Awareness of the importance of stroke has led to a vast and accumulating literature on stroke risk factors, stroke etiology, and stroke outcomes. Stroke risk factors have been elucidated and clinical trials have indicated the benefits of treatment for persons with hypertension, atrial fibrillation, hypercholesterolemia, and asymptomatic carotid disease. In 1996, the first approved treatment for acute stroke, recombinant tissue plasminogen activator (rtPA), became available. Additionally, the pharmaceutical industry continues to actively pursue the development of “neuroprotective” agents to be used acutely for enhanced recovery from this disabling disease. Concurrently, over the last decade there has been important research looking at the contribution of devices, especially for clot retrieval, in the acute stroke period.

In the 21st century, technological advancements in the field of brain imaging, genotyping, and medical information systems have begun to facilitate epidemiological study designs that can elucidate stroke risk markers at the molecular level and risk factors at the subclinical level. Such advancements have provided researchers with more precision in stroke diagnosis and classification, including documentation and timing of events through the use of diffusion-weighted brain imaging techniques. Finally, as the relationship between genetic and environmental factors has become clearer, the role of precision medicine in prevention, treatment, and recovery has taken on a more central space.³

While improved technology has increased the precision and generalizability of data on stroke, epidemiologists who study stroke still struggle with critical issues. Despite recognition of and treatment modalities for modifiable stroke risk factors such as hypertension and cardiac disease, these risk factors remain highly prevalent. Additionally, overall stroke mortality rates are declining, but differentials continue to be reported between whites and other racial/ethnic groups including African-Americans, Hispanics, Alaska Natives, and Asian Pacific Islanders. In recent decades, the aging of the population and increasing prevalence of certain stroke risk factors have led to an increased absolute number of strokes per year (see Table 1.1), resulting in greater incidence, mortality, morbidity, and cost.^2,4

From an epidemiological perspective, the establishment of standardized practical diagnostic criteria for defining stroke is critical. Agreement on a definition for stroke enables comparison of incidence and prevalence rates in studies throughout the world. A number of epidemiological issues arise in the enumeration of stroke cases. Diagnostic criteria for stroke and sensitivity of the diagnosis may differ from study to study. Indeed, early increases in stroke incidence may be attributed to the transition to universal use of CT imaging. Prior to the general use of CT imaging to confirm strokes, underdiagnosis or misclassification of strokes were more likely to occur. With better imaging and the ability to identify abnormalities associated with transient ischemic attack (TIA), we can move toward a more uniform definition of stroke overall.

Over the years, there have emerged a number of different definitions of stroke and TIA. In 2013 the American Heart Association (AHA)/American Stroke Association (ASA) published a consensus statement, An Updated Definition of Stroke for the 21st Century, which incorporates clinical and tissue criteria.⁵ They defined central nervous system (CNS) infarction as “brain, spinal cord, or retinal cell death attributable to ischemia, based on neuropathological, neuroimaging, and/or clinical evidence of permanent injury.”⁵ Intracerebral hemorrhage and subarachnoid hemorrhage are also included in the broad definition of stroke. A TIA was originally defined as a neurological deficit lasting less than 24 hours. However, with the increased ability to image lesions with deficits lasting only a few hours, the AHA endorsed a revised, more operational definition of TIA as a “transient episode of neurologic dysfunction caused by focal brain, spinal ...