Increasing intensity during treadmill walking does not adversely affect walking pattern or quality in newly-ambulating stroke patients: an experimental study

Recommended moderate to vigorous physical activity levels for people in the chronic phase of stroke can be achieved in outpatient physiotherapy: a multicentre observational study

BACKGROUND

Rehabilitation in the chronic phase of stroke should include 20 minutes of moderate to vigorous physical activity (MVPA). However, the level of compliance with MVPA guidelines in outpatient physiotherapy is unknown.

OBJECTIVES

To investigate (1) whether people in the chronic phase of stroke perform the recommended 20 minutes of MVPA during outpatient physiotherapy sessions in France, (2) whether the person's clinical characteristics influence MVPA time and (3) which interventions contribute to achievement of recommended MVPA time.

METHODS

This was a multicentre, cross-sectional observational study of routine outpatient physiotherapy sessions in France in people in the chronic phase of stroke. The main measures included MVPA time (determined using a heart rate monitor), clinical tests and types of physiotherapy interventions (recorded by external investigator during 2 sessions for each participant).

RESULTS

84 people in the chronic phase of stroke and 152 outpatient physiotherapy sessions in 29 outpatient clinics were included (2021-2022). Median (interquartile range) MVPA time was 25 (7-45) minutes across all sessions. Fifty-nine percent of the sessions fulfilled MVPA guidelines. Among clinical tests, only the Mini-Mental Scale Examination was significantly associated with MVPA time. Endurance, balance, and functional lower limb training were associated with the achievement of MVPA guidelines.

CONCLUSION

Outpatient physiotherapy sessions have the potential to meet the MVPA guidelines. Further research is needed to understand the variability of compliance with MVPA guidelines and to develop strategies to increase the integration of MVPA into outpatient physiotherapy sessions.

Spatiotemporal strategies adopted to walk at fast speed in high- and low-functioning individuals post-stroke: a cross-sectional study

BACKGROUND

Walking at fast speed is a gait training strategy post-stroke. It is unknown how faster-than-preferred pace impacts spatiotemporal gait characteristics in survivors with different functional abilities.

OBJECTIVE

To test the hypothesis that compared to high-functioning individuals, low-functioning individuals will be limited in modifying spatiotemporal gait parameters for walking at faster-than-preferred speed, and these limitations are associated with fear of falling.

METHODS

Forty-two adults, 17.6 ± 14.6 months post-stroke, traversed an instrumented walkway at preferred and fast speeds. Participants were categorized to a low-functioning group (LFG) (n = 20; <0.45 m/s) and high-functioning group (HFG) (n = 22; ≥0.45 m/s). Cadence, step length, stance time and spatiotemporal asymmetry measures were calculated. The Modified Falls-efficacy Scale examined fear of falling. Multivariate and correlational analysis tested hypotheses.

RESULTS

Increased speed from preferred to fast pace was significantly greater for HFG (0.27 ± 0.03 m/s) than LFG (0.10 ± 0.02 m/s) (p ≤ 0.001). Cadence gain from preferred to fast pace did not differ between groups. However, HFG exhibited greater change in paretic (∆6.1 ± 1.37 cm; p < .001) and non-paretic step lengths (∆4.5 ± 1.37 cm; p = .003) than LFG. Spatiotemporal asymmetry did not change for either group. Fear of falling had moderately positive correlation with ∆paretic step length (r = 0.43; p = .004) and ∆non-paretic step length (r = 0.32; p = .035).

CONCLUSIONS

While both low- and high-functioning individuals used a step-lengthening strategy to walk at faster-than-preferred speeds, the gain in step lengths was limited in low-functioning individuals and was partially explained by falls-efficacy.

High-intensity treadmill training and self-management for stroke patients undergoing rehabilitation: a feasibility study

BACKGROUND

Physical activity undertaken by stroke survivors is generally low. This trial investigated the feasibility of delivering a high-intensity treadmill and self-management program to people with stroke undergoing inpatient rehabilitation and determine whether physical activity, walking ability and cardiorespiratory fitness could be increased.

METHOD

A phase I, single-group, pre-post intervention study was conducted with stroke survivors undergoing inpatient rehabilitation who could walk. Participants undertook a high-intensity treadmill and self-management program for up to 30 min, three times a week for 8 weeks under the supervision of their usual physiotherapist. Feasibility was determined by examining compliance, satisfaction and adverse events. Clinical outcomes were amount of physical activity, walking ability, and cardiorespiratory fitness collected pre-training (week 0), post-training (week 8), and at follow-up (week 26).

RESULTS

Forty stroke survivors participated, completing 10 (SD 6) sessions, 94% at the specified training intensity, with high satisfaction and no adverse events related to the intervention. At week 8, participants completed 2749 steps/day (95% CI 933 to 4564) more physical activity than at week 0. Walking distance increased by 110 m (95% CI 23 to 196), walking speed by 0.24 m/s (95% CI 0.05 to 0.42), and VO2 peak by 0.29 ml/kg/min (95% CI 0.03 to 0.56). At week 26, increases in physical activity, walking distance and speed, and cardiorespiratory fitness were maintained.

CONCLUSIONS

A high-intensity treadmill training program embedded within a self-management approach during inpatient rehabilitation appears feasible and potentially may offer sustained improvements in physical activity, walking ability, fitness, and quality of life. A randomised trial is warranted.

TRIAL REGISTRATION

This feasibility study was registered with the Australian New Zealand Clinical Trials Registry ( ACTRN12613000764730 ).

Comparison of Irisin Serum Healthy Untrained Males on Treadmill Exercises by Increasing Gradually Speed Vs Inclination

Aerobic exercise can improve cardiorespiratory fitness in young people. Irises released into the bloodstream function to execute regulation of energy metabolism, triggering browning white adipose, which is useful in mitochondrial biogenesis. The American College of Sport Medicine (ACSM) recommends moderate intensity cardiorespiratory fitness training with a frequency of 3-5 times a week, duration of 20-60 minutes, using a treadmill. Study subjects (n = 20) were divided randomly into 2 groups, namely the moderate intensity Treadmill training group with gradual speed improvement and gradual inclination increase. Serum slices are measured on the first and last day of exercise. There was an increasing of irisin serum  in the moderate intensity Treadmill training group by increasing gradually speed after 2 weeks of exercise, both 30 minutes pre-exercise (p = 0.02) and 1 hour post exercise (p = 0.01). Medium intensity Treadmill training with 2 weeks gradual speed increase with frequency 3 times a week can increase serum slice in men, healthy untrained young men.

Cerebellar Transcranial Direct Current Stimulation for Motor Learning in People with Chronic Stroke: A Pilot Randomized Controlled Trial

Cerebellar transcranial direct current stimulation (ctDCS) is a non-invasive brain stimulation technique that alters neural plasticity through weak, continuous, direct currents delivered to the cerebellum. This study aimed to evaluate the feasibility of conducting a randomized controlled trial (RCT) delivering three consecutive days of ctDCS during split-belt treadmill training (SBTT) in people with chronic stroke. Using a double-blinded, parallel-group RCT design, eligible participants were randomly allocated to receive either active anodal ctDCS or sham ctDCS combined with SBTT on three consecutive days. Outcomes were assessed at one-week follow-up, using step length symmetry as a measure of motor learning and comfortable over-ground walking speed as a measure of walking capacity. The feasibility of the RCT protocol was evaluated based on recruitment, retention, protocol deviations and data completeness. The feasibility of the intervention was assessed based on safety, adherence and intervention fidelity. Of the 26 potential participants identified over four months, only four were enrolled in the study (active anodal ctDCS n = 1, sham ctDCS n = 3). Both the inclusion criteria and the fidelity of the SBTT relied upon the accurate estimation of step length asymmetry. The method used to determine the side of the step length asymmetry was unreliable and led to deviations in the protocol. The ctDCS intervention was well adhered to, safe, and delivered as per the planned protocol. Motor learning outcomes for individual participants revealed that treadmill step length symmetry remained unchanged for three participants but improved for one participant (sham ctDCS). Comfortable over-ground walking speed improved for two participants (sham ctDCS). The feasibility of the planned protocol and intervention was limited by intra-individual variability in the magnitude and side of the step length asymmetry. This limited the sample and compromised the fidelity of the SBTT intervention. To feasibly conduct a full RCT investigating the effect of ctDCS on locomotor adaptation, a reliable method of identifying and defining step length asymmetry in people with stroke is required. Future ctDCS research should either optimize the methods for SBTT delivery or utilize an alternative motor adaptation task.

Tools for observational gait analysis in patients with stroke: a systematic review

BACKGROUND

Stroke severely affects walking ability, and assessment of gait kinematics is important in defining diagnosis, planning treatment, and evaluating interventions in stroke rehabilitation. Although observational gait analysis is the most common approach to evaluate gait kinematics, tools useful for this purpose have received little attention in the scientific literature and have not been thoroughly reviewed.

OBJECTIVES

The aims of this systematic review were to identify tools proposed to conduct observational gait analysis in adults with a stroke, to summarize evidence concerning their quality, and to assess their implementation in rehabilitation research and clinical practice.

METHODS

An extensive search was performed of original articles reporting on visual/observational tools developed to investigate gait kinematics in adults with a stroke. Two reviewers independently selected studies, extracted data, assessed quality of the included studies, and scored the metric properties and clinical utility of each tool. Rigor in reporting metric properties and dissemination of the tools also was evaluated.

RESULTS

Five tools were identified, not all of which had been tested adequately for their metric properties. Evaluation of content validity was partially satisfactory. Reliability was poorly investigated in all but one tool. Concurrent validity and sensitivity to change were shown for 3 and 2 tools, respectively. Overall, adequate levels of quality were rarely reached. The dissemination of the tools was poor.

CONCLUSIONS

Based on critical appraisal, the Gait Assessment and Intervention Tool shows a good level of quality, and its use in stroke rehabilitation is recommended. Rigorous studies are needed for the other tools in order to establish their usefulness.

Maximum walking speeds obtained using treadmill and overground robot system in persons with post-stroke hemiplegia

Background

Previous studies demonstrated that stroke survivors have a limited capacity to increase their walking speeds beyond their self-selected maximum walking speed (SMWS). The purpose of this study was to determine the capacity of stroke survivors to reach faster speeds than their SMWS while walking on a treadmill belt or while being pushed by a robotic system (i.e. “push mode”).

Methods

Eighteen chronic stroke survivors with hemiplegia were involved in the study. We calculated their self-selected comfortable walking speed (SCWS) and SMWS overground using a 5-meter walk test (5-MWT). Then, they were exposed to walking at increased speeds, on a treadmill and while in “push mode” in an overground robotic device, the KineAssist, until they were tested at a speed that they could not sustain without losing balance. We recorded the time and number of steps during each trial and calculated gait speed, average cadence and average step length.

Results

Maximum walking speed in the “push mode” was 13% higher than the maximum walking speed on the treadmill and both were higher (“push mode”: 61%; treadmill: 40%) than the maximum walking speed overground. Subjects achieved these faster speeds by initially increasing both step length and cadence and, once individuals stopped increasing their step length, by only increasing cadence.

Conclusions

With post-stroke hemiplegia, individuals are able to walk at faster speeds than their SMWS overground, when provided with a safe environment that provides external forces that requires them to attempt dynamic stability maintenance at higher gait speeds. Therefore, this study suggests the possibility that, given the appropriate conditions, people post-stroke can be trained at higher speeds than previously attempted.

Higher-intensity treadmill walking during rehabilitation after stroke in feasible and not detrimental to walking pattern or quality: a pilot randomized trial

Objective: To determine whether higher-intensity treadmill walking during rehabilitation in those newly able to walk after stroke is feasible, is detrimental to walking or is beneficial.

Design: A single-blind, randomized trial.

Setting: Two rehabilitation units.

Participants: Thirty people with first stroke.

Interventions: Experimental group received 30 minutes of higher-intensity treadmill walking, three times per week for six weeks, in addition to usual physiotherapy. Control group received usual physiotherapy only.

Main outcome measures: Feasibility was measured by examining compliance and adverse events. Detriment to walking was measured by examining pattern and quality. Benefit to walking was measured as capacity using six-minute walk test and speed, at baseline (Week 0), immediately after (Week 6) and at three months (Week 18).

Results: Overall compliance was 89%, with no adverse events reported. There was no between-group difference in walking pattern and quality. By Week 6, the experimental group improved walking capacity by 62 m (95% confidence interval (CI) 10 to 114), comfortable walking speed by 0.18 m/s (95% CI 0.07 to 0.29) and fast walking speed by 0.18 m/s (95% CI 0.03 to 0.35) more than the control group. By Week 18, the experimental group was still walking 0.26 m/s (95% CI 0.12 to 0.41) faster than the control group.

Conclusions: Higher-intensity treadmill walking during rehabilitation after stroke is feasible and not detrimental to walking pattern and quality in those newly able to walk. 94 participants are required to detect a between-group difference of 75 m on six-minute walk test (α 0.05, β 0.90) in future trials.

Trial registration: ACTRN12607000412437

Treadmill walking with body weight support in subacute non-ambulatory stroke improves walking capacity more than overground walking: a randomised trial

QUESTIONS

Is treadmill walking with body weight support during inpatient rehabilitation detrimental to walking quality compared with assisted overground walking? Does it result in better walking capacity, perception of walking or community participation?

DESIGN

Analysis of secondary outcomes of a randomised trial with concealed allocation, assessor blinding and intention-to-treat analysis.

PARTICIPANTS

126 patients unable to walk within 4 weeks of a stroke who were undergoing inpatient rehabilitation.

INTERVENTION

The experimental group undertook up to 30 minutes of treadmill walking with body weight support via an overhead harness per day while the control group undertook up to 30 minutes of overground walking.

OUTCOME MEASURES

The secondary outcomes were walking quality and capacity, walking perception, community participation and falls.

RESULTS

Six months after entering the study, there was no difference between the groups of independent walkers in terms of speed (MD 0.10 m/s, 95% CI -0.06 to 0.26) or stride (MD 6 cm, 95% CI -7 to 19). The independent walkers in the experimental group walked 57 m further (95% CI 1 to 113) in the 6 min walk than those in the control group. The experimental group (walkers and non-walkers) rated their walking 1 point out of 10 (95% CI 0.1 to 1.9) higher than the control group. There was no difference between the groups in community participation or number of falls.

CONCLUSION

Treadmill training with body weight support results in better walking capacity and perception of walking compared to overground walking without deleterious effects on walking quality.

Optimising long-term participation in physical activities after stroke: exploring new ways of working for physiotherapists

There is now good empirical evidence of physical and functional benefits for individuals with stroke from long-term engagement in a range of physical activities. However, long-term participation of stroke survivors in physical activity after rehabilitation is low, and maximum benefits are not being achieved. This article reviews relevant literature and evidence, and suggests that physiotherapists are ideally placed to support patients in long-term participation in activity as they prepare patients for the end of physical rehabilitation. However, this requires the development, testing and application of stroke-specific evidence-based behavioural and motivational interventions that are feasible in clinical practice, take account of the role of carers, and seek to address the barriers to activity faced by stroke survivors at the end of rehabilitation. It also requires physiotherapists to take a leading role in developing appropriate policies and strategies with other exercise professionals and services to address the transition from rehabilitation to an active lifestyle following stroke.

Immediate effect of treadmill walking practice versus overground walking practice on overground walking pattern in ambulatory stroke patients: an experimental study

Objective: To determine whether 10 minutes of treadmill walking had a different effect on overground walking pattern compared with 10 minutes of overground walking in newly ambulatory stroke patients. Are any changes influenced by walking ability?

Design: A within-participant, repeated measures experimental study was conducted. Each participant carried out 10 minutes of overground walking practice followed by 10 minutes of treadmill walking practice at matched heart rate on separate days. Setting: An inpatient rehabilitation facility.

Subjects: Twenty-one participants receiving inpatient rehabilitation following stroke.

Measures: Overground walking pattern was measured as linear and angular kinematics using GAITRite and a two-dimensional webcam application respectively.

Results: Following treadmill walking practice, there was 6 degrees (95% confidence interval (CI) 2 to 10) more knee extension at heel strike during overground walking than following overground walking practice. Poorer walkers increased non-paretic limb step length following treadmill walking practice more than those with better walking ability (mean difference 2.2 cm, 95% CI 0 to 5).

Conclusions: Ten minutes of treadmill walking practice resulted in a similar overground walking pattern compared with overground walking practice in newly ambulatory stroke patients undergoing rehabilitation, regardless of walking ability.