Blood–brain barrier dysfunction: the undervalued frontier of hypertension

The blood–brain barrier (BBB) constitutes the complex anatomic and physiologic interface between the intravascular compartment and the central nervous system, and its integrity is paramount for the maintenance of the very sensitive homeostasis of the central nervous system. Arterial hypertension is...

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Veröffentlicht in:	Journal of human hypertension 2020-10, Vol.34 (10), p.682-691
Hauptverfasser:	Katsi, Vasiliki, Marketou, Maria, Maragkoudakis, Spyridon, Didagelos, Matthaios, Charalambous, Georgios, Parthenakis, Fragkiskos, Tsioufis, Costas, Tousoulis, Dimitrios
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Schlagworte:	64/60 692/699/75/243/785 692/699/75/243/793 Antihypertensives Autonomic nervous system Blood pressure Blood-brain barrier Central nervous system Central nervous system diseases Cognitive ability Dementia Dementia disorders Drug development Epidemiology Health Administration Health aspects Homeostasis Hypertension Medicine Medicine & Public Health Morbidity Nervous system Nervous system diseases Pathophysiology Public Health Review Article
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creator	Katsi, Vasiliki Marketou, Maria Maragkoudakis, Spyridon Didagelos, Matthaios Charalambous, Georgios Parthenakis, Fragkiskos Tsioufis, Costas Tousoulis, Dimitrios
description	The blood–brain barrier (BBB) constitutes the complex anatomic and physiologic interface between the intravascular compartment and the central nervous system, and its integrity is paramount for the maintenance of the very sensitive homeostasis of the central nervous system. Arterial hypertension is a leading cause of morbidity and mortality. The BBB has been shown to be disrupted in essential hypertension. BBB integrity is important for central autonomic control and this may be implicated in the pathophysiology of hypertension. On the other hand, evidence from experimental studies indicates that BBB disruption can be present in both hypertensive disease and dementia syndromes, suggesting a possibly key position of loss of BBB integrity in the pathophysiological pathways linking arterial hypertension with cognitive decline. Although much still remains to be elucidated with respect to the exact underlying mechanisms, the discovery of novel pathological pathways has changed our understanding of adult dementia and central nervous system disease overall, pointing out—in parallel—new potential therapeutic targets. The aim of this review is to summarize current scientific knowledge relevant to the pathophysiologic pathways that are involved in the disruption of the BBB function and potentially mediate hypertension-induced cognitive impairment. In parallel, we underline the differential cognition-preserving effect of several antihypertensive agents of similar blood pressure-lowering capacity, highlighting the presence of previously under-recognized BBB-protective actions of these drugs.
doi_str_mv	10.1038/s41371-020-0352-2
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subjects	64/60 692/699/75/243/785 692/699/75/243/793 Antihypertensives Autonomic nervous system Blood pressure Blood-brain barrier Central nervous system Central nervous system diseases Cognitive ability Dementia Dementia disorders Drug development Epidemiology Health Administration Health aspects Homeostasis Hypertension Medicine Medicine & Public Health Morbidity Nervous system Nervous system diseases Pathophysiology Public Health Review Article
title	Blood–brain barrier dysfunction: the undervalued frontier of hypertension
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