Stroke Clinical Trial
Official title:
A Randomized Controlled Trial of Distributed Schedule of Robot Assisted Training After Botulinum Toxin Injection in Patient With Spastic Hemiplegic Stroke: Motor Learning Process and Behavioral Outcomes
The purpose of this project is to examine and compare the immediate and long-term effects of
combined Botulinum toxin type A (BoNT-A) injection between condensed and distributed
robot-assisted training (RT) programs in patients with spastic hemiplegic stroke. Spasticity,
a common impairment after stroke, has a profound impact on activity and participation for
patients. According to the result of the investigator's ongoing study, the investigators
found BoNT-A injection combined with robot-assisted training is recommended to enhance
functional recovery for patients with spastic hemiplegic stroke. However, the optimal program
as considering the RT frequency is unknown.
The aims of this study are to determine and compare the immediate and longer-term effects
between condensed and distributed programs of RT following BoNT-A injection in subjects with
spastic hemiplegic stroke .
Participants with chronic spastic hemiplegic stroke will be recruited and randomly assigned
to either condensed or distributed RT groups post BoNT-A injection. Each training session
included 40 minutes RT, followed by 40-minute functional training. The condensed group will
receive 4 sessions per week, for 6 weeks, the distributed group 2 sessions per week, for 12
weeks. Body function and structures outcome measures include Fugl-Meyer Assessment, Modified
Ashworth Scale. Activity and participation measures include Wolf Motor Function Test, Motor
Activity Log, and Canadian Occupational Performance Measure. In addition, to directly reflect
a patient's unique needs and goals, Goal Attainment Scaling will be assessed. Evaluators will
be blind to group allocation. The outcome will be measured at pre-treatment, post-treatment,
and 6-week follow-up. The investigators will also use the movement time of robot without
powered assistance and surface EMG to determine the motor learning processes of patients
receiving the two practice frequencies of RT.
This comparative efficacy study will be the first to examine and compare the motor learning
processes and immediate and long-term effects between condensed and distributed RT post BoNT
injection. The results may provide clinicians with the appropriate methods to scheduling RT
following BoNT-A injection to improve upper limb functions for patients with hemiplegic
spasticity stroke.
Patients with spasticity are thought to have greater levels of disability, poorer quality of
life, and more caregiver burden than patients without spasticity. Thus, the treatment of
spasticity, particularly of the upper limb, is one of the important issues in post-stroke
rehabilitation. Botulinum toxin A (BoNT-A) injection becomes the most widely used for
managing focal spasticity.(de Paiva, Meunier, Molgo, Aoki, & Dolly, 1999) There was a large
body of evidence supporting the efficacy of BoNT-A on post-stroke spasticity (Bhakta, Cozens,
Chamberlain, & Bamford, 2000; Elia, Filippini, Calandrella, & Albanese, 2009). However, the
effect of BoNT on active function remains uncertain (Foley et al., 2013; Sheean, 2001).
Patients with spasticity might use abnormal motor program to perform their movements. Once
the spasticity is reduced by BoNT-A, the established abnormal program could no longer direct
the movement execution, resulting in difficulty in performing movement or task.
Evidence-based behavioral approaches with accurate sensorimotor input post BoNT-A injection
programs might help patients relearn motor control and reestablish correct motor program,
and, thus, optimize spasticity treatment outcomes. Robotic therapy (RT) has been proved
effective in patients with moderate and severe arm weakness after stroke. RT is a novel
approach to stroke rehabilitation that uses intensive, repetitive, interactive, and
individualized practice as an optimal strategy to enhance motor learning. (Mirelman A, Bonato
P, Deutsch JE. Effects of training with a robot virtual reality system compared with a robot
alone on the gait of individuals after stroke. Stroke. 2009;40:169 -174. 5. Brewer BR,
McDowell SK, Worthen-Chaudhari LC. Poststroke upper extremity rehabilitation: a review of
robotic systems and clinical results. Top Stroke Rehabil. 2007;14:22- 44). An increasing
number of efficacy studies have shown that RT had positive impacts on upper limbs motor
function and strength in stroke survivors (Hsieh et al., 2016; Hung et al., 2016; Kwakkel,
Kollen, & Krebs, 2008; Mehrholz, Platz, Kugler, & Pohl, 2009; Prange, Jannink,
Groothuis-Oudshoorn, Hermens, & IJzerman, 2006). One study that investigated the
effectiveness of BoNT-A injection combined with RT (Pennati, Da Re, Messineo, & Bonaiuti,
2015) showed that the hybrid approach reduces spasticity and improved motor performance in
patients with chronic stroke. The key element leading to effective intervention for RT is the
high-intensity, repetitive, task-specific practices. As well as treatment intensity, the
scheduling of training is also shown to influence skills acquisition. Massed practice refers
to a practice schedule that allows no periods of rest in between practice, whereas
distributed practice refers to a schedule where periods of practice are interspersed with
periods of rest (Verdaasdonk, Stassen, Van Wijk, & Dankelman, 2007). Distributed practice has
been demonstrated to benefit complex psychomotor skills acquisition in motor
learning,(Mackay, Morgan, Datta, Chang, & Darzi, 2002) including skills transfer. In order to
develop the optimal RT schedule following BoNT-A injection, we should consider the duration
of BoNT-A effect. It was known that the antispastic effect of one BoNT-A injection usually
lasted for 3-4 months, and the effect tended to decrease since 2 months post-injection. When
provided in a fixed dosage, we did not know should we condense the training program within 2
months post-injection, when there was great effect of BoNT-A, or distribute the training
program within 4 months to across the whole effective period of BoNT-A. Therefore, the aims
of this study are to determine and compare the immediate / maintained effects between
condensed and distributed training programs of RT following BoNT-A injection in subjects with
spastic hemiplegic stroke.
Participants with stroke will be recruited from a rehabilitation department of tertiary
referral hospital. Patients who have spastic hemiplegic stroke are screened for eligibility
to join the study. The inclusion criteria are: (1) clinical and imagine diagnosis of a first
or recurrent unilateral stroke ≥ 6 months; (2) upper limb spasticity (modified Ashworth scale
of ≥ 1+ for elbow flexor and/or forearm pronator and/or finger flexor and/or wrist flexor
muscles (Bohannon & Smith, 1987); (3) initial motor part of UE of FMA score ranging from 13
to 56, indicating moderate to severe movement impairment (Duncan, Goldstein, Matchar, Divine,
& Feussner, 1992; Fugl Meyer, Jaasko, & Leyman, 1975; Park, Wolf, Blanton, Winstein, &
Nichols-Larsen, 2008); (4) no serious cognitive impairment (i.e., Mini Mental State Exam
score > 20) (Teng & Chui, 1987); (5) age ≥ 18 years ; and (6) willing to provide written
informed consent. Participants are excluded if they are pregnant, or with bilateral
hemispheric or cerebellar lesions, sever aphasia, significant visual field deficits or
hemineglect, contraindication for BoNT-A injection, treatment with BoNT-A within 4 months
before recruitment, any fixed joint contracture of the affected upper limb, or a history of
orthopedic or other neurological diseases and/or medical conditions that would prevent
adherence to the rehabilitation protocol. To minimize possible confounding effects of upper
limb motor ability, we will stratify participants into groups based on upper limb motor
function (FMA UE score: 13-40 or a FMA UE score: 41-56) (Luft et al., 2004; Thielman,
Kaminski, & Gentile, 2008). Intervention BoNT-A injections Injections are administered at
baseline by 1 of 2 senior rehabilitation physicians who have more than 10 years of experience
of BoNT-A injection. Doses and muscles selected for BoNT-A injection are individualized on
the basis of the spasticity patterns, severity of spasticity, and treatment goals. Botox
brand BoNT-A Purified Neurotoxin Complex, (Allergan Pharmaceuticals, Irvine, CA) is used in
this study. Location of the targeted muscle is confirmed by using echo guide. After injection
with BoNT-A, patients will receive different frequency schedule of treatment according to
their group allocation. Participants in the condensed group receive 4 sessions per week for 6
weeks and participants in the distributed practice group attende 2 sessions per week for 12
weeks. During each session, participants receive 45 minutes of repetitive RT with the
InMotion 2.0 robot (Interactive Motion Technologies Inc., Watertown, MA), followed by 30
minutes of transition-to-task practice. The outcome measures were in accordance with the
International Classification of Functioning, Disability and Health (ICF) framework published
by the World Health Organization World Health. Body function and structures outcome measures
include Fugl-Meyer Assessment (FMA), Modified Ashworth Scale(Masiero et al., 2006). Activity
and participation measures include Wolf Motor Function Test (WMFT), Motor Activity Log (MAL),
Canadian Occupational Performance Measure (COPM) and Goal attainment scale (GAS). Evaluators
are blind to group allocation. The outcomes are measured at 4 time points: before
intervention, mid- intervention, post intervention, and 6 weeks after intervention, except
the MAL which is measured before intervention, post intervention, and 6 weeks after
intervention. Body function and structures measures Fugl-Meyer Assessment (FMA) The
upper-extremity (UE) subscale of the FMA is used to assess neuromusculoskeletal and movement
related functions. It consists of 33 upper extremity items for the reflexes and movement of
shoulder, elbow, forearm, wrist, hand, and coordination/speed. They are scored on a 3-point
ordinal scale (0-cannot perform, 1-performs partially, 2-performs fully)(Fugl Meyer et al.,
1975). Higher score indicates better motor function of UE, and the maximum score is 66.
Satisfactory psychometric properties of the FMA have been demonstrated(Platz et al., 2005)
Modified Ashworth Scale (MAS) Spasticity of skeletal muscle in upper extremity is evaluated
by using the MAS scale (Bohannon & Smith, 1987). It uses a 6-point scale to score the
resistance to passive movement for each join with higher score indicating higher spasticity.
The MAS has shown good reliability and validity (Pandyan et al., 1999). Activity and
participation measures Wolf Motor Function Test (WMFT) The WMFT is a quantitative measure of
upper extremity motor ability through timed and functional tasks (Uswatte, Taub, Stuss,
Winocur, & Robertson, 1999). The WMFT includes 17 tasks (15 function-based and 2
strength-based). Performances were timed and rated by using a 6-point ordinal scale. The WMFT
has good interrater reliability and criterion validity in patients with UE hemiparesis
(Morris, Uswatte, Crago, Cook, & Taub, 2001) . Motor Activity Log (MAL) The MAL is a
semi-structured interview to rate how well [quality of movement scale (QOM)] and how much
[amount of use scale (AOU)] they use their affected upper extremity in 30 daily activities
using a 6-point scale (Uswatte, Taub, Morris, Light, & Thompson, 2006). Higher scores
represent better performance. The MAL has established reliability, validity, and
responsiveness in patients with stroke(Uswatte et al., 2006; Uswatte, Taub, Morris, Vignolo,
& McCulloch, 2005; Van der Lee, Beckerman, Knol, De Vet, & Bouter, 2004). Canadian
Occupational Performance Measure (COPM) The COPM, a semi-structured interview, will be used
to assess a participant's perception of the performance in the areas of self-care,
productivity and leisure (Dedding, Cardol, Eyssen, & Beelen, 2004). The COPM can capture
information about activities that the participant wants, needs or is expected to perform. The
participant is asked to rate five most important activities on a 10-point scale for
performance, ranging from 1 (not at all able) to 10 (able to perform extremely well), and for
satisfaction, ranging from 1 (not at all satisfied) to 10 (extremely satisfied)(Dedding et
al., 2004). The COPM is a reliable, valid, and responsive outcome measure for practitioners
and researchers (Carswell et al., 2004). Goal attainment scale (GAS) The GAS is a useful
measure of participants' individual goals that could be achieved in the course of
intervention (L. Turner-Stokes, 2009). In the first session, the therapist will discuss with
the participants and their families to define the goals. Each goal is rated on a 5-point
scale ranging from -2 to +2 in the last session. The GAS enables the data to be placed on a
quantitative measurement scale and can be helpful for qualitative interpretation (L.
Turner-Stokes, 2009). Evidence of validity and responsiveness for the GAS was reported in
previous studies(Gordon, Powell, & Rockwood, 1999; Rockwood, Stolee, & FoxP, 1993) Data
Analysis Data are analyzed with PASW statistics 18 (SPSS Inc, Chicago, IL, USA). To examine
the baseline differences among three groups, the chi-square test is used for categorical data
and student t tests for continuous variables. We use mixed ANOVA to test the within subject
effect of time (4 measurement time points: pre-test, mid-test, post-test, follow-up) and to
test the between subject effect of group (two treatment groups: condensed treatment and
distributed treatment) and to test interaction effect between time and group. Pair wise
comparison with Bonferroni adjustments is used to examine the differences between measurement
time points.
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