TY - JOUR
T1 - Systemic and cerebral circulatory adjustment within the first 60 s after active standing: An integrative physiological view
AU - Harms, Mark P. M.
AU - Finucane, Ciáran
AU - Pérez-Denia, Laura
AU - Jurachek, Stephen
AU - van Wijnen, Veera K.
AU - Lipsitz, Lewis A.
AU - van Lieshout, Johannes J.
AU - Wieling, Wouter
N1 - Funding Information: LP is supported by the Irish Research Council : Government of Ireland Postgraduate Scholarship Programme 2018 (Grant No: GOIPG/2018/134 ) and the Fundació Universitària Agustí Pedro i Pons, Universitat de Barcelona . Funding Information: CF holds Science Foundation Ireland and Irish Research Council grants; Grant No: 19/IFA/7409 and Grant No: GOIPG/2018/134. Funding Information: CF holds Science Foundation Ireland and Irish Research Council grants; Grant No: 19/IFA/7409 and Grant No: GOIPG/2018/134.LP is supported by the Irish Research Council: Government of Ireland Postgraduate Scholarship Programme 2018 (Grant No: GOIPG/2018/134) and the Fundaci? Universit?ria Agust? Pedro i Pons, Universitat de Barcelona.LL holds the Irving and Edyth S. Usen and Family Chair in Geriatric Medicine at Hebrew Senior Life and reports grants from the National Institute on Aging: R01 AG025037, P30 AG031679, and R01 AG059089.SJ reports National Institute of Health grant support; NIH/NHLBI: K23HL135273-04. Funding Information: LL holds the Irving and Edyth S. Usen and Family Chair in Geriatric Medicine at Hebrew Senior Life and reports grants from the National Institute on Aging : R01 AG025037 , P30 AG031679 , and R01 AG059089 . Publisher Copyright: © 2020
PY - 2021/3/1
Y1 - 2021/3/1
N2 - Transient cardiovascular and cerebrovascular responses within the first minute of active standing provide the means to assess autonomic, cardiovascular and cerebrovascular regulation using a real-world everyday stimulus. Traditionally, these responses have been used to detect autonomic dysfunction, and to identify the hemodynamic correlates of patient symptoms and attributable causes of (pre)syncope and falls. This review addresses the physiology of systemic and cerebrovascular adjustment within the first 60 s after active standing. Mechanical factors induced by standing up cause a temporal mismatch between cardiac output and vascular conductance which leads to an initial blood pressure drops with a nadir around 10 s. The arterial baroreflex counteracts these initial blood pressure drops, but needs 2–3 s to be initiated with a maximal effect occurring at 10 s after standing while, in parallel, cerebral autoregulation buffers these changes within 10 s to maintain adequate cerebral perfusion. Interestingly, both the magnitude of the initial drop and these compensatory mechanisms are thought to be quite well-preserved in healthy aging. It is hoped that the present review serves as a reference for future pathophysiological investigations and epidemiological studies. Further experimental research is needed to unravel the causal mechanisms underlying the emergence of symptoms and relationship with aging and adverse outcomes in variants of orthostatic hypotension.
AB - Transient cardiovascular and cerebrovascular responses within the first minute of active standing provide the means to assess autonomic, cardiovascular and cerebrovascular regulation using a real-world everyday stimulus. Traditionally, these responses have been used to detect autonomic dysfunction, and to identify the hemodynamic correlates of patient symptoms and attributable causes of (pre)syncope and falls. This review addresses the physiology of systemic and cerebrovascular adjustment within the first 60 s after active standing. Mechanical factors induced by standing up cause a temporal mismatch between cardiac output and vascular conductance which leads to an initial blood pressure drops with a nadir around 10 s. The arterial baroreflex counteracts these initial blood pressure drops, but needs 2–3 s to be initiated with a maximal effect occurring at 10 s after standing while, in parallel, cerebral autoregulation buffers these changes within 10 s to maintain adequate cerebral perfusion. Interestingly, both the magnitude of the initial drop and these compensatory mechanisms are thought to be quite well-preserved in healthy aging. It is hoped that the present review serves as a reference for future pathophysiological investigations and epidemiological studies. Further experimental research is needed to unravel the causal mechanisms underlying the emergence of symptoms and relationship with aging and adverse outcomes in variants of orthostatic hypotension.
KW - Aging
KW - Anoxia reserve time
KW - Cerebral autoregulation
KW - Cerebral perfusion
KW - Initial orthostatic hypotension
KW - Systemic hemodynamics
UR - http://www.scopus.com/inward/record.url?scp=85098601357&partnerID=8YFLogxK
U2 - https://doi.org/10.1016/j.autneu.2020.102756
DO - https://doi.org/10.1016/j.autneu.2020.102756
M3 - Review article
C2 - 33385733
SN - 1566-0702
VL - 231
JO - Autonomic neuroscience
JF - Autonomic neuroscience
M1 - 102756
ER -