Use of a metronome with variable beats to retrain walking in stroke survivors
As well as reducing independence, walking problems after stroke lead to lower daily activity, increasing risk of further stroke and health problems. A promising method of improving walking after stroke is through ‘auditory rhythmical cueing.’ which involves people walking to the rhythm of a sound beat.
An investigation of whether functional strength training can improve the ability of stroke survivors to walk and use their arm and hand at least 1 year after stroke
The Stroke Association funded a feasibility study into improving the treatment of a condition called 'drop foot', which was recently published in the medical journal, Disability & Rehabilitation: Assistive Technology.
Co-funded by the Stroke Association, a new review of the research into NIBS (non-invasive brain stimulation) for the recovery of leg movement and walking suggests that although it can bring about changes in leg function, the design of existing studies are very different, making it difficult to determine its effectiveness.
Project Grants are our most popular funding stream and cover the whole spectrum of stroke research - from prevention and risk factors, through to treatment and rehabilitation in a clinical setting and longer-term in the community. Find out more about our project grants awarded for 2016.
These summaries of our completed research projects highlight what work was undertaken, which aims were achieved and where the research is going next.
Following a stroke, many treatments are recommended by health professionals, such as medications to prevent another stroke or physiotherapy to help limb weakness. Stroke survivors often have other chronic illnesses and report finding it difficult to follow treatments recommended by their doctors, nurses and therapists.
To help plan the care of stroke survivors and their rehabilitation, health professionals usually use a scale called the Barthel Index (BI) to measure how well they can perform activites of daily living (ADLs).