Kristian P Doyle1, Marion S Buckwalter2. 1. Departments of Immunobiology and Neurology and the Arizona Center on Aging, University of Arizona, Tucson, Arizona. 2. Departments of Neurology and Neurological Sciences, and Neurosurgery, Wu Tsai Neurosciences Institute, Stanford School of Medicine, Stanford, California, USA.
Abstract
PURPOSE OF REVIEW: To review new evidence on links between poststroke dementia and inflammation. RECENT FINDINGS: Although there are still no treatments for poststroke dementia, recent evidence has improved our understanding that stroke increases the risk of incident dementia and worsens cognitive trajectory for at least a decade afterwards. Within approximately the first year dementia onset is associated with stroke severity and location, whereas later absolute risk is associated with more traditional dementia risk factors, such as age and imaging findings. The molecular mechanisms that underlie increased risk of incident dementia in stroke survivors remain unproven; however new data in both human and animal studies suggests links between cognitive decline and inflammation. These point to a model where chronic brain inflammation, provoked by inefficient clearance of myelin debris and a prolonged innate and adaptive immune response, causes poststroke dementia. These localized immune events in the brain may themselves be influenced by the peripheral immune state at key times after stroke. SUMMARY: This review recaps clinical evidence on poststroke dementia, new mechanistic links between the chronic inflammatory response to stroke and poststroke dementia, and proposes a model of immune-mediated neurodegeneration after stroke.
PURPOSE OF REVIEW: To review new evidence on links between poststroke dementia and inflammation. RECENT FINDINGS: Although there are still no treatments for poststroke dementia, recent evidence has improved our understanding that stroke increases the risk of incident dementia and worsens cognitive trajectory for at least a decade afterwards. Within approximately the first year dementia onset is associated with stroke severity and location, whereas later absolute risk is associated with more traditional dementia risk factors, such as age and imaging findings. The molecular mechanisms that underlie increased risk of incident dementia in stroke survivors remain unproven; however new data in both human and animal studies suggests links between cognitive decline and inflammation. These point to a model where chronic brain inflammation, provoked by inefficient clearance of myelin debris and a prolonged innate and adaptive immune response, causes poststroke dementia. These localized immune events in the brain may themselves be influenced by the peripheral immune state at key times after stroke. SUMMARY: This review recaps clinical evidence on poststroke dementia, new mechanistic links between the chronic inflammatory response to stroke and poststroke dementia, and proposes a model of immune-mediated neurodegeneration after stroke.
Authors: P Langhorne; D J Stott; L Robertson; J MacDonald; L Jones; C McAlpine; F Dick; G S Taylor; G Murray Journal: Stroke Date: 2000-06 Impact factor: 7.914
Authors: Anna M Planas; Manuel Gómez-Choco; Xabier Urra; Roser Gorina; Miguel Caballero; Ángel Chamorro Journal: J Immunol Date: 2012-01-27 Impact factor: 5.422
Authors: Kyra J Becker; Angela J Kalil; Pat Tanzi; Dannielle K Zierath; Anna V Savos; J Michael Gee; Jessica Hadwin; Kelly T Carter; Dean Shibata; Kevin C Cain Journal: Stroke Date: 2011-07-28 Impact factor: 7.914
Authors: Daniel P Ankeny; Kurt M Lucin; Virginia M Sanders; Violeta M McGaughy; Phillip G Popovich Journal: J Neurochem Date: 2006-11 Impact factor: 5.372
Authors: Stephanie L H Zeiger; Erik S Musiek; Giuseppe Zanoni; Giovanni Vidari; Jason D Morrow; Ginger J Milne; BethAnn McLaughlin Journal: Free Radic Biol Med Date: 2009-08-19 Impact factor: 7.376
Authors: Alessandro Biffi; Destiny Bailey; Christopher D Anderson; Alison M Ayres; Edip M Gurol; Steven M Greenberg; Jonathan Rosand; Anand Viswanathan Journal: JAMA Neurol Date: 2016-08-01 Impact factor: 18.302
Authors: M Brainin; J Tuomilehto; W-D Heiss; N M Bornstein; P M W Bath; Y Teuschl; E Richard; A Guekht; T Quinn Journal: Eur J Neurol Date: 2014-12-09 Impact factor: 6.089
Authors: Thuy-Vi V Nguyen; Megan Hayes; Jacob C Zbesko; Jennifer B Frye; Nicole R Congrove; Nadia P Belichenko; Brian S McKay; Frank M Longo; Kristian P Doyle Journal: Acta Neuropathol Commun Date: 2018-09-24 Impact factor: 7.801
Authors: Janelle M Korf; Pedram Honarpisheh; Eric C Mohan; Anik Banerjee; Maria P Blasco-Conesa; Parisa Honarpisheh; Gary U Guzman; Romeesa Khan; Bhanu P Ganesh; Amy L Hazen; Juneyoung Lee; Aditya Kumar; Louise D McCullough; Anjali Chauhan Journal: J Immunol Date: 2022-06-22 Impact factor: 5.426
Authors: Mitchell S V Elkind; Amelia K Boehme; Craig J Smith; Andreas Meisel; Marion S Buckwalter Journal: Stroke Date: 2020-09-08 Impact factor: 7.914