Intensive Upper Limb Training in Chronic Stroke

Phase 2

Recruiting

• Conditions: Stroke
• Interventions: Behavioral: Queen Square Upper Limb Neurorehabilitation Programme; Device: Immersive gaming therapy

• Registration Number: NCT05527262
• Lead Sponsor: University College, London

Brief Summary

The evidence supporting routine provision of high-dose, high-intensity upper limb neurorehabilitation treatment for stroke survivors beyond the first few months after stroke is limited. The Queen Square Upper Limb (QSUL) programme provides 90 hours of upper limb neurorehabilitation over 3-weeks to chronic stroke survivors. The recently published service evaluation demonstrated encouragingly large, clinically meaningful effects at the level of activity and body function. An alternative way to deliver high doses of effective therapy is through technological developments, e.g. immersive interactive gaming environments such as the MindPod Dolphin programme.

The intention of this study is to provide stronger level evidence for intensive upper limb rehabilitation by conducting a randomised controlled trial of two different types of upper limb training compared to usual care. Patients considered suitable for the QSUL programme will be randomised to either: Group 1- intensive upper limb rehabilitation programme (QSUL); Group 2- MindPod programme; Group 3-wait-list control (who will be offered the treatment after the waiting list is complete).

The first aim of the study is to compare the effect of each type of high-dose, high-intensity upper limb training to usual care using measures of upper limb impairment and activity levels 3 months after treatment is complete.

The secondary aims are to comply with recent recommended by the Stroke Recovery and Rehabilitation Roundtable, and (i) investigate the effects of upper limb neurorehabilitation on kinematics of upper limb movement (using a KINARM exoskeleton), and (ii) use neuroimaging (MRI and EEG) and neurophysiological (TMS) measures to determine the characteristics of stroke survivors who are most likely to benefit from this treatment approach.

The results from this work will (i) help determine the impact of two methods of high dose, high intensity upper limb training in chronic stroke patients; (ii) identify whether there are any predictors of treatment response that will help stratify patients in future clinical trials of upper limb neurorehabilitation.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2022-06-29
• Study Start: 2022-07-04
• Study First Submitted QC: 2022-09-01
• Study First Posted: 2022-09-02
• Status Verified: 2024-11
• Last Update Submitted: 2024-12-06
• Last Update Posted: 2024-12-11
• Primary Completion: 2025-12-31
• Study Completion: 2026-12-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 105

Inclusion Criteria

1. A first-ever unilateral stroke (ischaemic or haemorrhagic) as defined by WHO at least 6-months previously;
2. Moderate upper limb impairment as defined by Fugl-Meyer Upper Extremity (Woodbury et al., 2013) score between 19-46 (to avoid ceiling and floor effects);
3. Must be able to voluntarily extend the thumb and/or 2 or more fingers of the affected hand (10° or more)

Exclusion Criteria

1. Other neurological diagnoses;
2. Serious communication, cognitive and language deficits (<7 on shortened version Montreal Cognitive Assessment or < 34 on Cognitive assessment scale for stroke patients);
3. Post-stroke frozen shoulder;
4. Increased muscle tone in wrist/finger extensors (≥3 on Modified Ashworth Scale);
5. Loss of passive range in any upper limb joints;
6. Fatigue of <30 on the Functional Assessment of Chronic Illness Therapy (FACIT) Fatigue Scale;
7. Apraxia score of <5 on the TULIA assessment;
8. Severe shoulder pain measured by Chedoke Impairment Inventory: Stage of Shoulder Pain 1, 2, and 3;
9. Vision impairment that impedes seeing the television screen

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Queen Square Upper limb training programme	Queen Square Upper Limb Neurorehabilitation Programme	Patients will undergo 45-60 hours of conventional physiotherapy and occupational therapy over 3 weeks as part of the Queen Square Upper Limb Neurorehabilitation Programme (QSUL) (Ward et al., 2019).
Mindpod Dolphin	Immersive gaming therapy	Patients will undergo 45-60 hours of arm, hand and finger training using immersive gaming technology (e.g. MindPod Dolphin) over 3 weeks.

Primary Outcome Measures

Name	Time	Method
Fugl Meyer Upper Extremity Assessment	Three-months follow-up	Upper limb motor impairment measure, with a minimum score of 0 and a maximum score of 60 (excluding reflexes, Woodbury et al., 2007). A higher score means a better upper limb motor impairment outcome.

Secondary Outcome Measures

Name	Time	Method
Fugl Meyer Upper Extremity Assessment	Baseline and 3 weeks post-intervention	Upper limb motor impairment measure, with a minimum score of 0 and a maximum score of 60 (excluding reflexes, Woodbury et al., 2007). A higher score means a better upper limb motor impairment outcome.
Action Research Arm Test	Baseline, 3 weeks post-intervention and three-months follow-up	Upper limb function and dexterity measure with a minimum score of 0 and a maximum score of 57. A higher score means a better upper limb function and dexterity outcome.
Chedoke Arm and Hand Activity Inventory (CAHAI-13)	Baseline, 3 weeks post-intervention and three-months follow-up	Upper limb function measure with a minimum score of 13 and maximum score of 91. A higher score indicating a better upper limb function outcome.
Stroke Impact Scale	Baseline, 3 weeks post-intervention and three-months follow-up	Disability and quality of life measure with a minimum score of 0 and a maximum score of 100. A higher score indicating a higher quality of life.
Quality of life (EQ-5D5L)	Baseline, 3 weeks post-intervention and three-months follow-up	Quality of Life measure with a minimum score of 1,1,1,1,5 and a maximum score of 5,5,5,5,5. A higher score means more severe and frequent problems.
The stroke self-efficacy questionnaire	Baseline, 3 weeks post-intervention and three-months follow-up	Self-efficacy measure involving 3-item self-report scale measuring self-efficacy judge- ments in specific domains of functioning post stroke. Individuals rate their belief in their ability to achieve each of the 13 items on a 10-point scale, where 0 = not at all confident to 10 = very confident
Fugl Meyer Sensory Evaluation	Baseline, 3 weeks post-intervention and three-months follow-up	Upper limb sensory function measure with a minimum score of 0 and a maximum score of 12 per domain. A higher score indicates a better somatosensory outcome.
Montreal Cognitive Assessment (MOCA)	Baseline, 3 weeks post-intervention and three-months follow-up	Cognitive impairment measure. The MoCA is scored out of 30 points. A score below 26 may indicate cognitive impairment.
Upper limb strength	Baseline, 3 weeks post-intervention and three-months follow-up	Dynamometry measure measuring pincer and power grip force.
Electroencephalography	Baseline and 3 weeks post-intervention	Cortico-cortical connectivity at rest and ascending somatosensory tract integrity evoked potential measures.
Transcranial magnetic stimulation	Baseline and 3 weeks post-intervention	Corticospinal tract integrity measures involving motor evoked potential recruitment curves of extensor carpi radialis and first dorsal interosseous muscles.
Magnetic Resonance Imaging (3T)	Baseline	Volumetric structural MRI including full lesion volume.
Kinematic measures- KINARM	Baseline, 3 weeks post-intervention and three-months follow-up	Kinematic parameter: 2D reaching (assessed using standardised KINARM tasks with scores below 1.96 considered to be within the normal range)
Kinematic measures- KINETIKOS	Baseline, 3 weeks post-intervention and three-months follow-up	Kinematic parameter: 3D reaching (assessed using standardised KINETIKOS scapulae movement task which measures the amount movement variability of the scapulae during an arm lift).
Finger individuation	Baseline, 3 weeks post-intervention and three-months follow-up	The ability to move fingers independently will be assessed using a customised task and an ergonomic device (Hummingbird, Mindmaze) that will independently measure finger strength and dexterity from all digits, in both flexion and extension movements. The device will obtain maximum voluntary force for each finger, and finger individuation, by measuring how much the non-instructed fingers participate when only one instructed finger needs to be moved independently

Trial Locations

Locations (1)

Nick Ward; 🇬🇧 London, United Kingdom