A longitudinal magnetic resonance imaging study of neurodegenerative and small vessel disease, and clinical cognitive trajectories in non demented patients with transient ischemic attack: the PREVENT study

Cognitive impairment late in life is commonly caused by progressive neuronal loss related to two dominant diseases, Alzheimer’s disease (AD) and small vessel cerebrovascular disease (i.e. vascular dementia; VaD), both causing brain atrophy years before clinical symptoms are detected. As dementia is attributed to vascular and life-style related risk factors in mid-life in a substantial proportion of patients (50%), there is an opportunity to modify these factors if incipient disease is detected earlier [1]. Transient ischemic attack (TIA; incidence 0.37–1.1 per 1000) [2, 3], is associated with a 4-fold increase in dementia over the general population [4‐6]. Therefore, TIA patients are a potential target for early modification of incipient disease processes that precede cognitive impairment guided by biologically relevant markers such as amyloid beta 1–42/ tau, whole brain and sub-structure atrophy, small vessel disease markers, and increased free iron. The Predementia Neuroimaging of Transient Ischemic Attack (PREVENT) study will focus on quantifying these biomarkers using advanced serial magnetic resonance imaging (MRI), neuropsychological assessments, APOE genotyping, and longitudinal clinical data. Specifically, PREVENT will examine what combination of pathological processes and risk factors lead to cognitive decline after TIA.

PREVENT is a prospective, single-center longitudinal study. To achieve a 30% group effect size on annualized rates of cerebral brain atrophy, N = 220 TIA patients and N = 220 healthy controls will receive clinical, neuropsychological, fluid biomarker, and MR assessments at pre-specified time points. The frequency and duration of events is summarized in Table 1.

In light of social and economic burdens, early identification of high-risk patients for dementia is the most important step in prevention and postponement [32, 33]. With no cure and recent clinical trial failures, it is becoming increasingly important that trials must be redesigned with a focus on high-risk populations and standardized biomarkers, which include clinical, demographic, imaging and neuropsychological considerations. The PREVENT study proposes the early identification of people at risk for late-life cognitive decline as the single most important approach for trial designs. To date, studies have established a link between vascular risk and stroke, and late life cognitive impairment but overlooked fundamental challenges such as the efficacy of vascular reduction treatment (antihypertensive treatments [34‐38], diabetes management, and cholesterol lowering therapy [39]) on slowing cognitive decline, thus leading to inconclusive results. Special consideration needs to be given to identifying patients at the highest risk of dementia (i.e. TIA patients) since these patients are most likely to benefit from earlier intervention [40] before symptoms manifest, and from therapies that focus on vascular risk reduction [34]. Intervention trials such as the Finnish Geriatric Interventions to Prevent Cognitive Impairment (FINGER) study and the Prevention of Dementia by Intensive Vascular care (preDIVA) trial, show that focusing on diet, exercise, cognitive training, and vascular risk management as a multi-domain treatment approach improves or maintains cognitive function in at risk elderly when compared to healthy controls [24, 41]. The potential mechanisms of disease progression (AD, vascular disease or both), response of these multi-domain therapeutic interventions, and their long-term benefits remain unknown [42]. However, epidemiological studies show that the incidence or age specific prevalence of dementia has declined in the past 20 years [43‐45], implying that the risk of dementia is modifiable through vascular risk reduction therapies. The early identification of patients at greatest risk of cognitive decline, by measuring change in cognition, is an important issue to be addressed by the PREVENT study.

The PREVENT study is expected to support the concept that rate of cerebral atrophy is a meaningful measure of disease progression that precedes cognitive decline and provide justification for the use of rates of cerebral atrophy as an outcome in pre-clinical dementia prevention trials. The PREVENT study in its design will stratify dementia risk according to biological markers of neurodegeneration, and small vessel cerebrovascular disease. We anticipate that the PREVENT study will demonstrate the temporal order of biomarker (in vivo AD and small vessel disease features) change as shown in the figure below with more advanced decline of brain volume occurring in order as follows: Alzheimer’s pathology plus cerebrovascular disease, Alzheimer’s disease in isolation, small vessel cerebrovascular disease and low vascular risk group without identifiable in vivo markers of either vascular disease or AD, all starting before clinical symptoms manifest (Fig. 1).

We anticipate that recruitment will be the most important challenge to the feasibility of the PREVENT Study. Clinical evaluations, cognitive tests, and the MRI protocol have been designed to minimize patient fatigue, and will be only performed yearly (inclusive of year 5). Recruitment is ahead of schedule providing powerful evidence that enrollment of TIA patients and healthy controls will be complete by the end of 2018. We are actively recruiting from a repository of healthy community volunteers (Calgary Normative Study). We anticipate that by the end of 2019 we will have completed our primary outcome measure of early rates of brain atrophy (R1). By 2021, secondary outcome measures of rates of brain atrophy will have been completed 3 years (R2) and biomarkers of Alzheimer’s disease in WML will have been analyzed. All patients will have completed 4 years of serial neuropsychological assessments.

Our sample size calculations for the PREVENT study are inclusive of an estimated attrition rate of 20%, which is similar to drop out rates in other longitudinal studies of cerebrovascular disease and cognition [46]. Potential bias of our results through the withdrawal or death of subjects at highest risk of dementia will be mitigated by the age inclusion criteria (45–75). Moreover, unlike stroke patients, TIA patients will be able to physically and cognitively comply with serial cognitive and MR imaging. All study participants will be under regular surveillance during clinical reassessments for the development of cardiovascular events and death. Confirmed cases of recurrent stroke will be excluded from our primary outcome analysis; recurrence is anticipated to be low (< 2%) [47].

A proportion of PREVENT subjects may have diffusion-weighted lesions (possibly up to 30%) [14], but previous studies have shown that presence of such small silent infarcts may not explain the cognitive profile [48], nor the progressive cognitive decline [49], perhaps implicating neurodegenerative and inflammatory processes [50, 51]. The presence of DWI lesions may be another predictor of progressive brain atrophy. Exploring disease mechanisms implicated in the recently reported interactions between incident stroke and persistent progressive cognitive decline will be important to furthering our understanding of the disease interaction of neurodegenerative and cerebrovascular processes on cognitive decline [49].

We have set rigorous standards for maintaining the highest quality MR images, including the application of similar benchmark standards used by the Alzheimer’s Disease Neuroimaging group (adni.​loni.​usc.​edu). Objective quality assurance to detect image distortion will be diligently followed to measure properties that include grading calibration, image contrast, and signal to noise ratio. Any scans that fail quality control will be repeated within 4 weeks.

The PREVENT study will be the first critical step for identifying individuals at increased risk of late life cognitive decline. Future steps will target individuals at the highest risk of dementia before symptoms develop, thereby identifying an enriched disease group to test preventative and disease modifying strategies in clinical trials that aim to reduce the microscopic brain tissue loss over a relatively short period of time, thereby optimizing the opportunity for preventing dementia in the future.