Stroke and Cognitive Decline.

Stroke and cognitive impairment are common among older persons.1 It is estimated that the lifetime risk for stroke is approximately 1 in 5 for women and 1 in 6 for men,2 and almost one-third of persons with stroke, which typically may involve motor, sensory, or other deficits, may have a significant degree of cognitive impairment within several months of the event.1 Furthermore, silent strokes are more common than clinically manifest stroke events but pose significant danger because they are harbingers of both future stroke and cognitive dysfunction.3 It is estimated that as many as 1 in 10 adults experience a silent stroke by their early 60s.3,4 Stroke and loss of cognitive vitality remain a substantial challenge, as there is a need to better understand the cellular and molecular mechanisms underlying cognitive impairment, course, and phenotypic manifestations of cognitive decline as well as the means to prevent this potentially devastating complication. In this issue of JAMA, Levine and colleagues5 track trajectory of cognitive decline before and after incident stroke. In their analysis of data from the Reasons for Geographic and Racial Differences in Stroke (REGARDS) prospective cohort study, the authors obtained longitudinal but limited telephone cognitive testing in more than 23 000 study participants 45 years or older without baseline cognitive impairment. The primary outcome was change in global cognition as measured by the Six-Item Screener (SIS), a 3-item recall and 3-item temporal orientation test (score range, 0-6). Secondary outcomes were change in new learning (Consortium to Establish a Registry for Alzheimer Disease Word List Learning [score range, 0-30]), verbal memory (Word List Delayed Recall [score range, 0-10]), and executive function (Animal Fluency Test [number of animals named in 1 minute]). Incident strokes were adjudicated by a team of experts, and a complex statistical analysis was carried out and included but was not limited to linear mixedeffects models.5 Comparisons were made between those with and without incident stroke. During a median follow-up of 6.1 years, there were 515 incident strokes, of which 91%were ischemic, including 2.1% (n = 306 events) in white participants and 2.3% (n = 209 events) in black participants.5 As might be expected, those who experienced stroke were older men with more vascular risk factors, lower socioeconomic indicators, worse health status, and lower prestroke SIS scores. The main findings were that stroke was associated with an acute decline in global cognition (0.10 points [95% CI, 0.04-0.17]), new learning (1.80 points [95% CI, 0.73-2.86]), and verbal memory (0.60 points [95% CI, 0.13-1.07]), whereas executive function was not consistently shown to decline acutely. In addition, participants with incident stroke had statistically significantly faster declines in global cognition (0.06 points per year faster) and executive function (0.63 points per year faster) but not in new learning and verbal memory when compared with prestroke slopes (ie, rates). The poststroke rate of incident cognitive impairment occurred significantly faster when compared with the prestroke rate. Thus, acute cognitive decline was associated with incident stroke and accelerated and persisted over the approximately 6-year follow-up period. This studybyLevineandcolleaguesdemonstrates that incident stroke is associatedwith an acutedecline in global cognitive function based on a screening test (SIS) aswell as acute decline in new learning and memory. A novel feature of the study is that its prospective design allowed for prestroke cognition tobe trackedandprovides ratesofcognitivechangeprior to incident stroke.Thedisplaysof the slopesof cognitive function (Figure 2 in the article) are a powerful tool to help understand the findings and explainwhatmayhappen to cognition before andafter stroke. Such figuresmayhave relevance as an educational tool for a lay audience. Even though someof the results of the statistical analysis showonlymodest, average cognitive loss, these findingsmay be interpreted as clinically meaningful because few persons can afford to lose any cognitive capacity over time. As the authors suggest, adeclineof at least0.5 standarddeviations from baseline has been defined as clinically meaningful. A goal of large observational epidemiologic studies is to serve as a catalyst for future targeted investigations. In this case, suchastudy could identify which stroke subgroups show themost extensive cognitive decline. However, the report by Levine et al does not provide information about the mechanism whereby stroke was associated with continued cognitive decline, the possible role of stroke and cardiovascular risk factors, possible interactions with neurodegenerative disease, and the means to prevent suchdecline.1,6Aprior longitudinalclinical-neuropsychologicalneuroradiological correlativestudyofpatientswithstrokewith and without cognitive impairment found little cognitive decline after the acute stroke period and up to 7 years among persons with stroke but without dementia at study entry.7 However, unlike the study by Levine and colleagues,5 the temporal point of comparison in the previous study was not prestroke cognition. Furthermore, in another study that featured magnetic resonance diffusion tensor imaging, there were dynamic changes of the white matter in either the affected or nonaffected brain hemisphere after stroke for up Related article page 41 Opinion