Effect of Structured Progressive Task-Oriented Circuit Class Training With Motor Imagery on Gait in Stroke
NCT ID: NCT03436810
Last Updated: 2021-03-25
Study Results
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View full resultsBasic Information
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COMPLETED
NA
40 participants
INTERVENTIONAL
2018-01-11
2019-01-10
Brief Summary
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Specific Objectives are to compare the effect of TOCCT with MI and TOCCT with education on the spatio-temporal and functional gait variables in patients with stroke, to investigate the spatio-temporal and functional gait variables in patients with stroke after receiving TOCCT with MI and to investigate the spatio-temporal and functional gait variables in patients with stroke after receiving TOCCT with education.
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Detailed Description
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All participants will be explained about details of the study and the interventions. After that, they will be asked to sign on the written consent approving by the committee of the institution prior to participate in study. All participants will be randomly allocated the participants into the experimental (TOCCT with MI) or the control (TOCCT with health education) groups. All participants will be screened following the criteria and will be collected the demographic data.
All outcome measures will be assessed by the therapist who have been trained the outcome measures of the study. As the primary outcome measurements, spatio-temporal variables will be measured by using two dimensional motion analysis method. The protocol of this method was proved to be valid and reliability from previous pilot study. For functional gait variables, six-minute walk test will be assessed for determining walking endurance, step test will be assessed for dynamic balance, and Timed Up and Go (TUG) test will be assessed for mobility function.
As the secondary outcome measure, the strength of hip flexor, hip extensor, knee flexor, knee extensor, ankle dorsiflexor, and ankle plantarflexor muscles will be assessed by using hand-held dynamometer. Muscle spasticity will be assessed by using the Modified Ashworth Scale (MAS). The outcome measures will be assessed at the baseline, after 2 weeks and 4 weeks intervention. For the safety, the therapist will measure blood pressure, pulse rate and fatigue level in the assessments, just before the training, and rest period during the training program.
Both groups will receive the same 65 minutes structured progressive TOCCT and will receive 25 minutes of MI training for the experimental group and 25 minutes of health education for the control group. So, total training duration will be 90 minutes. Intervention program will provide 3 times a week over a period of 4 weeks.
Descriptive statistic will be used for analyze the demographic and baseline characteristics of the participants. To clarify whether the data are normally distributed, the Kolmogorov Smirnov Goodness of Fit test will be used. If data are normally distributed, two-way mixed repeated measure ANOVA will be used. If the data are not normally distributed, Friedman test will be used to compare the mean differences of the spatio-temporal measures, 6 minutes walk test, step test, TUG test, muscle strength test and muscle spasticity test. The significant level is set at p \< 0.05.
Conditions
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Study Design
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RANDOMIZED
PARALLEL
TREATMENT
DOUBLE
Study Groups
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Experimental group
The experimental group will receive training programs of Motor imagery (MI) for 25 minutes and Task-Oriented Circuit Class Training (TOCCT) for 65 minutes. Overall duration of program session will be 90 minutes. Training for 3 times a week over duration of 4 weeks.
Motor imagery
Motor imagery (MI) will be trained for the individuals by imagination of the movement. Program of MI includes 1) body relaxation and awareness 2) visual imagery 3) kinesthetic imagery and 4) refocusing of body and environment.
Task-Oriented Circuit Class Training
Program of Task-Oriented Circuit Class Training (TOCCT) consists of warm up and perform tasks 1) Stepping forward-backward onto block 2) Stepping sideway onto block 3) Heel lifts in standing to strengthen affected planter-flexor muscles 4) Standing with a decreased base and reach for object 5) Standing up from chair, walking a short distance, and returning to chair 6) Symmetrical walking and 7) Walking at fast speed.
Control group
The control group receives programs of Health education (HE) for 25 minutes and Task-Oriented Circuit Class Training (TOCCT) for 65 minutes. Overall duration will be 90 minutes. They will be trained for 3 times a week over duration of 4 weeks.
Health education
Topic of Health education (HE) consists of 1) Changes caused by stroke 2) Complications after stroke 3) Emotional changes after stroke 4) Living at home after stroke 5) High blood pressure and stroke and 6) Preventing recurrent stroke.
Task-Oriented Circuit Class Training
Program of Task-Oriented Circuit Class Training (TOCCT) consists of warm up and perform tasks 1) Stepping forward-backward onto block 2) Stepping sideway onto block 3) Heel lifts in standing to strengthen affected planter-flexor muscles 4) Standing with a decreased base and reach for object 5) Standing up from chair, walking a short distance, and returning to chair 6) Symmetrical walking and 7) Walking at fast speed.
Interventions
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Motor imagery
Motor imagery (MI) will be trained for the individuals by imagination of the movement. Program of MI includes 1) body relaxation and awareness 2) visual imagery 3) kinesthetic imagery and 4) refocusing of body and environment.
Health education
Topic of Health education (HE) consists of 1) Changes caused by stroke 2) Complications after stroke 3) Emotional changes after stroke 4) Living at home after stroke 5) High blood pressure and stroke and 6) Preventing recurrent stroke.
Task-Oriented Circuit Class Training
Program of Task-Oriented Circuit Class Training (TOCCT) consists of warm up and perform tasks 1) Stepping forward-backward onto block 2) Stepping sideway onto block 3) Heel lifts in standing to strengthen affected planter-flexor muscles 4) Standing with a decreased base and reach for object 5) Standing up from chair, walking a short distance, and returning to chair 6) Symmetrical walking and 7) Walking at fast speed.
Eligibility Criteria
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Inclusion Criteria
* Age 18 - 75 years
* Post-stroke duration 3 - 12 months
* Middle cerebral artery (MCA) involvement
* Ability to walk at least 10 meters with or without using assistance
* Functional Ambulation Category (FAC) more than or equal to 3
* Mini Mental State Examination (MMSE) more than or equal to 24
* National Institutes of Health Stroke Scale (NIHSS) lessor than 14
* MI ability by the Kinesthetic and Visual Imagery Questionnaire (KVIQ-10) more than or equal to 3
Exclusion Criteria
* Other neurological conditions such as Parkinson's disease, Alzheimer's disease, or epilepsy
* Orthopedic and rheumatologic disorders with weight bearing pain
* Unable to communicate or unable to follow commands
* Serious cardiac conditions
* Patients with unilateral spatial neglect
* Patients with ataxic movement
18 Years
75 Years
ALL
No
Sponsors
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Mahidol University
OTHER
Responsible Party
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Principal Investigators
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Sunee Bovonsunthonchai, PhD
Role: STUDY_CHAIR
Faculty of Physical Therapy, Mahidol University
Locations
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University of Medical Technology
Yangon, , Burma
Countries
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References
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Thrift AG, Thayabaranathan T, Howard G, Howard VJ, Rothwell PM, Feigin VL, Norrving B, Donnan GA, Cadilhac DA. Global stroke statistics. Int J Stroke. 2017 Jan;12(1):13-32. doi: 10.1177/1747493016676285. Epub 2016 Oct 28.
Macko RF, Ivey FM, Forrester LW. Task-oriented aerobic exercise in chronic hemiparetic stroke: training protocols and treatment effects. Top Stroke Rehabil. 2005 Winter;12(1):45-57. doi: 10.1310/PJQN-KAN9-TTVY-HYQH.
Yang YR, Wang RY, Lin KH, Chu MY, Chan RC. Task-oriented progressive resistance strength training improves muscle strength and functional performance in individuals with stroke. Clin Rehabil. 2006 Oct;20(10):860-70. doi: 10.1177/0269215506070701.
Cicinelli P, Marconi B, Zaccagnini M, Pasqualetti P, Filippi MM, Rossini PM. Imagery-induced cortical excitability changes in stroke: a transcranial magnetic stimulation study. Cereb Cortex. 2006 Feb;16(2):247-53. doi: 10.1093/cercor/bhi103. Epub 2005 May 4.
Kim JS, Oh DW, Kim SY, Choi JD. Visual and kinesthetic locomotor imagery training integrated with auditory step rhythm for walking performance of patients with chronic stroke. Clin Rehabil. 2011 Feb;25(2):134-45. doi: 10.1177/0269215510380822. Epub 2010 Oct 13.
Balasubramanian CK, Neptune RR, Kautz SA. Variability in spatiotemporal step characteristics and its relationship to walking performance post-stroke. Gait Posture. 2009 Apr;29(3):408-14. doi: 10.1016/j.gaitpost.2008.10.061. Epub 2008 Dec 3.
Billinger SA, Arena R, Bernhardt J, Eng JJ, Franklin BA, Johnson CM, MacKay-Lyons M, Macko RF, Mead GE, Roth EJ, Shaughnessy M, Tang A; American Heart Association Stroke Council; Council on Cardiovascular and Stroke Nursing; Council on Lifestyle and Cardiometabolic Health; Council on Epidemiology and Prevention; Council on Clinical Cardiology. Physical activity and exercise recommendations for stroke survivors: a statement for healthcare professionals from the American Heart Association/American Stroke Association. Stroke. 2014 Aug;45(8):2532-53. doi: 10.1161/STR.0000000000000022. Epub 2014 May 20.
Brandstater ME, de Bruin H, Gowland C, Clark BM. Hemiplegic gait: analysis of temporal variables. Arch Phys Med Rehabil. 1983 Dec;64(12):583-7.
Jorgensen L, Crabtree NJ, Reeve J, Jacobsen BK. Ambulatory level and asymmetrical weight bearing after stroke affects bone loss in the upper and lower part of the femoral neck differently: bone adaptation after decreased mechanical loading. Bone. 2000 Nov;27(5):701-7. doi: 10.1016/s8756-3282(00)00374-4.
Verma R, Arya KN, Garg RK, Singh T. Task-oriented circuit class training program with motor imagery for gait rehabilitation in poststroke patients: a randomized controlled trial. Top Stroke Rehabil. 2011 Oct;18 Suppl 1:620-32. doi: 10.1310/tsr18s01-620.
English C, Hillier SL, Lynch EA. Circuit class therapy for improving mobility after stroke. Cochrane Database Syst Rev. 2017 Jun 2;6(6):CD007513. doi: 10.1002/14651858.CD007513.pub3.
Guillot A, Collet C. Contribution from neurophysiological and psychological methods to the study of motor imagery. Brain Res Brain Res Rev. 2005 Dec 15;50(2):387-97. doi: 10.1016/j.brainresrev.2005.09.004. Epub 2005 Nov 3.
Malouin F, Richards CL, Jackson PL, Dumas F, Doyon J. Brain activations during motor imagery of locomotor-related tasks: a PET study. Hum Brain Mapp. 2003 May;19(1):47-62. doi: 10.1002/hbm.10103.
Dunsky A, Dickstein R, Marcovitz E, Levy S, Deutsch JE. Home-based motor imagery training for gait rehabilitation of people with chronic poststroke hemiparesis. Arch Phys Med Rehabil. 2008 Aug;89(8):1580-8. doi: 10.1016/j.apmr.2007.12.039.
Zimmermann-Schlatter A, Schuster C, Puhan MA, Siekierka E, Steurer J. Efficacy of motor imagery in post-stroke rehabilitation: a systematic review. J Neuroeng Rehabil. 2008 Mar 14;5:8. doi: 10.1186/1743-0003-5-8.
Aung N, Bovonsunthonchai S, Hiengkaew V, Tretriluxana J, Rojasavastera R, Pheung-Phrarattanatrai A. Concurrent validity and intratester reliability of the video-based system for measuring gait poststroke. Physiother Res Int. 2020 Jan;25(1):e1803. doi: 10.1002/pri.1803. Epub 2019 Aug 16.
Bandinelli S, Benvenuti E, Del Lungo I, Baccini M, Benvenuti F, Di Iorio A, Ferrucci L. Measuring muscular strength of the lower limbs by hand-held dynamometer: a standard protocol. Aging (Milano). 1999 Oct;11(5):287-93. doi: 10.1007/BF03339802.
Lin PY, Yang YR, Cheng SJ, Wang RY. The relation between ankle impairments and gait velocity and symmetry in people with stroke. Arch Phys Med Rehabil. 2006 Apr;87(4):562-8. doi: 10.1016/j.apmr.2005.12.042.
Provided Documents
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Document Type: Study Protocol
Document Type: Statistical Analysis Plan
Other Identifiers
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MU-CIRB 2017/178.1010
Identifier Type: -
Identifier Source: org_study_id
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