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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT04866420
Other study ID # 201376
Secondary ID
Status Completed
Phase
First received
Last updated
Start date May 3, 2021
Est. completion date December 5, 2021

Study information

Verified date April 2022
Source Oxford Brookes University
Contact n/a
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

Mental fatigue is a major problem for stroke survivors and sometimes remains present years after the event. It is often rated as the most persisting and frustrating symptom. For many, mental fatigue has a significant negative effect on rehabilitation, and patients report difficulties with returning to previous levels of participation in their meaningful everyday activities whether at home, work or in the community. The development of effective evidence based interventions have been limited by our understanding of post stroke fatigue. This may be attributed to the fact that the underlying mechanisms for post stroke mental fatigue are unknown. Evolving theories suggest that mental fatigue may be associated with a dysfunction in the cognitive domain of attention. An impairment in the domain of attention may result in previously effortless activities of daily living that require sustained attention to become exhausting. Specific knowledge on the influence of background noise and other distractions on a person's ability to sustain attention after stroke is lacking. This research project will contribute to new and important knowledge in this area. A total of 30 adults will be reviewed at least 2 months after stroke on tasks that require sustained attention. The investigators plan to observe the influence background distraction has on the ability to do these tasks and whether wearing earphones will assist with concentration levels, and reduce fatiguing situations. This project provides a unique opportunity to investigate how a dysfunction in the cognitive domain of attention may be related to the experience of mental fatigue after stroke. The investigators will use a reaction time based test, fatigue questionnaires, alongside the wearing of earphones when examining associations. This knowledge may help to determine who is at risk of developing symptoms of mental fatigue. Furthermore, it may shed a light on possible prevention strategies, and provide more suitable guidance to those affected by mental fatigue.


Description:

Fatigue is reported by stroke survivors as a highly problematic and persisting experience with many rating it as their most severe amongst all post - stroke sequelae. Given the negative impact of fatigue on participation, an investigation into the possible underlying mechanisms mediating fatigue after stroke has clinical implications. Recent studies indicate that an impairment in the domain of attention is related to the experience of higher fatigue levels. However, the complexity of this mechanism, presentation and measurement have made the findings unclear. In studies, testing methods to identify a dysfunction in the domain of attention can be mentally fatiguing. Moreover, it is not clear whether the impact of contextual factors on concentration levels, such as background noise and distraction, has been considered. Primary Objective: Among people with stroke engaging in a task requiring sustained attention, to what extent does the use of noise-cancelling earphones impact on mental fatigue? Fatigue will be assessed using two measures: 1) The Continuous Performance Test, a reaction time based assessment completed on a computer tablet and 2) A Visual Analog Scale for Fatigue, which is paper based. Design: A cross - over repeated exposure randomised design will be used. Study participants will be randomised to do tasks of sustained attention, followed by a reaction time based assessment on a tablet, first with and then without earphones or first without and then with earphones. The two assessment sessions will be done one week apart to allow for a washout period. Participants will be invited to rank their fatigue levels on a visual analog scale, pre - post these assessments. Secondary Objectives: - Is baseline cognitive fatigue a predictor for performance decrement on tasks of sustained attention? This will be assessed using the Fatigue Scale for Motor and Cognitive Functions (FSMC). This scale includes both physical and cognitive aspects of fatigue. - What are the contextual factors mediating fatigue symptoms? This will be assessed using a momentary ecological assessment application on a mobile phone or a diary paper based assessment. - What is the influence of fatigue symptoms on participatory patterns as seen on the ecological momentary app or diary? This will be assessed with a wrist worn Accelerometer.


Recruitment information / eligibility

Status Completed
Enrollment 29
Est. completion date December 5, 2021
Est. primary completion date December 5, 2021
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Clinical diagnosis of stroke - Are over the age of 18 (no upper limit) - Ability to understand spoken and / or written English Exclusion Criteria: - Not functionally able to undergo neuropsychological assessment or reply to questionnaires. This will be assessed on the cognitive screen, the Oxford Cognitive Screen (OCS). - Medically unstable or have another condition that could impact results (e.g. substance abuse).

Study Design


Related Conditions & MeSH terms


Intervention

Behavioral:
The MenFAS Study
A cross over repeated exposure randomized design observational study

Locations

Country Name City State
United Kingdom Health and Life Sciences Oxford Oxfordshire

Sponsors (1)

Lead Sponsor Collaborator
Oxford Brookes University

Country where clinical trial is conducted

United Kingdom, 

References & Publications (2)

Hubacher M, Calabrese P, Bassetti C, Carota A, Stöcklin M, Penner IK. Assessment of post-stroke fatigue: the fatigue scale for motor and cognitive functions. Eur Neurol. 2012;67(6):377-84. doi: 10.1159/000336736. Epub 2012 May 17. — View Citation

Penner IK, Raselli C, Stöcklin M, Opwis K, Kappos L, Calabrese P. The Fatigue Scale for Motor and Cognitive Functions (FSMC): validation of a new instrument to assess multiple sclerosis-related fatigue. Mult Scler. 2009 Dec;15(12):1509-17. doi: 10.1177/1352458509348519. Epub 2009 Dec 7. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Other Accelerometer Accelerometers are portable, non - invasive wrist worn devices used to quantify physical activity with patients with a neurological condition, including stroke. Here, data can be collected in the precise moment the activity is occurring, alleviating bias. Axivity AX3 accelerometer will be worn on wrist of dominant hand over a seven day period. 7 days
Primary The Continuous Performance Task The Continuous Performance Task (CPT) is a computerised reaction time test and is one of the most frequently used, objective tools to measure sustained attention over time. This assessment takes 12 minutes. Sustained attention will be assessed based on changes on performance over time. The task will be completed twice (once with, once without earphones) over the two assessment days. 12 minutes
Primary Change in baseline fatigue at 2 hours - Visual Analog Scale for fatigue A VAS consisting of a 10cm vertical line from 1 (no fatigue) to 10 (worst possible fatigue) will be used to obtain the momentary fatigue associated with completing the task of sustained attention. Participants will rank their mental fatigue at the beginning and the end of each reaction time task (on the CPT) performed. 4 x across 2 testing days (1 week apart). Day 1: Before (baseline) and after reaction time assessment (2hours). Day 2: Before (baseline) and after reaction time assessment (2hours)
Secondary Fatigue Scale for Motor and Cognitive functions. Baseline fatigue will be measured using the self-reported Fatigue Scale for Motor and Cognitive Functions (FSMC) which has been validated for use in neurological conditions, including stroke (Ref -Hubs). This scale includes both physical and cognitive fatigue. Cut-off values for the FSMC total scale and both subscales were determined by standard deviations from the mean values of healthy control population in two other studies (Hubacher et al 2012; Penner et al 2009). Subdivision from mild, moderate to severe fatigue for both domains as well as for the composite fatigue score are provided:
FSMC Sum Score =43 Mild fatigue, =53 Moderate fatigue, =63 Severe fatigue. FSMC Cognitive Score =22 Mild cognitive fatigue = 28 Moderate cognitive fatigue = 34 Severe cognitive fatigue FSMC Physical Score = 22 Mild motor fatigue, =27 Moderate motor fatigue, =32 Severe motor fatigue.
Baseline fatigue.
Secondary Oxford Cognitive Screen Baseline cognitive abilities will be assessed using the Oxford Cognitive Screen (OCS). The OCS assesses the major cognitive domains of memory, language, number, praxis, executive functions and attention. It has been designed as a screening tool which provides a rapid assessment (approximately 15 minutes) of a patient's cognitive function. The OCS is inclusive for patients with aphasia and neglect. Baseline cognitive abilities
Secondary Ecological Momentary Assessment App This study will use a smart ecological momentary assessment delivered via a smart - phone app (smart EMA). The smart EMA samples in -the- moment data of fatigue and activity. Participants record fatigue levels (on a VAS) and contextual factors alongside every day and meaningful occupational participation from pre-defined lists. The app was developed using an iterative, user centred design and is grounded in the fatigue experiences of people with acquired brain injury, including stroke. It has been tested on participants with brain injury in the community and received good response and completion rates, with high levels of satisfaction. The participant will be prompted five times a day to record their activity and fatigue levels over a seven day period. 7 days
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