Therapy incorporating a dynamic wrist-hand orthosis versus manual assistance in chronic stroke: a pilot study

Myoelectric Analysis of Dynamic Spring-Loaded Orthosis Training for Individuals With Stroke

IMPORTANCE

Poststroke patients have insufficient voluntary movement that is usually accompanied with spasticity, weakness, and abnormal muscle coactivation. A dynamic spring-loaded orthosis was designed to assist patients' finger movements via a steel wire spring, but relevant evidence for muscle contractions by electromyographic (EMG) activity while the orthosis is worn is lacking.

OBJECTIVE

To explore muscular activity and muscular coactivation during orthosis use.

DESIGN

A 2 (orthosis condition: wearing vs. free) × 2 (hand condition: affected side vs. unaffected side) mixed repeated-measures experimental design.

SETTING

Rehabilitation clinic.

PARTICIPANTS

Thirty participants with a diagnosis of stroke were enrolled.

OUTCOME AND MEASURES

The surface EMG of the flexor digitorum superficialis (FDS) and extensor digitorum common (EDC) was recorded in isometric and dynamic tasks. Two dependent variables, normalized electromyography (nEMG) and cocontraction index (CCI), were calculated.

RESULTS

The nEMG of the EDC and FDS of the affected side were significantly higher in the wearing condition than in the free condition. The nEMG of the EDC of the affected hand was significantly higher than that of the unaffected hand during dynamic activities but not during isometric activities. CCI was significantly lower on the affected side than on the unaffected side in the wearing condition.

CONCLUSIONS AND RELEVANCE

Muscular contraction significantly increased during dynamic orthosis use. The efficacy of the dynamic orthosis in muscle strength training (concentric resistance training of finger flexors and eccentric resistance training of finger extensors) for stroke patients was supported. Plain-Language Summary: People who have experienced a stroke have insufficient voluntary movement that is usually accompanied by spasticity, weakness, and abnormal muscle coactivation. This study explored muscular activity and muscular coactivation for stroke patients using a dynamic spring-loaded hand orthosis that was designed to assist patients' finger movements via a steel wire spring. The study found that muscular contraction significantly increased when the dynamic orthosis was worn than when it was not worn during grasp-and-release tasks. The study results support the efficacy of the dynamic orthosis in muscle strength training for stroke patients. Dexterous movement improvements will contribute to achieving functional independence for poststroke patients.

Effects of wearable device training on upper limb motor function in patients with stroke: a systematic review and meta-analysis

OBJECTIVE

To evaluate the effect of wearable device training on improving upper limb motor function in patients who experienced strokes.

METHODS

The PubMed, Embase, Cochrane Library, Web of Science, MEDLINE, SCOPUS, China National Knowledge Infrastructure, WanFang, and VIP databases were searched for randomized controlled trials (RCTs) that assessed the effectiveness of wearable device training in improving upper limb motor function in patients with stroke. Two investigators independently screened studies by their titles and abstracts and cross-checked, downloaded, and evaluated the results. Disagreements were resolved by a third highly experienced researcher. Risk of bias was evaluated using the Cochrane risk-of-bias tool. This meta-analysis was registered in PROSPERO (registration No. CRD42023421633).

RESULTS

This study comprised 508 patients from 14 RCTs. The experimental group assessed various wearable devices, including 3D-printed dynamic orthoses, inertial measurement unit (IMU) sensors, electrical stimulation devices, and virtual reality (VR) devices for virtual interactive training. The control group received traditional rehabilitation therapies, including physical and conventional rehabilitation. The experimental group scored better on the Fugl-Meyer Assessment (FMA-UE) scale (standardized mean difference [SMD] 0.26, 95% confidence interval [CI] 0.07, 0.45) and Box and Block Test (BBT) (SMD 0.43, 95% CI 0.17, 0.69) versus controls. No significant intergroup differences were observed in the Action Research Arm Test (SMD 0.20, 95% CI -0.15, 0.55), motor activity log (mean difference [MD] 0.32, 95% CI -0.54, 0.33), and modified Ashworth scale (MD -0.08, 95% CI -0.81, 0.64). The probability rankings of wearable devices that improved FMA-UE scores in patients with stroke were: orthotic devices, with the highest probability ranking of 0.45, followed by sensor devices at 0.23, electrical stimulation devices at 0.21, and VR devices at 0.11.

CONCLUSIONS

Wearable device training was found to significantly improve upper limb motor function in patients with stroke, particularly for large-range movements. Improvements in FMA-UE and BBT scores reflected reduced impairment and enhanced manual dexterity, respectively. However, the training had no significant effect on hand movement frequency, fine motor skills, or spasticity. Among the different wearable devices tested, orthoses produced the most effective results.

The Effectiveness of Upper Extremity Orthotic Interventions on Performance Skills and Performance of Occupations for Adults after Stroke: A Scoping Review

The objective of this study was to determine the effectiveness of upper extremity orthoses on improving performance skills and performance of occupations after stroke. Databases searched included CINAHL, PubMed, and OT Seeker. Articles were included if published between 2012 to 2022, English, peer-reviewed, level of evidence IB, IIB, or IIIB, and included upper extremity orthoses, adults after a stroke, and performance skill and performance of occupation outcome measures; six studies meet inclusion criteria. Moderate strength of evidence supports the usage of dynamic upper extremity orthoses to improve performance skills, although they do not improve performance of occupations for adults after stroke. Evidence suggests practitioners should utilize dynamic orthoses concurrently with tasks that promote performance skills such as gripping, pinching, grasping, and reaching during interventions to promote upper extremity use after stroke. Additional research is needed to further justify the use of upper extremity orthoses for performance of occupations after stroke.

Effectiveness of a New 3D-Printed Dynamic Hand-Wrist Splint on Hand Motor Function and Spasticity in Chronic Stroke Patients

Spasticity, a common stroke complication, can result in impairments and limitations in the performance of activities and participation. In this study, we investigated the effectiveness of a new dynamic splint on wrist and finger flexor muscle spasticity in chronic stroke survivors, using a randomized controlled trial. Thirty chronic stroke survivors were recruited and randomly allocated to either an experimental or control group; 25 completed the 6-week intervention program. The participants in the experimental group were asked to wear the dynamic splint at least 6 h/day at home, for the entire intervention. The participants in the control group did not wear any splint. All the participants were evaluated 1 week before, immediately, and after 3 and 6 weeks of splint use, with the modified Ashworth scale and the Fugl−Meyer assessment for upper extremity. User experience was evaluated by a self-reported questionnaire after the 6-week intervention. The timed within-group assessments showed a significant reduction in spasticity and improvements in functional movements in the experimental group. We found differences, in favor of the experimental group, between the groups after the intervention. The splint users indicated a very good satisfaction rating for muscle tone reduction, comfort, and ease of use. Therefore, this new splint can be used for at-home rehabilitation in chronic stroke patients with hemiparesis.

Characterization of muscle strength using the strength domain of the stroke impact scale: An integrative review

BACKGROUND AND OBJECTIVE: Muscle weakness is among the most common and obvious impairments in older adults and individuals with neurologic disorders. Although impairments in muscle strength are typically characterized using performance measures, the impairments have also been described using patient or observer-report. The objective of this review was to summarize literature describing use of a patient-report instrument, the Strength Domain (SD) of the Stroke Impact Scale (SIS), to grade strength impairments. METHODS: Peer-reviewed literature reporting SD scores for the SIS was identified using computerized searches of the CINAHL, PubMed, and Scopus databases followed by hand searches. Potentially relevant articles were then mined for data on the participants tested, the SIS version used, scores documented, and clinimetric properties reported. RESULTS: Sixty-five articles were judged appropriate based on inclusion and exclusion criteria. The articles involved more than 7000 residents of 22 countries. All articles focused on individuals with stroke (usually chronic), although one also included community-dwelling adults without stroke. The SIS version used was frequently unreported, but 3.0 was version most often specified. For articles reporting SD scale scores the mean ranged from 19.7 to 85.5. Construct (known groups, convergent, and discriminant) validity of the SD was supported by the literature as was its internal consistency and test-retest reliability. Responsiveness of the SD was evinced by numerous studies showing increases in SD scores with time or accompanying effective interventions. However, only one study indicated responsiveness using an anchor-based statistic. CONCLUSIONS: The SD of the SIS is a well-established and mostly clinimetrically sound patient-report measure of paretic limb strength among individuals with stroke. Its use with individuals with weakness accompanying aging or diagnoses other than stroke remains to be substantiated.

Dynamic hand orthoses for the recovery of hand and arm function in adults after stroke: A systematic review and meta-analysis of randomised controlled trials

Background: Repetitive, functional-based rehabilitation is recommended after stroke. However, impaired active digital extension is common after stroke, which limits functional-based rehabilitation and recovery. Non-robotic dynamic hand orthoses (DHOs) may address this.Objectives: We did a systematic review and meta-analysis to determine whether non-robotic DHOs improve upper limb recovery after stroke in comparison to i)placebo or no intervention and ii)usual care.Methods: We followed PRISMA guidelines. We included randomized controlled trials (RCTs) assessing upper limb recovery associated with the use of non-robotic DHOs in adults after stroke. Outcomes of interest were functional upper limb movement and activities of daily living.We performed searches on 27 September 2019 in 10 bibliographic databases including Cochrane Stroke Groups Specialized Trials Register and Cochrane Central Register of Controlled Trials. We also searched gray literature and citations from included studies.Two reviewers independently screened abstracts and full text, extracted data and assessed risk of bias using a Cochrane risk of bias tool.Results: We reviewed 7225 titles and included four studies involving 56 randomized participants, all with a high risk of bias. A positive effect in favor of non-robotic DHOs was observed for two outcomes; upper limb function (mean difference (MD) 6.23, 95% confidence interval (CI) 0.28-12.19 (p = 0.04)) and dexterity (MD 2.99, 95% CI 0.39-5.60 (p = 0.02).Conclusions: The results are encouraging but included studies were small with high risk of bias meaning there is currently insufficient evidence that non-robotic DHOs improve upper limb recovery after stroke.Review Registration: PROSPERO, CRD42020179180. Registered on 20 May 2020.

Understanding people’s experiences of using the SaeboFlex® following a stroke

Introduction

This qualitative interpretive phenomenological study sought to understand the experiences of people using the SaeboFlex®, within an outpatient setting, following a stroke.

Method

Five adults who had experienced a stroke and had received the SaeboFlex® from occupational therapists in one outpatient service within the previous 12 months were recruited using convenience sampling. Semi-structured interviews were conducted, recorded, transcribed verbatim, and analysed using Braun and Clarke’s thematic analysis.

Results

Three themes emerged from the data: (a) hope for upper limb recovery: ‘you have got nothing to lose’; (b) the everyday experience of the SaeboFlex®: ‘just keeping it in a routine’; (c) the self-reported outcomes: ‘I can do more things you know … but there haven’t been any miracles’.

Conclusion

The findings highlight the important role of hope in the recovery of people following a stroke, and that participants continue to use the device despite limited goal achievement. The reports of limited transfer of training into everyday occupations, either with or without the device, is something that should be carefully considered. The SaeboFlex® is a tool that is promoted for upper limb rehabilitation, but which has limited evidence of effectiveness and mixed client experiences. Further research is required.

Home program practices for supporting and measuring adherence in post-stroke rehabilitation: a scoping review

BACKGROUND

After stroke, individuals face a variety of impairments that impact function. Increasingly, rehabilitation for these impairments has moved into the community and home settings through the use of home programs. However, adherence to these programs is often low, limiting effectiveness.

OBJECTIVE

This scoping review investigated home program implementation and measurement of adherence with persons post-stroke to identify commonly reported practices and determine areas for further research.

METHODS

The electronic databases of PubMed, CINAHL, Scopus, Cochrane Database of Systematic Reviews, and PEDro were searched. Studies focused on post-stroke rehabilitation with an independent home program were selected. Qualitative studies, commentaries, and single-case studies were excluded. Title and abstract screenings were completed by two reviewers with a third for tie-breaking. The full-text review was completed by two reviewers using consensus to resolve any differences. Of the 1,197 articles initially found only 6% (n = 70) met criteria for data extraction. Elements for data extraction included: type of study, area of intervention, description of home program, presence of strategies to support adherence, methods to measure adherence and reported adherence.

RESULTS

Most commonly reported strategies to support home practice were the use of technology, personalization, and written directions. Only 20 studies reported achieving adherence at or greater than 75% and 18 studies did not report adherence outcomes.

CONCLUSIONS

Future investigations that directly compare and identify the most effective strategies to support adherence to home programs for this population are warranted. The implementation of guidelines for reporting adherence to home programs is recommended.

Effectiveness of Upper Limb Wearable Technology for Improving Activity and Participation in Adult Stroke Survivors: Systematic Review

BACKGROUND

With advances in technology, the adoption of wearable devices has become a viable adjunct in poststroke rehabilitation. Upper limb (UL) impairment affects up to 77% of stroke survivors impacting on their ability to carry out everyday activities. However, despite an increase in research exploring these devices for UL rehabilitation, little is known of their effectiveness.

OBJECTIVE

This review aimed to assess the effectiveness of UL wearable technology for improving activity and participation in adult stroke survivors.

METHODS

Randomized controlled trials (RCTs) and randomized comparable trials of UL wearable technology for poststroke rehabilitation were included. Primary outcome measures were validated measures of activity and participation as defined by the International Classification of Functioning, Disability, and Health. Databases searched were MEDLINE, Web of Science (Core collection), CINAHL, and the Cochrane Library. The Cochrane Risk of Bias Tool was used to assess the methodological quality of the RCTs and the Downs and Black Instrument for the quality of non RCTs.

RESULTS

In the review, we included 11 studies with collectively 354 participants at baseline and 323 participants at final follow-up including control groups and participants poststroke. Participants' stroke type and severity varied. Only 1 study found significant between-group differences for systems functioning and activity (P≤.02). The 11 included studies in this review had small sample sizes ranging from 5 to 99 participants at an average (mean) age of 57 years.

CONCLUSIONS

This review has highlighted a number of reasons for insignificant findings in this area including low sample sizes and the appropriateness of the methodology for complex interventions. However, technology has the potential to measure outcomes, provide feedback, and engage users outside of clinical sessions. This could provide a platform for motivating stroke survivors to carry out more rehabilitation in the absence of a therapist, which could maximize recovery.

TRIAL REGISTRATION

PROSPERO CRD42017057715; https://www.crd.york.ac.uk/prospero/display_record.php?RecordID=57715.

Testing of a 3D printed hand exoskeleton for an individual with stroke: a case study

INTRODUCTION

Many individuals with stroke still have functional difficulties with their affected hand after going through a rehabilitation program. A 3D printed upper limb exoskeleton was designed for an individual who had a stroke. Functional and neuromuscular outcomes were measured using his affected hand with and without a 3D printed passive exoskeleton. The goal of this study was to determine the functional and neuromuscular changes induced by the 3D printed exoskeleton in a participant with stroke.

MATERIALS AND METHODS

The functional ability of the exoskeleton was assessed using the Fugl-Meyer Assessment and the Box and Block Test. Strength testing and muscle activation of the participant's forearms were measured during maximal voluntary contractions. Furthermore, EMG was measured during the Box and Block Test and satisfaction and usability of the 3D printed exoskeleton were assessed using standardized questionnaires.

RESULTS

The exoskeleton improved both the participant's Fugl-Meyer Assessment scores and Box and Block test scores compared to not wearing the device. The subject had increased EMG activation in his extensor when wearing the exoskeleton.

CONCLUSION

The inexpensive 3D printed exoskeleton was effective in assisting the participant with stroke during the functional assessments and has the potential to be used to help regain function of the hand in the home setting of an individual with stroke.IMPLICATIONS FOR REHABILITATIONA 3D printed passive hand exoskeleton may assist to accomplish rehabilitation outcomes by increasing function of the affected hand of patients with stroke.The use of this hand exoskeleton may be used to improve gross hand dexterity and assist with functional grasps during rehabilitation sessions with a lower patient's level of perceived exertion.The use of new antimicrobial 3D printing polymers can be effectively implemented to manufacture assistive devices to prevent skin infections during rehabilitation.

Nonsurgical Treatment Options for Upper Limb Spasticity

There are many nonsurgical treatment options for patients with upper limb spasticity. This article presents an algorithmic approach to management, encompassing evidence-based rehabilitation therapies, medications, and promising new orthotic and robotic innovations.

Pilot Study Combining Electrical Stimulation and a Dynamic Hand Orthosis for Functional Recovery in Chronic Stroke

OBJECTIVE

We investigated the effect of a combined neuromuscular electrical stimulation (ES) and dynamic hand orthosis (DHO) regimen with a group of people with chronic stroke to improve performance on specific daily tasks.

METHOD

Four people with chronic stroke participated in an ES-DHO regimen using the affected upper extremity 5×/wk for 6 wk. Outcome measures included grip strength, range of motion (ROM), and analysis of muscle activation-deactivation during release of grasp through electromyography. Ability to perform specific daily living tasks was assessed using the Assessment of Motor and Process Skills (AMPS).

RESULTS

Results suggested that improvements in strength, ROM, and grasp deactivation are possible with the combined ES-DHO regimen. All participants' AMPS motor scores improved.

CONCLUSIONS

An ES-DHO regimen may improve motor skills needed for functional task performance in people with chronic stroke. Results should be interpreted cautiously because of the pilot nature of the study and the small sample size.

Evaluation of a functional hand orthosis combined with electrical stimulation adjunct to arm-hand rehabilitation in subacute stroke patients with a severely to moderately affected hand function

PURPOSE

To investigate the usability and effectiveness of a functional hand orthosis, combined with electrical stimulation adjunct to therapy-as-usual, on functional use of the moderately/severely impaired hand in sub-acute stroke patients.

MATERIALS AND METHODS

Single case experiment (A-B-A'-design) involving eight sub-acute stroke patients. The functional hand orthosis and electrical stimulation were used for six weeks, four days/week, 45'/day.

OUTCOME MEASURES

Action_Research_Arm_Test, Intrinsic_Motivation_Inventory.

RESULTS

At group level, patients improved 19.2 points (median value) (interquartile range: [8.8, 29.5] points) on the Action_Research_Arm_Test (p = 0.001). After correcting for spontaneous recovery and/or therapy-as-usual effects Action_Research_Arm_Test scores still improved significantly (median: 17.2 points; interquartile range: [5.1, 29.2] points) (p = 0.002). At individual level, six patients had improved as to arm-hand skill performance at follow-up (p < = 0.010). In one patient, arm-hand skill performance improvement did not attain statistical significance. In another patient, no arm-hand skill performance improvement was observed. Average Intrinsic_Motivation_Inventory sub-scores were between 4.6 and 6.3 (maximum: 7), except for 'perceived pressure/tension' (3.3).

CONCLUSION

Sub-acute stroke patients who display only little/modest improvement on their capacity to perform daily activities, seem to benefit from training with a dynamic arm orthosis in combination with electrical stimulation. Patients' perceived intrinsic motivation and sense of self-regulation was high. Implications for rehabilitation Arm-hand training featuring the dynamic hand orthosis in combination with electrical stimulation shows a shift from no dexterity to dexterity. As to the users' experience regarding the dynamic hand orthosis, patients perceive a high-intrinsic motivation and sense of self-regulation. Combining the orthosis with electrical stimulation creates opportunities for a nonfunctional hand towards task-oriented training.

It takes two: noninvasive brain stimulation combined with neurorehabilitation

The goal of postacute neurorehabilitation is to maximize patient function, ideally by using surviving brain and central nervous system tissue when possible. However, the structures incorporated into neurorehabilitative approaches often differ from this target, which may explain why the efficacy of conventional clinical treatments targeting neurologic impairment varies widely. Noninvasive brain stimulation (eg, transcranial magnetic stimulation [TMS], transcranial direct current stimulation [tDCS]) offers the possibility of directly targeting brain structures to facilitate or inhibit their activity to steer neural plasticity in recovery and measure neuronal output and interactions for evaluating progress. The latest advances as stereotactic navigation and electric field modeling are enabling more precise targeting of patient's residual structures in diagnosis and therapy. Given its promise, this supplement illustrates the wide-ranging significance of TMS and tDCS in neurorehabilitation, including in stroke, pediatrics, traumatic brain injury, focal hand dystonia, neuropathic pain, and spinal cord injury. TMS and tDCS are still not widely used and remain poorly understood in neurorehabilitation. Therefore, the present supplement includes articles that highlight ready clinical application of these technologies, including their comparative diagnostic capabilities relative to neuroimaging, their therapeutic benefit, their optimal delivery, the stratification of likely responders, and the variable benefits associated with their clinical use because of interactions between pathophysiology and the innate reorganization of the patient's brain. Overall, the supplement concludes that whether provided in isolation or in combination, noninvasive brain stimulation and neurorehabilitation are synergistic in the potential to transform clinical practice.

Mental practice--triggered electrical stimulation in chronic, moderate, upper-extremity hemiparesis after stroke

OBJECTIVE

To determine the feasibility and impact of home-based, mental practice-triggered electrical stimulation among stroke survivors exhibiting moderate upper-extremity (UE) impairment.

METHOD

Five participants with moderate, stable UE hemiparesis were administered the Fugl-Meyer Assessment, the Box and Block Test, and the Activities of Daily Living, Hand Function, and overall recovery domains of the Stroke Impact Scale (Version 3). They were then administered an 8-wk regimen consisting of 1 hr of mental practice-triggered electrical stimulation every weekday in their home. At the end of every 2 wk, participants attended supervised stimulation to progress therapeutic exercises and stimulation levels and monitor compliance.

RESULTS

Six instances of device noncompliance were reported. Participants exhibited reduced UE motor impairment and increased UE dexterity and participation in valued activities.

CONCLUSION

The regimen appears feasible and had a substantial impact on UE impairment, dexterity, and participation in valued activities as well as perceptions of recovery.

Effect of custom-made and prefabricated orthoses on grip strength in persons with carpal tunnel syndrome

BACKGROUND

Based on the literature, patients with carpal tunnel syndrome are suggested to wear a custom-made wrist orthosis immobilizing the wrist in a neutral position. Many prefabricated orthoses are available on the market, but the majority of those do not assure neutral wrist position.

OBJECTIVES

We hypothesized that the use of orthosis affects grip strength in persons with carpal tunnel syndrome in a way that supports preference for custom-made orthoses with neutral wrist position over prefabricated orthoses.

STUDY DESIGN

Experimental.

METHODS

Comparisons of grip strength for three types of grips (cylindrical, lateral, and pinch) were made across orthosis types (custom-made, prefabricated with wrist in 20° of flexion, and none) on the affected side immediately after fitting, as well as between affected side without orthosis and nonaffected side.

RESULTS

Orthosis type did not significantly affect grip strength (p = 0.661). Cylindrical grip was by far the strongest, followed by lateral and pinch grips (p < 0.050). The grips of the affected side were weaker than those of the nonaffected side (p = 0.002).

CONCLUSIONS

In persons with carpal tunnel syndrome, neither prefabricated orthoses with 20° wrist extension nor custom-made wrist orthoses with neutral wrist position influenced grip strength of the affected hand. Compared to the nonaffected side, the grips of the affected side were weaker.

CLINICAL RELEVANCE

The findings from this study can be used to guide application of orthoses to patients with carpal tunnel syndrome.