Stroke Clinical Trial
Official title:
A Randomised Controlled Study of Early vs. Late, and Unisensory vs. Multisensory Rehabilitation for Stroke Patients With Perceptual and Cognitive Impairments.
Stroke is the number one cause of disability in the United Nations with about 1 million new cases each year. Following stroke, patients with perceptual and cognitive impairments have the worst prognostic outcomes. There is evidence to suggest that perceptual and cognitive symptoms can be alleviated by multisensory integration, which has the effect of enhancing motor, perceptual and cognitive processes. This research project will investigate for the first time the functional benefits that stem from multisensory stimulation of attention in stroke patients with perceptual and cognitive impairments. The research project will involve multisensory learning paradigms with stimulus and environmental parameters that optimally enhance perceptual learning and cognitive function. Multisensory learning paradigms will be tailored for patients with stroke to determine the perceptual and cognitive symptoms that can be alleviated, and fMRI will be used to evaluate the underlying neural substrates of the effects. The project will show whether multisensory stimulation provides an effective means of attentional rehabilitation after stroke and whether the effects generalize to everyday life, with long-term outcomes that improve functional independence in patients with stroke.
Stroke is one of the major causes of death worldwide, second only to coronary disease, and it
is the leading cause of disability with patients needing long hospitalisation and long-term
community care (Mackay, Mensah, Mendin, & Greenlund, 2004). Stroke patients with perceptual
and cognitive impairments such as unilateral neglect are of particular concern as they have
among the worst prognostic outcomes (Di Monaco et al., 2011; Narasimhalu et al., 2011).
Unilateral neglect, commonly observed after brain damage of the right posterior parietal
cortex, is most often associated with reduced awareness of visual or auditory stimuli
presented to the contralesional (left) side of space (Humphreys & Riddoch, 2001),
particularly in the presence of competing stimuli on the ipsilesional (right) side (i.e.,
extinction) (Humphreys, Romani, Olson, Riddoch, & Duncan, 1994). This can manifest as a
failure to cancel lines on one side of a page ('neglect'). In milder cases the patient can
detect a single stimulus on the contralesional side but fails to detect the same item when
another item is presented simultaneously on the ipsilesional side ('extinction'). Currently
there is no consensus about optimal training strategies to alleviate neglect and extinction,
therefore, it remains important to attempt to develop new procedures that are effective in
the medium to long-term, that generalise outside the clinic and that are clinically
applicable.
Multisensory integration is a potentially important vehicle for neurorehabilitation because
it is known to generate large facilitative effects on information processing across a wide
range of individuals. For example, motor reaction times (RTs) are significantly faster
(Barutchu, Crewther, & Crewther, 2009; Barutchu, Freestone, Innes-Brown, Crewther, &
Crewther, 2013), and perceptual sensitivities (Stein, London, Wilkinson, & Price, 1996),
working memory and learning (e.g., Shams & Seitz, 2008), are enhanced in response to
spatially and temporally synchronous multisensory stimuli when compared with stimuli
presented in a single sensory modality. In addition, multisensory integration can be used to
compensate for unisensory decline in the elderly by restoring motor function to levels
generally observed in younger adults (e.g., Laurienti, Burdette, Maldjian, & Wallace, 2006).
Critically, recent evidence suggests that some stroke patients in general may benefit from
early post-stroke rehabilitation (Bai et al., 2012), and that some stroke patients with
heminopia can benefit from multisensory integration (e.g., Passamonti, Bertini, & Ladavas,
2009). These studies have also demonstrated that multisensory rehabilitation strategies can
have long lasting effects up to 1 year after initial training, and that improvements can
generalize to other daily activities, such as reading. However, it is unknown whether these
findings can be generalized to other types of perceptual and cognitive impairments. This
study will be the first to investigate the combined long-term effects of multisensory signals
and establish when is it more effective to intervene during the acute or chronic stage of the
disorder.
The aim of this project is to develop a novel approach to the remediation of neglect and
extinction by comparing multisensory integration with unisensory integration, and determining
whether it is best to intervene during the acute or chronic stage of the disorder. In
addition, the project will investigate the neural underpinning of functional recovery in
neglect patients, using fMRI.
The specific aims of this research project are:
- To assess if perception can be improved in stroke patients with unilateral
neglect/extinction as a result of multi- or uni-sensory integration, how well training
effects generalize to other tasks and their longevity when the rehabilitation is
delivered in the acute stage vs. the chronic stage of the disorder.
- To evaluate, using functional magnetic resonance imaging (fMRI), adaptive changes and
plasticity in brain networks following multisensory learning in patients with
neglect/extinction, so that an understanding is gained of the neural mechanisms linked
to functional recovery in neglect/extinction patients.
Description of the rehabilitation
A randomised control design, comparing individuals who will receive visual unisensory
stimulation alone (i.e., the control rehabilitation) and those who receive multisensory
stimulation (i.e., the experimental rehabilitation), will be used to assess the effects of
multisensory rehabilitation on learning, performance accuracy and speed in participants with
neglect/extinction. Participants with neglect/extinction will be recruited between 2 days - 2
months post stroke and randomly allocated into one of 4 groups: 2 stages post-stroke (acute
vs. chronic) x 2 rehabilitation types (unisensory vs. multisensory) (~20 participants per
group). Search and memory tasks will be developed where participants are presented with only
visual stimuli (e.g., objects - unisensory stimulation groups) or both visual stimuli and
sounds (multisensory stimulation groups). Participants will be presented with the stimuli and
asked to detect or remember the objects or their locations. Participant will have the option
of responding verbally or by pressing a button. Task will begin at an easy level (e.g., one
object being presented at a time) and gradually increase in difficulty as participant
performance improves (e.g., by increasing the number objects to be detected or remembered).
All participants will be subjected to 2 weeks of unisensory or multisensory rehabilitation (6
sessions approximately every second day). The rate of improvement across sessions will be
measured in order to judge the best training 'dose' to use in future clinical settings. To
gauge recovery, and its generalisation across other cognitive processes, and its long-term
carry over effects, participants will be assessed using the Birmingham Cognitive Screen
(BCoS) and the Oxford Cognitive Screen (OCS)(Humphreys, Bickerton, Samson, & Riddoch, 2012)
before and at 1- and 6-months post rehabilitation. The investigators will also include
measures of functional outcome (e.g., Stroke Impact Scale - SIS, and the Nottingham Extended
ADL test) and measures of quality of life QoL (for the participant and carer).
At the beginning of the study (screening phase), all participants will be screened to assess
their eligibility for the study and fMRI. Participants who meet the eligibility criteria will
be invited to participate in the rehabilitation program (study phase). Only participants who
meet the inclusion criteria for fMRI will be invited to have their brain scanned in study
phase before the rehabilitation and 1-month post rehabilitation. For the fMRI scan, T1, Flair
and DTI will be recorded and a simple detection task with auditory and visual stimuli will be
used to measure functional activity to unilateral and bilateral stimulus presentations.
There are no known potential risks of the study, other than the well known contra-indication
for MRI for participants who are invited to have their brain scanned, and the inconvenience
of attending up to nine sessions: one at screening phase, six during the study phase, and two
follow-up sessions at 1 month and 6 months following the completion of the 6th session in the
study phase.
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