Effect of Pressotherapy on Health Outcomes in Patients With Chronic Stroke

Not Applicable

Completed

• Conditions: Stroke
• Interventions: Device: GMove Suit; Behavioral: Normal therapy

• Registration Number: NCT05276453
• Lead Sponsor: University of Winchester

Brief Summary

This study intends to recruit stroke patients to either wearing a lower-limb compression (GMove) suit, daily, for 12 weeks, or to a normal therapy control group. Vascular, functional and quality of life outcomes will be collected before and after randomisation.

Detailed Description

Background/Rationale Stroke is a leading cause of adult disability in the UK, with over 1.2 million people living with the debilitating effects. It is estimated that approximately three quarters of individuals with stroke have fallen in the six months following discharge from hospital, and more recent research suggests that falls rates remained as high as 50% amongst those living in the community following stroke. With falls costing the National Health Service approximately £1.7 billion per year, neurorehabilitation is vital in order to improve balance and prevent falls in the stroke population. Evidence suggests that a key component of improving balance and mobility is through task-specific training that incorporates actual walking practice and lower limb muscle strengthening.

Dynamic pressotherapy is defined as a movement of compression/decompression, associated with a physical effort at variable intensity, in order to stimulate venous return. The GMOVE Suit (CE Marked; GMOVE-SUIT - GMOVE SUIT; Appendix B) is a lower limb active pressotherapy device that may increase muscle activity and muscle tone, and support mobility renewal by stimulating the activation of lower-limb muscle pumping and muscle restraint during physical activity (via periods of compression/decompression of the device). In clinical populations, case studies with people with Ehlers-Danlos Syndrome, Parkinson's Disease, Spinal Cord Injury, Stroke and Multiple Sclerosis, have demonstrated improvements in proprioception, functional outcomes, including the 'Get Up and Go' test, knee stability and control, and walking with greater hip and knee extension following regular usage of the GMOVE Suit.

Due to the portability of the device, there is substantial potential to use the GMOVE Suit in a home-based rehabilitation environment, whereby participants would have the potential to engage in daily physical activity whilst wearing the device. As the GMOVE Suit may encourage an increase in physical activity, there could be substantial benefit in stroke patients engaging in a structured (as determined by a neuro-physiotherapist), home-based rehabilitation programme which may improve vascular health (e.g., blood pressure), functional outcomes (walking speed, walking endurance), balance and general quality of life.

Purpose The purpose of this research is to undertake a pilot randomised controlled study which will examine the effect of a home-based dynamic pressotherapy rehabilitation intervention, using the GMOVE Suit, on functional, vascular and quality of life parameters in individuals with chronic stroke.

Objectives

The objectives of this study are to:

1. Assess feasibility and patient adherence to using dynamic pressotherapy during home-based rehabilitation

2. Assess the effect of using dynamic pressotherapy on clinical functional outcomes of stroke patients

3. Assess the effect of using dynamic pressotherapy on balance and mobility of stroke patients

4. Assess the effect of using the dynamic pressotherapy on vascular outcomes (blood pressure, arterial stiffness) of stroke patients

5. Assess the effect of using dynamic pressotherapy on quality of life of stroke patients

Methods Thirty-two stroke patients will be recruited and randomised to either a dynamic pressotherapy (GMOVE Suit) group (n=16) or a usual care control group (n = 16). The inclusion/exclusion criteria are detailed elsewhere.

Research Design The baseline and post-intervention (PI) assessments will be conducted at the University of Winchester and Hobbs Rehabilitation. The rehabilitation training intervention will take place in participants' home. All outcome measures are detailed elsewhere

Randomisation and training programme On completion of the physio-specific measures participants will be randomised to either a dynamic pressotherapy group or to a usual care control using a computer-generated randomisation sequence (www.randomizer.org). Those participants randomised to the pressotherapy group will be familiarised with the GMOVE Suit and will trained how to use it by the physiotherapists. The rehabilitation programme will include activities such as walking, stepping, squats etc. Thereafter, participants will use the GMOVE Suit at home for 8 weeks. Every week they will receive feedback from the physiotherapists with regards to the necessary settings to encourage physical progression. In weeks 1, 3, 5 and 7 this will be in the form of a face-to-face session with the physiotherapists. In weeks 2, 4 and 6, this will be in the form of a video/phone call to discuss progress. These sessions are anticipated to take between 15 and 30 minutes each.

Study Timeline

• Study First Submitted: 2022-02-11
• Study First Submitted QC: 2022-03-02
• Study First Posted: 2022-03-11
• Study Start: 2022-04-01
• Primary Completion: 2022-07-30
• Study Completion: 2022-07-30
• Status Verified: 2024-03
• Last Update Submitted: 2024-03-12
• Last Update Posted: 2024-03-15

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 31

Inclusion Criteria

• Patients with clinical diagnosis of stroke (within 3 months and 7 years of diagnosis)
• Community patients that are medically stable
• Individuals who are able to stand and step (at least 10m) with (or without) an aid or assistance
• Cognitively aware of task demands

Exclusion Criteria

• Unresolved deep vein thrombosis
• Unstable cardiovascular conditions
• Open wounds
• Active drug resistant infection
• Recent fractures of involved limb
• Peripheral arterial disease
• Severe osteoporosis
• Non weight bearing
• Diabetes

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
GMove Suit	GMove Suit	Participants randomised to a group including normal therapy (physiotherapy) and the use of a lower-limb compression (GMove) Suit. All participants have previously completed normal NHS therapy.
Normal therapy	Normal therapy	Participants randomised to a group including normal therapy (physiotherapy) only. All participants have previously completed normal NHS therapy.

Primary Outcome Measures

Name	Time	Method
Augmentation Index	Baseline, up to 12 weeks after baseline.	Pulse wave analysis (PWA) will investigate augmentation index as a percentage following 15 minutes supine rest.
Central blood pressure	Baseline, up to 12 weeks after baseline.	Pulse wave analysis (PWA) will investigate central blood pressure in mmHg following 15 minutes supine rest.
Peripheral blood pressure	Baseline, up to 12 weeks after baseline.	Pulse wave analysis (PWA) will investigate peripheral blood pressure in mmHg following 15 minutes supine rest.
Pulse Wave Velocity	Baseline, up to 12 weeks after baseline.	Pulse wave velocity (PWV) will be recorded between the carotid (right and left) and femoral artery, brachial artery and femoral artery, and femoral artery and the anterior tibial artery. All PWV measures will be recorded in metres per second

Secondary Outcome Measures

Name	Time	Method
10 m walk test	Baseline, up to 12 weeks after baseline.	Participants asked to walk as fast as they between two cones situation 10 m apart. The shorter the time means the better the performance. Three trials will be performed.
Berg Balance	Baseline, up to 12 weeks after baseline.	14-item test that assesses static and dynamic balance ability and fall risk in adult populations. Each activity is scored from 0-4, determined by the ability to perform the assessed activity with an overall maximum score of 56.
Balance Confidence Scale	Baseline, up to 12 weeks after baseline.	16-item self-report measure in which patients rate their balance confidence when performing various ambulatory activities. Rated from 0-100. This scale has excellent test-retest reliability (ICC = 0.85) within the Stroke population and adequate correlations with the Functional Gait Assessment (r = 0.53) in community dwelling elderly (Winsley \& Kumar, 2010).
Functional Ambulation Classification	Baseline. Each assessment will take 2 minutes	Assesses functional ambulation in participants undergoing physical therapy. Ranges from non-functional walking to independent walking outside with a scale for 0-5 respectively. The Functional Ambulation Classification has excellent validity with the 6 minute walking test in acute Stroke patients
Height	Baseline, up to 12 weeks after baseline.	Height will be measured in centimetres using a stadiometer
Body Mass Index (BMI)	Baseline, up to 12 weeks after baseline.	Weight and height will be combined to report BMI in kg/m2.
6 minute walk test	Baseline, up to 12 weeks after baseline.	A 6-minute shuttle walk test will determine total distance walked in metres
Waist-to-Hip ratio	Baseline, up to 12 weeks after baseline.	Waist and Hip circumferences will be presented as a ratio
Sit to Stand	Baseline, up to 12 weeks after baseline.	Participant starts in a seated position and is asked to stand to upright before sitting back down. The participant is asked to do this 5 times as quickly as possible. The shorter the time the better the performance.
Time-Up-And-Go	Baseline, up to 12 weeks after baseline.	A stopwatch will be used to collect Timed-Up-and-Go data. From a seated position, participants will stand, walk to a cone 3 m away, walk around the cone, and walk back to the chair sit back down. Participants will complete two familiarisation trials prior to the actual test itself. A minimum of three trials will be performed.
Fugl-meyer assessment	Baseline, up to 12 weeks after baseline.	Upper and lower limb assessment of sensorimoter function
Weight	Baseline, up to 12 weeks after baseline.	Body weight will be measured in kilograms using weighing scales

Trial Locations

Locations (1)

University of Winchester; 🇬🇧 Winchester, Hampshire, United Kingdom