Diffuse changes in white matter resulting from cerebral microvascular disease contribute to cognitive impairment (Jokinen et al., 2011), declines in global functionality (Inzitari et al., 2009), and even death (D...Diffuse changes in white matter resulting from cerebral microvascular disease contribute to cognitive impairment (Jokinen et al., 2011), declines in global functionality (Inzitari et al., 2009), and even death (Debette and Markus, 2010). Twenty years ago, estimations of the clinical incidence of ce- rebral microvascular disease approached 11 million per year in the US alone (Leary and Saver, 2003). More recent estima- tions suggest the prevalence of diffuse white matter disease and silent brain infarction approaches 20% and increases dramatically in the presence of cardiovascular risk factors (Fanning et al., 2014).展开更多
The vast amount of the "omics" information of diseased "somatic" cell other than the polymorphic information of the "germline" genome sequences, brings about not
基金support from the Larry L.Hillblom Foundation (GX)NIH NS083740 (JDH)the United States Department of Veterans Affairs Greater Los Angeles Healthcare System (JDH)
文摘Diffuse changes in white matter resulting from cerebral microvascular disease contribute to cognitive impairment (Jokinen et al., 2011), declines in global functionality (Inzitari et al., 2009), and even death (Debette and Markus, 2010). Twenty years ago, estimations of the clinical incidence of ce- rebral microvascular disease approached 11 million per year in the US alone (Leary and Saver, 2003). More recent estima- tions suggest the prevalence of diffuse white matter disease and silent brain infarction approaches 20% and increases dramatically in the presence of cardiovascular risk factors (Fanning et al., 2014).
文摘The vast amount of the "omics" information of diseased "somatic" cell other than the polymorphic information of the "germline" genome sequences, brings about not
