Alzheimer Disease Clinical Trial
Official title:
Longitudinal Validation of a Computerized Cognitive Battery (Cognigram) in the Diagnosis of Mild Cognitive Impairment and Alzheimer's Disease
This research project will test two new computerized technologies in the detection of brain
changes related to Mild Cognitive Impairment (MCI) and dementia due to Alzheimer's disease.
These technologies are:
1. Computerized cognitive battery: Cognigram (CG) Computerized assessments have multiple
advantages for the early detection of subtle changes in cognition in older adults. One
of their main advantages is their higher precision when measuring accuracy and speed of
responses, compared to pencil-and-paper tests. They also allow a greater reliability in
measures, as tests are given in a standardized format without the interference of an
evaluator. Finally, by including automatized instructions and reports, they are suitable
for off-site or long-distance use.
The present study aims to validate the Cognigram™ (CG) computerized cognitive tool, in a
prospective and longitudinal fashion, determining if changes in the CG scores over 3, 6,
9, and 12 months, can predict progression to dementia at 1-year, 2-years, and 3-years,
for patients with Mild Cognitive Impairment (MCI).
2. The NeuroCatch™ Platform (NCP)
Event-related potentials (ERP) are non-invasive, low-cost, electrophysiological methods that
allow recording of the electrical activity of the brain in vivo through an
Electroencephalogram (EGG). They are free from cultural and educational influence and can
provide insights into the cognitive processes. ERP could enable to detect brain changes and
determine the prognosis of MCI subjects.
The NCP, an investigational medical device system developed by NeuroCatch Inc., consists of
an EEG software and hardware that captures brain health information. It offers a quick (i.e.,
10 minutes for EEG preparation and 6 minutes for each task of EEG recording), simple (i.e.,
includes only 8 electrodes), and easy-to-use solution (i.e., includes a computerized software
that automatically analyzes data and outputs graphs in less than 1 minute) for the
acquisition of EEG and ERP.
Rationale
Today's aging population brings an increase in the incidence of dementia. In Canada, there
are approximately 564,000 persons diagnosed with dementia, with an expected two-fold increase
in this number by the year 2031. In this context, the early detection and prediction of
cognitive decline are both imperative for achieving the prevention and/or slowing of
dementia.
Standard pencil-and-paper neuropsychological tests are pivotal for the detection and
follow-up of cognitive impairment; however they are labor-intensive and require the presence
of a trained neuropsychologist on-site. In this regard, computerized testing may be better
suited for cognitive screening in large epidemiologic studies and for longitudinal monitoring
by primary care providers, due to their higher efficiency for serial assessments and their
suitability for off-site or long-distance use. At the same time, computerized testing allows
for higher precision in the recording of accuracy and speed of response, with a level of
sensitivity not possible in standard administrations.
A number of computerized cognitive batteries have been recently developed, though intended as
research tools. There is a current demand for the validation of computerized cognitive
batteries in the clinical setting. One such computerized battery is the Cognigram™ (CG),
which measures processing speed, attention, working memory and learning. Previous
cross-sectional studies have demonstrated the validity of CG for detecting MCI and various
types of dementia. However, there is no current literature on the longitudinal validity of
CG, and minimal longitudinal validation of other computerized cognitive batteries currently
in existence.
On the other hand, research and medicine is moving away from behavioral responses to assess
brain health (e.g. verbal responses, reaction time, etc.) and are moving toward more
neuroimaging focused measures. Biological tests could enable to detect pre-dementia and
determine the prognosis of MCI subjects.A promising biological test is EEG/ERP. The
investigators have previously shown group differences in ERPs for patients with MCI and CN.
Other studies have reported promising ERP markers of pre-dementia and progression of MCI to
dementia. However, ERP can be complex to process and labor-intensive, limiting its value in
the clinical setting. For example, the usual time for an ERP series measuring multiple
cognitive domains typically lasts 1 hour, another 25 minutes for applying the EEG cap and
ensuring all electrodes are connected, and some 30 minutes per paradigm (x2-3 paradigms).
The NeuroCatch™ Platform (NCP) offers key competitive advantages compared to other EEG
platforms, having a rapid test time with automated processing, analysis and results display -
benefitting patients and clinicians being significantly easier to use than current EEG
systems, and it alleviates training and ramp up costs amongst EEG users. In this study, the
investigators will use the NPC to explore for ERPs that could predict progression to dementia
in patients with MCI. The present study will make an initial assessment of the capacity of
the NCP to detect cognitive decline and predict conversion to dementia in patients with MCI.
Hypotheses:
In Cognigram, the investigators hypothesize that the following will occur:
i. Significant differences in the CG scores at baseline will be found between MCI and CN
groups ii. MCI subjects will show greater longitudinal changes than the CN subjects iii.
Intra-individual Significant longitudinal changes in the CG performances at 3 and/or 6 months
and/or 9 months and/or 12 months, will relate to the prospective clinical outcome at
12-months, and/or 24-months, and/or 36-months.
iv. The CG will show a higher sensitivity in detecting cognitive changes, and a higher
predictive power of longitudinal clinical outcome than the pencil-and-paper MoCA test.
In NeuroCatch, the investigators hypothesize that the following will occur:
I. Significant differences in the ERP parameters (amplitude and latency of ERPs such as N100,
N400, P300) at baseline will be found between MCI and CN groups II. MCI subjects will show
greater longitudinal changes in ERP parameters than the CN subjects III. Intra-individual
significant longitudinal changes in ERP parameters at 6 months and/or 12 months and/or 24
months, will relate to the prospective clinical outcome at 12-months, and/or 24-months,
and/or 36-months.
IV. The NCP will show a higher sensitivity in detecting cognitive changes, and a higher
predictive power of longitudinal clinical outcome than the pencil-and-paper MoCA test.
The objectives of the project are as follows:
i. To discriminate CG longitudinal changes related to neural damage from normal variations in
cognitively normal (CN) older adults ii. To determine if CG baseline score is related to the
clinical outcome at 12-months, 24-months, and 36-months iii. To determine if intra-individual
CG changes at 3, 6, 9, and 12 months, are related to the clinical outcome at 12-months,
24-months, and 36-months.
iv. To compare the powers of CG and MoCA for predicting longitudinal clinical outcomes.
v. To discriminate ERP longitudinal changes (e.g., changes in N100, N400, P300 amplitudes and
latencies) related to neural damage from normal variations in cognitively normal (CN) older
adults.
vi. To determine if ERP baseline parameters (e.g. amplitude of N100, N400, P300) is related
to the clinical outcome at 12-months, 24-months, and 36-months vii. To determine if
intra-individual changes in ERP parameters at 6, 12, and 24 months, are related to the
clinical outcome at 12-months, 24-months, and 36-months.
viii. To compare the powers of NCP and MoCA for predicting longitudinal clinical outcomes.
For the purpose of these project, a total sample of 30 MCI and their study partners, and 30
cognitively normal subjects (CN), will be recruited. Study partners of MCI subjects will
answer the functional questionnaire and the cognitive questionnaire required for defining the
clinical status of participants. It is mandatory for MCI participants to have a study partner
available in order to participate in this study.
For the CN project, the participants will undergo CG and Montreal Cognitive Assessment (MoCA)
testing sessions at baseline, 3-months, 6-months, 9-months, and 12-months. The capacities for
predicting clinical longitudinal outcomes (i.e., reversion to normal cognition, significant
decline within MCI spectrum, or progression to dementia) of CG and MoCA will be compared. The
clinical outcome will be assessed using a Neuropsychological battery, a functional assessment
and a brief cognitive questionnaire at baseline, 12-months, 24-months and 36-months. It is
expected that changes in CG scores will be sensitive to cognitive decline, allowing an early
prediction of progression of the cognitive impairment.
For the NCP project, the participants will undergo NCP (Appendix 14: NCP) and MoCA testing
sessions at baseline, 6-months, 12-months, 24-months, and 36-months. The capacities for
predicting clinical outcomes (i.e., reversion to normal cognition, significant decline within
MCI spectrum, or progression to dementia) of the NCP and MoCA tests will be compared. The
clinical outcome will be assessed using a Neuropsychological battery, a functional assessment
and a brief cognitive questionnaire at baseline, 12-months, 24-months, and 36-months. It is
expected that changes in ERP will be sensitive to cognitive decline, allowing an early
prediction of progression of the cognitive impairment.
Prospective longitudinal validation, if demonstrated, would greatly increase confidence in
using CG and NCP in a clinical setting for the assessment of MCI patients and would allow
early prediction of future clinical outcomes. This could help to develop preventive
therapeutic strategies, while providing additional time for patients and their families to
prepare for the future (e.g., financial arrangements, treatment options, and community
services). CG and NCP would be of greatest use in primary care, where multiple constraints
make cognitive assessments problematic (e.g., lack of time to perform cognitive testing, and
lack of access to expensive neuropsychological testing not covered by OHIP) and EEG/ERP
assessments prohibitive (e.g., lack of time to perform EEG, lack of access to trained experts
for analyzing and interpreting the results of the EEG/ERP).
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