Retaining Short-term Training Effects on Gait Adaptability in People With Stroke

The Effect of Single Booster Sessions or Home-based Exercise Program for Individuals in the Chronic Phase After Stroke to Retain Short-term Training Effects on Gait Adaptability, a Study-protocol.

Status

UNKNOWN

Phases

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT05825053

Acronym

ATTAINS

Enrollment

Registered

2023-04-24

Start date

2023-04-30

Completion date

2025-12-31

Last updated

2023-04-24

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Stroke

Brief summary

Background: The majority of stroke survivors regain walking ability. However, the ability to adapt gait patterns to meet environmental demands remains impaired in a majority of people in the chronic phase after stroke. This impaired gait adaptability has a profound impact on activities of daily living and quality of life. Treatment targeting gait adaptability is therefore critical for safe and independent community ambulation in people with stroke. Augmented or virtual reality in rehabilitation programs can be used to train gait adaptability in a controlled situation. A few studies have evaluated gait adaptability training in people with stroke. Although results were promising, these studies did not include an adaptability-related outcome measure, or were limited to uncontrolled or small-scaled pilot studies. Moreover, it is unknown if beneficial training effects can be fostered for 1 year after completion of a training program. We evaluate the short-term effects of a 5-week gait adaptability training in an adequately powered, waiting-list controlled clinical trial \[ref naar clin trial nummer\]. In the current study, we focus on the retention of potentially beneficial effects of this 5 week gait adaptability training program. We will evaluate if short-term effects of gait adaptability training can be retained through single training sessions to boost performance, or by an home exercise program. We hypothesize that booster sessions and home-based exercise will both yield better retention of training effects at 1 year follow-up as compared to the control arm without an experimental intervention. Objective: The primary objective of this study is to test the hypothesis that retention of training-induced gains in gait adaptability can be fostered by providing booster sessions or by prescribing home-based training. Study design: Explorative randomized study, comparing the effect of 3 1-hr booster training sessions against home-based exercise against no intervention on gait adaptability performance 1 year after completion of a 5-week gait adaptability training program. Study population: Stroke patients in the chronic phase after stroke, who completed the 5-week gait adaptability training using the C-Mill and agreed to continue in this follow-up study. We expect this to be 50-75 participants.

Interventions

BEHAVIORALGait adaptability training

Over a span of 1 year participants will receive 3 one hour, single sessions at 3, 6 and 9 months following baseline assessment, of gait adaptability training, using the C-mill (an instrumented treadmill with augmented reality). Several aspects of gait adaptability, such as obstacle avoidance, accelerating/decelerating and precision stepping, will be trained.

BEHAVIORALHome-based exercise training

Participants will receive tailored exercise through an online platform targeting gait adaptability. Participants are instructed to train at a minimum of 60 minutes per week, with a frequency of 2 sessions per week. Participants will be supported through tele-consultations on a monthly basis for the first 3 months and bi-monthly for the remaining time of the study. These consultations are focused on technical support, on ways to ensure training progression and to encourage adherence to the program.

Study design

Allocation

RANDOMIZED

Intervention model

PARALLEL

Primary purpose

TREATMENT

Masking

SINGLE (Outcomes Assessor)

Eligibility

Sex/Gender

ALL

Age

18 Years to No maximum

Healthy volunteers

Inclusion criteria

* \> 6 months after first unilateral supratentorial stroke (chronic phase) * Able to walk at least 10 minutes independently * Initial involvement of the lower extremity after stroke. * Having completed (minimal 8/10 training sessions) the 5 week gait adaptability training program using the C-Mill

Exclusion criteria

* Any other neurological or musculoskeletal disease affecting gait or balance (e.g. Parkinson's disease, knee osteoarthritis) * Contractures or spasticity requiring other treatment (e.g. botulinum toxin treatment) within the duration of the training period. * Severe cognitive or visuo-spatial impairments limiting comprehension of instructions or correct perception of the environments

Design outcomes

Primary

Measure	Time frame	Description
Walking Adaptability Ladder Test (WALT) score	12 months post-baseline	Measure of gait adaptability. An adapted version for adults of the Walking Adaptability Laddertest for Kids (WAL-K) to assess the ability to flexibly adjust the gait pattern during overground walking. Outcome is based on performance time and foot placement errors measured in seconds where a lower score is a better outcome.
Emory Functional Ambulation Profile (EFAP) score	12 months post-baseline	Measure of gait adaptability. In this task the participants traverse a standardized 5m obstacle course. Outcome is time to perform the task measured in seconds where a lower score is a better outcome

Secondary

Measure	Time frame	Description
Walking performance	12 months post-baseline	Measure of walking ability using the 10meter walktest, measured in seconds where a lower score is a better outcome.
Balance confidence	12 months post-baseline	Evaluating balance confidence using the Activity Balance Scale, measured on a 0% - 100% scale, where a higher score is a better outcome.
Daily life gait performance as assessed by gait quality	12 months post-baseline	Measured by inertial measurement units placed on both feet and the lower back. Analysis through cusomized algorythms.
Lab-based walking adaptability test	12 months post-baseline	Measure of gait adaptability. Target stepping task using the Gait Real-time Analysis Interactive Lab (GRAIL) where participant must step on projected stepping stones as accurately as possible. Step width and step length between the stepping stones will vary.
Health-related quality of life	12 months post-baseline	Evaluating the disability and health-related quality of life after stroke using the Stroke Impact Scale mobility subscale, measure on a 5-point scale (could not do at all = 1 - not difficult at all = 5) where a higher score is a better outcome.
Balance performance through MiniBESTest	12 months post-baseline	Measure of balance and gait stability using the Mini Balance Evaluation Systems Test (MiniBESTes). Tasks are score on a 3-point scale. Outcome is an average score ranging between 0 and 1 where a higher score is a better outcome.
Daily life walking activity assessed by walking time per day	12 months post-baseline	Average time of walking during the day (minutes) measured in one week using the Activ8.
Balance performance	12 months post-baseline	Measure of gait stability, measured by the margin of stability (meter) and the center of mass excursion (meter), on treadmill walking with perturbations using the Gait Real-time Analysis Interactive Lab (GRAIL).

Countries

Netherlands

Contacts

Primary ContactMarijne Nieuwelink, MSc

m.nieuwelink@maartenskliniek.nl024-3272731

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026