Parkinson's Disease Clinical Trial
Official title:
Visual Function During Gait in Parkinson's Disease: Impact of Cognition and Response to Visual Cues
Parkinson's disease (PD) is associated with problems of gait such as veering, difficulty
turning, an inability to perceive doorways or obstacles, and negotiate uneven terrain. Gait
problems, especially veering, may be exacerbated by visuospatial dysfunction which predispose
to falls, freezing and festination of gait. Visuospatial dysfunction is common in PD and
likely involves peripheral features (e.g. contrast sensitivity) as well as central cognitive
mechanisms (e.g. attention).
Central neuro-degeneration in PD, PD dementia, and dementia with Lewy Bodies may influence
visual function, as impaired visual sampling has been reported in these conditions. Visual
sampling is measured via saccadic (fast eye movement) activity, as saccades are the
mechanisms through which people orientate and explore the environment. The use of objective
devices to reliably measure saccades is important to detect disease related eye movement
changes. Emerging visuomotor research has measured visual sampling in PD using devices such
as electrooculography and infra-red eye tracking, revealing reduced amplitude, speed and
frequency of saccades during various tasks.
Despite recent increases in visuomotor research it remains unclear how PD influences visual
sampling of the environment during gait and the influence of attentional and cognitive
deficits. Recent work demonstrated that people with PD sample their environment less
frequently than controls, despite a slower gait. Saccadic timing was unchanged in response to
environmental cues. Despite this, environmental visual cues (transverse lines on the floor)
have been shown to increase the number of fixations made during gait. However the mechanisms
of this response remain unclear. Cognition is likely of importance, with response potentially
influenced by attentional control.
This observational study aims to examine the influence of cognition on visuomotor control
during gait in PD. This aim will be achieved by observation of visual sampling under several
environmental challenges (straight walk, doorways, turns, visual cue) and a dual task.
This is an observational study of visual sampling during gait under different environmental
challenge (straight, doorway, turn and visual cue (transverse lines on the floor)) and dual
task. These conditions represent everyday activities/environments which can be difficult for
people with PD.
This is not an interventional study as participants are not assigned to any specific
interventions by the researchers, or followed up to re-assess outcomes other than for
reliability testing of the eye-tracking devices used. The study has been ethically approved
(NRES Committee North East - Newcastle & North Tyneside 1: 13/NE/0128) as an observational
study as participants are assigned to pre-defined groups, and have behavioural measures
(primarily visual sampling and secondly gait) observed in the gait laboratory under various
walking conditions common to everyday environments.
Study Hypotheses
The over-arching hypothesis of this observational study is that visual sampling during gait
in PD will be influenced by cognitive impairments. This study hypothesises that saccadic
activity will be restricted in PD compared to controls during gait. Dual task and
environmental challenge via a doorway, turn or visual cue will influence saccadic activity
during gait.
Specific study hypothesises are:
1. Cognition will selectively impact on visuomotor control during gait
2. Visual sampling strategies during gait will be related to selected domains of cognitive
impairment
Secondary questions include:
1. Is the Dikablis mobile eye-tracker a reliable means of measuring saccadic activity in PD
and healthy controls?
After undergoing screening to confirm eligibility, subjects will be assigned into one of two
groups:
1. Older adult controls (HC; up to n = 40)
2. People with PD (n = 60)
Recruitment
Participants will be recruited from Movement Disorder Clinics in Newcastle upon-Tyne.
Research personnel will be available at clinics as required to invite participants to
consider the study. If sufficiently interested, participants will be given a Participant
Information Sheet (PIS) and letter concerning the study. The invitation will be followed
up by a telephone call during the week to assess willingness to participate. If willing,
a mutually convenient time for assessment will be organised, and the invitation to
attend will be extended to a carer or spouse.
The healthy control group will be recruited via advertisement using posters, which will
be placed within neurology and geriatric departments. The advertisement will also be
sent via the university email system to staff and students at Newcastle University, the
recipients will be advised to pass on the poster to potential interested parties (i.e.
family or friends). All participants will be evaluated at the Clinical Ageing Research
Unit, Newcastle University, a purpose-build research facility.
Testing Protocol
Session 1; (up to 150min)
- Initial screening and baseline assessments (45-60min)
- Visual sampling during gait (60-90min)
Session 2; (up to 60min)
• 1st Reliability testing (45-60min) (if applicable; for a subgroup of PD and HC
participants)
Session 3; (up to 60min)
• 2nd Reliability testing (45-60min) (if applicable; for a subgroup of PD and HC
participants)
Visual sampling during gait (session 1)
Participants (n=100) will be assessed in the gait laboratory at the clinical ageing and
research unit (CARU), where they will walk under different conditions, for example
single task, dual task, through a doorway, whilst turning and with a visual cue
(transverse lines on the floor 50cm apart) in place. Visual sampling will be assessed
with a Dikablis head-mounted eye tracking and electrooculography (EOG) systems. Gait
will be simultaneously assessed using a 3D motion capture system (Vicon), which will be
synchronised with the eye tracking systems to provide simultaneous data collection.
Infra-red markers will be taped to the body and limbs of the subjects using a small
amount of double-sided tape, to allow for motion tracking. The Dikablis will also be
taped to the forehead of each participant using a small amount of double sided tape.
Reliability testing (subgroup) (session 2 and 3)
In order to examine the test re-test reliability of mobile eye-tracking in people with
PD and healthy controls, a subgroup of participants (PD and HC; up to n=25) will return
for a second (within approx. 1 week) and third visit. They will be asked to repeat some
of the walking tasks outlined above and to sit (with chin rest), stand and walk (on a
treadmill) while performing several eye movements to visual targets (horizontal and
vertical visual angles such as; 5, 10, 15, 20 degrees) in time with an auditory cue (a
60bpm metronome). Participants will return for the third visit approx. 1 week after the
second visit and repeat the reliability testing (as above).
Sample Size
This is an exploratory study and therefore few specific previous examples are available
to guide the sample size required. The sample size estimate is based on results from
previous work in this research area (PD; n=21) (Galna et al., 2012), other previous
similar studies and preliminary pilot work with the Dikabilis mobile eye-tracker, which
is a new instrument. Similar studies in this research area have used similar sample
sizes (n=2-26), demonstrating that differences between PD and HC groups will been
evident.
Statistical Analysis
Analysis Common to all Studies
Statistical analysis will be undertaken using SPSS version 19 or more recent versions
(SPPS, Inc. an IBM company). Data checks of all data collected will be carried out
independently by two members of the Human Movement Science Team at the Clinical Ageing
Research Unit to ensure that data is accurate.
All statistical tests will be carried out at the 5% two-sided level of significance.
Demographic characteristics and baseline data will be summarized using descriptive
statistics, including means, standard deviations, median, minimum, maximum and
inter-quartile ranges for continuous or ordinal data and percentages for categorical
data. The descriptive statistics will be tabulated and presented graphically for
clarity.The assessments recorded at pre-testing will be taken as baseline values.
One-sample Kolmogorov-Smirnov tests will be used to check for normally distributed data.
Non-normally distributed continuous distributions will be transformed where appropriate
to meet the requirements of parametric tests; otherwise equivalent non-parametric tests
will be adopted.
Further Analysis
To analyse visual sampling during gait Pearson's correlations will be used to test the
strength and direction of the relationships between clinical, gait and saccadic
outcomes. Analysis of variance (ANOVA) will be used to analyse the effect of group (PD,
HC), dual task (single task, dual task) and environmental challenge (Straight walk,
Door, Turn, Visual cue) on visual sampling during gait.
To analyse reliability repeated-measure t-tests, Bland and Altman plots, intra-class
correlation coefficients (Model 2, 1) and Pearson correlations (or non-parametric
equivalents) will be used to assess bias, agreement and consistency of saccadic outcomes
measured with the Dikablis eye-tracker on two separate occasions a week apart.
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