TY - JOUR
T1 - Role of vascular adaptation in determining systolic blood pressure in young adults
AU - Enigma Study Investigators
AU - Yu, Shikai
AU - Middlemiss, Jessica E.
AU - Nardin, Chiara
AU - Hickson, Stacey S.
AU - Miles, Karen L.
AU - Yasmin,
AU - Maki-Petaja, Kaisa M.
AU - McDonnell, Barry J.
AU - Cockcroft, John R.
AU - Wilkinson, Ian B.
AU - McEniery, Carmel M.
N1 - Publisher Copyright:
© 2020 The Authors.
PY - 2020/3/30
Y1 - 2020/3/30
N2 - BACKGROUND: Two individuals can have a similar pulse pressure (PP) but different levels of systolic blood pressure (SBP), although the underlying mechanisms have not been described. We hypothesized that, for a given level of PP, differences in SBP relate to peripheral vascular resistance (PVR); and we tested this hypothesis in a large cohort of healthy young adults. METHODS AND RESULTS: Demographic, biochemical, and hemodynamic data from 3103 subjects were available for the current analyses. In both men and women, for a given level of PP, higher SBP was associated with significantly higher body weight, body mass index, heart rate, and PVR (P<0.05 versus those with lower BP for all comparisons). Moreover, stratifying individuals by quartiles of PP and PVR revealed a stepwise increase in SBP from the lowest to highest quartile for each variable, with the highest SBP occurring in those in the highest quartile of both PP and PVR (P<0.001 for overall trend for both sexes). PVR was also increased with increasing tertile of minimum forearm vascular resistance, in both men (P=0.002) and women (P=0.03). CONCLUSIONS: Increased PVR, mediated in part through altered resistance vessel structure, strongly associates with the elevation of SBP for a given level of PP in young adults. An impaired ability to adapt PVR appropriately to a given level of PP may be an important mechanism underlying elevated SBP in young adults.
AB - BACKGROUND: Two individuals can have a similar pulse pressure (PP) but different levels of systolic blood pressure (SBP), although the underlying mechanisms have not been described. We hypothesized that, for a given level of PP, differences in SBP relate to peripheral vascular resistance (PVR); and we tested this hypothesis in a large cohort of healthy young adults. METHODS AND RESULTS: Demographic, biochemical, and hemodynamic data from 3103 subjects were available for the current analyses. In both men and women, for a given level of PP, higher SBP was associated with significantly higher body weight, body mass index, heart rate, and PVR (P<0.05 versus those with lower BP for all comparisons). Moreover, stratifying individuals by quartiles of PP and PVR revealed a stepwise increase in SBP from the lowest to highest quartile for each variable, with the highest SBP occurring in those in the highest quartile of both PP and PVR (P<0.001 for overall trend for both sexes). PVR was also increased with increasing tertile of minimum forearm vascular resistance, in both men (P=0.002) and women (P=0.03). CONCLUSIONS: Increased PVR, mediated in part through altered resistance vessel structure, strongly associates with the elevation of SBP for a given level of PP in young adults. An impaired ability to adapt PVR appropriately to a given level of PP may be an important mechanism underlying elevated SBP in young adults.
KW - Cardiac output
KW - Hemodynamics
KW - Minimum forearm vascular resistance
KW - Peripheral vascular resistance
KW - Pulse pressure
UR - http://www.scopus.com/inward/record.url?scp=85092886656&partnerID=8YFLogxK
U2 - 10.1161/JAHA.119.014375
DO - 10.1161/JAHA.119.014375
M3 - Article
C2 - 33044913
AN - SCOPUS:85092886656
SN - 2047-9980
VL - 9
JO - Journal of the American Heart Association
JF - Journal of the American Heart Association
IS - 7
M1 - e014375
ER -