley

    Nova Scotia – Dr. Adria Quigley

    Target population for the trial:

    Adults living with a stroke for more than 6 months and have a mobility impairment (walking difficulties).

    Recruitment:

    The trial is recruiting patients. The target sample size is 120 participants.

    Study eligibility:

    Available to people who are:

    • Adults (18-19 years or older depending on province),
    • More than 6 months post-stroke,
    • Have ongoing walking and standing issues due to their stroke,
    • Able to stand up from a chair.

    To learn more: farrell@canadianstroke.ca


    Janice Eng

  • A Participant's Story

    Debbie Tompkins, Halifax

    A camping trip to New Brunswick with her six grandchildren seemed like the perfect way to mark a new phase of life last summer for recently retired nurse Debbie Tompkins.

    Until, days before the planned departure, a stroke changed everything.

    Signs of stroke began slowly. Her right leg felt unhinged. The 63-year-old Halifax woman went to the hospital and, although she felt no pain, received a diagnosis of sciatica, or nerve pain.

    The next day, a Monday, she could barely walk. By Tuesday, she was back at the emergency department. Again, she returned home – no CT scan, no MRI, but with a plan to consult a neurologist.

    The week dragged on. Sometimes she could put weight on her leg and sometimes she couldn’t. When she awoke on Sunday morning – a week to the day after her first hospital visit – she was nauseated and perspiring. She called 9-1-1.

    “It was too late to get a clot-busting drug” to reverse the stroke symptoms at the hospital, but she was put on blood thinners. “Women are underdiagnosed, not listened to, and present differently,” she says.

    Debbie moved from acute care to an inpatient stroke rehabilitation unit and stayed there until the end of October.

    While in the inpatient rehab unit, Debbie was recruited to participate in CPSR’s FLOW trial  — the first national trial on the CanStroke Recovery Trials platform. It combines intensive rehabilitation therapy with the drug fluoxetine in an effort to enhance post-stroke recovery.

    For Debbie, her participation meant an additional 12 weeks of therapy she would not have had otherwise.

    “I’ve really enjoyed the FLOW,” Debbie says. “It’s hard and I’m exhausted when I’m done, but it’s good.”

    For her, there is no question that extra therapy provided from her involvement in CanStroke Recovery Trials put her back on the road to recovery – and rekindling her camping plans.

    Publications

    Elise Wiley, Brodie Sakakibara, Sarah Park, Ruth Barclay, Mark Bayley, Janice J. Eng, Anne Harris, Elizabeth Inness, Marilyn MacKay-Lyons, Joy MacDermid, Courtney Pollock, Sepideh Pooyania, Robert Teasell, Jennifer Yao & AdaTang (2024) Exploring the experiences of an exercise-based telerehabilitation program among Canadian community-dwelling adults with stroke, Disability and Rehabilitation, DOI: 10.1080/09638288.2024.2316772

    Park S, Tang A, Barclay R, Bayley M, Eng JJ, Mackay-Lyons M, Pollock C, Pooyania S, Teasell R, Yao J, Sakakibara BM. Investigating the Telerehabilitation with Aims to Improve Lower Extremity Recovery Post-Stroke (TRAIL) Program: A Feasibility Study. Phys Ther. 2023. DOI: 10.1093/ptj/pzad165

    Park S, Tang A, Pollock C, Sakakibara BM. Telerehabilitation for lower extremity recovery poststroke: a systematic review and meta-analysis protocol. BMJ Open 2022;12:e055527. doi: 10.1136/bmjopen-2021-055527

    Presentations: 

    Huynh, E., Wiley, E., Park, S., Sakakibara, B.M., Tang, A. Examining the Association Between Balance Confidence and Balance Performance In Individuals With Stroke: A Cross-Sectional Study. Poster Presentation at Advances in Stroke Recovery Scientific Conference, Virtual, January, 2023. 

    Wiley, E., Sakakibara, B.M., Barclay, R., Bayley, M., Davis, J., Eng, J.J., Harris, A., Inness, E., MacKay-Lyons, M., Monaghan, J., Pollock, C., Pooyania, S., Scheenberg, A., Teasell, R., Tang, A. Advancing Virtual Care in Stroke Rehabilitation – TeleRehabilitation with Aims to Improve Lower extremity recovery post-stroke (TRAIL): A randomized controlled trial protocol. Poster Presentation at the Advances in Stroke Recovery Conference, Virtual, January, 2023.

    Park S, Tang A, Barclay R, Bayley M, Eng JJ, Mackay-Lyons M, Pollock C, Pooyania S, Teasell R, Yao J, Sakakibara BM. Telerehabilitation with Aims to Improve Lower Extremity Recovery Post-Stroke (TRAIL): A Feasibility Study. World Congress for Neurorehabilitation. Vienna, Austria. December 14-17, 2022.

    Wiley, E., Monaghan, J. Examining the Intersection Between Sex – and Gender-Based Considerations and Exercise-Based Telerehabilitation in Individuals with Stroke: A Study Protocol. Co-led oral presentation at the AGE-WELL EPIC Conference, Virtual, June 2022.

    Park S, Tang A, Barclay R, Bayley M, Eng JJ, Mackay-Lyons M, Pollock C, Pooyania S, Teasell R, Sakakibara BM. Telerehabilitation with aims to improve lower extremity recovery post stroke (TRAIL): Study Protocol. UBC Okanagan Interdisciplinary Student Health Conference, Virtual. Kelowna, Canada. March 9, 2021. Student trainee Park S, winner of best presentation award.

    Park S, Tang A, Eng J, Bayley M, Barclay R, Mackay-Lyons M, Pollock C, Pooyania S, Teasell R, Sakakibara BM. Telerehabilitation with aims to improve lower extremity recovery post stroke (TRAIL): Study protocol. Canadian Partnership for Stroke Recovery Annual Scientific Meeting.Virtual. December 2-4, 2020.

    Invited Presentations: 

    Wiley, E., Monaghan, J. The Examination of Sex and Gender Differences Throughout the Spectrum of Stroke Recovery. Co-led oral presentation at the BC Stroke Network Monthly Rounds, Virtual, November, 2022.

    A Tang, B Sakakibara. Virtual Rehabilitation post-COVID-19: TRAIL TeleRehabilitation with Aims to Improve Lower Extremity Recovery After Stroke. Remote Rehabilitation Community Virtually Successful Conference, London UK, Virtual, 24-28 January 2022.

    In the media: