Arterial pressure variations as parameters of brain perfusion in response to central blood volume depletion and repletion

Anne-Sophie G. T. Bronzwaer; Wim J. Stok; Berend E. Westerhof; Johannes J. van Lieshout

doi:https://doi.org/10.3389/fphys.2014.00157

Arterial pressure variations as parameters of brain perfusion in response to central blood volume depletion and repletion

Anne-Sophie G. T. Bronzwaer, Wim J. Stok, Berend E. Westerhof, Johannes J. van Lieshout

Research output: Contribution to journal › Article › Academic › peer-review

12 Citations (Scopus)

Abstract

Rationale: A critical reduction in central blood volume (CBV) is often characterized by hemodynamic instability. Restoration of a volume deficit may be established by goal-directed fluid therapy guided by respiration-related variation in systolic- and pulse pressure (SPV and PPV). Stroke volume index (SVI) serves as a surrogate end-point of a fluid challenge but tissue perfusion itself has not been addressed. Objective: To delineate the relationship between arterial pressure variations, SVI and regional brain perfusion during CBV depletion and repletion in spontaneously breathing volunteers. Methods: This study quantified in 14 healthy subjects (11 male) the effects of CBV depletion [by 30 and 70 degrees passive head-up tilt (HUT)] and a fluid challenge (by tilt back) on CBV (thoracic admittance), mean middle cerebral artery (MCA) blood flow velocity (V-mean), SVI, cardiac index (Cl), PPV, and SPV. Results: PPV (103 +/- 89%, p <0.05) and SPV (136 +/- 117%, p <0.05) increased with progression of central hypovolemia manifested by a reduction in thoracic admittance (11 +/- 5%, p <0.001), SVI (28 +/- 6%, p <0.001), Cl (6 +/- 8%, p <0.001), and MCAV(mean) (17 +/- 7%, p <0.05) but not in arterial pressure. The reduction in MCAV(mean) correlated to the fall in SVI (R-2 = 0.52, p <0.0001) and inversely to PPV and SPV [R-2 = 0.46 (p <0.0001) and R-2 = 0.45 (p <0.0001), respectively]. PPV and SPV predicted a >= 15% reduction in MCAV(mean) and SVI with comparable sensitivity (67/67% vs. 63/68%, respectively) and specificity (89/94 vs. 89/94%, respectively). A rapid fluid challenge by tilt-back restored all parameters to baseline values within 1 min. Conclusion: In spontaneously breathing subjects, a reduction in MCAVmean was related to an increase in PPV and SPV during graded CBV depletion and repletion. Specifically, PPV and SPV predicted changes in both SVI and MCAV(mean) comparable sensitivity and specificity, however the predictive value is limited in spontaneously breathing subjects

Original language	English
Pages (from-to)	157
Journal	Frontiers in physiology
Volume	5
DOIs	https://doi.org/10.3389/fphys.2014.00157
Publication status	Published - 2014

Access to Document

https://doi.org/10.3389/fphys.2014.00157

Cite this

@article{26ef98fad51240259f4ef5fba259de9c,

title = "Arterial pressure variations as parameters of brain perfusion in response to central blood volume depletion and repletion",

abstract = "Rationale: A critical reduction in central blood volume (CBV) is often characterized by hemodynamic instability. Restoration of a volume deficit may be established by goal-directed fluid therapy guided by respiration-related variation in systolic- and pulse pressure (SPV and PPV). Stroke volume index (SVI) serves as a surrogate end-point of a fluid challenge but tissue perfusion itself has not been addressed. Objective: To delineate the relationship between arterial pressure variations, SVI and regional brain perfusion during CBV depletion and repletion in spontaneously breathing volunteers. Methods: This study quantified in 14 healthy subjects (11 male) the effects of CBV depletion [by 30 and 70 degrees passive head-up tilt (HUT)] and a fluid challenge (by tilt back) on CBV (thoracic admittance), mean middle cerebral artery (MCA) blood flow velocity (V-mean), SVI, cardiac index (Cl), PPV, and SPV. Results: PPV (103 +/- 89%, p <0.05) and SPV (136 +/- 117%, p <0.05) increased with progression of central hypovolemia manifested by a reduction in thoracic admittance (11 +/- 5%, p <0.001), SVI (28 +/- 6%, p <0.001), Cl (6 +/- 8%, p <0.001), and MCAV(mean) (17 +/- 7%, p <0.05) but not in arterial pressure. The reduction in MCAV(mean) correlated to the fall in SVI (R-2 = 0.52, p <0.0001) and inversely to PPV and SPV [R-2 = 0.46 (p <0.0001) and R-2 = 0.45 (p <0.0001), respectively]. PPV and SPV predicted a >= 15% reduction in MCAV(mean) and SVI with comparable sensitivity (67/67% vs. 63/68%, respectively) and specificity (89/94 vs. 89/94%, respectively). A rapid fluid challenge by tilt-back restored all parameters to baseline values within 1 min. Conclusion: In spontaneously breathing subjects, a reduction in MCAVmean was related to an increase in PPV and SPV during graded CBV depletion and repletion. Specifically, PPV and SPV predicted changes in both SVI and MCAV(mean) comparable sensitivity and specificity, however the predictive value is limited in spontaneously breathing subjects",

author = "Bronzwaer, {Anne-Sophie G. T.} and Stok, {Wim J.} and Westerhof, {Berend E.} and {van Lieshout}, {Johannes J.}",

year = "2014",

doi = "https://doi.org/10.3389/fphys.2014.00157",

language = "English",

volume = "5",

pages = "157",

journal = "Frontiers in physiology",

issn = "1664-042X",

publisher = "Frontiers Media S.A.",

}

TY - JOUR

T1 - Arterial pressure variations as parameters of brain perfusion in response to central blood volume depletion and repletion

AU - Bronzwaer, Anne-Sophie G. T.

AU - Stok, Wim J.

AU - Westerhof, Berend E.

AU - van Lieshout, Johannes J.

PY - 2014

Y1 - 2014

N2 - Rationale: A critical reduction in central blood volume (CBV) is often characterized by hemodynamic instability. Restoration of a volume deficit may be established by goal-directed fluid therapy guided by respiration-related variation in systolic- and pulse pressure (SPV and PPV). Stroke volume index (SVI) serves as a surrogate end-point of a fluid challenge but tissue perfusion itself has not been addressed. Objective: To delineate the relationship between arterial pressure variations, SVI and regional brain perfusion during CBV depletion and repletion in spontaneously breathing volunteers. Methods: This study quantified in 14 healthy subjects (11 male) the effects of CBV depletion [by 30 and 70 degrees passive head-up tilt (HUT)] and a fluid challenge (by tilt back) on CBV (thoracic admittance), mean middle cerebral artery (MCA) blood flow velocity (V-mean), SVI, cardiac index (Cl), PPV, and SPV. Results: PPV (103 +/- 89%, p <0.05) and SPV (136 +/- 117%, p <0.05) increased with progression of central hypovolemia manifested by a reduction in thoracic admittance (11 +/- 5%, p <0.001), SVI (28 +/- 6%, p <0.001), Cl (6 +/- 8%, p <0.001), and MCAV(mean) (17 +/- 7%, p <0.05) but not in arterial pressure. The reduction in MCAV(mean) correlated to the fall in SVI (R-2 = 0.52, p <0.0001) and inversely to PPV and SPV [R-2 = 0.46 (p <0.0001) and R-2 = 0.45 (p <0.0001), respectively]. PPV and SPV predicted a >= 15% reduction in MCAV(mean) and SVI with comparable sensitivity (67/67% vs. 63/68%, respectively) and specificity (89/94 vs. 89/94%, respectively). A rapid fluid challenge by tilt-back restored all parameters to baseline values within 1 min. Conclusion: In spontaneously breathing subjects, a reduction in MCAVmean was related to an increase in PPV and SPV during graded CBV depletion and repletion. Specifically, PPV and SPV predicted changes in both SVI and MCAV(mean) comparable sensitivity and specificity, however the predictive value is limited in spontaneously breathing subjects

AB - Rationale: A critical reduction in central blood volume (CBV) is often characterized by hemodynamic instability. Restoration of a volume deficit may be established by goal-directed fluid therapy guided by respiration-related variation in systolic- and pulse pressure (SPV and PPV). Stroke volume index (SVI) serves as a surrogate end-point of a fluid challenge but tissue perfusion itself has not been addressed. Objective: To delineate the relationship between arterial pressure variations, SVI and regional brain perfusion during CBV depletion and repletion in spontaneously breathing volunteers. Methods: This study quantified in 14 healthy subjects (11 male) the effects of CBV depletion [by 30 and 70 degrees passive head-up tilt (HUT)] and a fluid challenge (by tilt back) on CBV (thoracic admittance), mean middle cerebral artery (MCA) blood flow velocity (V-mean), SVI, cardiac index (Cl), PPV, and SPV. Results: PPV (103 +/- 89%, p <0.05) and SPV (136 +/- 117%, p <0.05) increased with progression of central hypovolemia manifested by a reduction in thoracic admittance (11 +/- 5%, p <0.001), SVI (28 +/- 6%, p <0.001), Cl (6 +/- 8%, p <0.001), and MCAV(mean) (17 +/- 7%, p <0.05) but not in arterial pressure. The reduction in MCAV(mean) correlated to the fall in SVI (R-2 = 0.52, p <0.0001) and inversely to PPV and SPV [R-2 = 0.46 (p <0.0001) and R-2 = 0.45 (p <0.0001), respectively]. PPV and SPV predicted a >= 15% reduction in MCAV(mean) and SVI with comparable sensitivity (67/67% vs. 63/68%, respectively) and specificity (89/94 vs. 89/94%, respectively). A rapid fluid challenge by tilt-back restored all parameters to baseline values within 1 min. Conclusion: In spontaneously breathing subjects, a reduction in MCAVmean was related to an increase in PPV and SPV during graded CBV depletion and repletion. Specifically, PPV and SPV predicted changes in both SVI and MCAV(mean) comparable sensitivity and specificity, however the predictive value is limited in spontaneously breathing subjects

U2 - https://doi.org/10.3389/fphys.2014.00157

DO - https://doi.org/10.3389/fphys.2014.00157

M3 - Article

C2 - 24795652

SN - 1664-042X

VL - 5

SP - 157

JO - Frontiers in physiology

JF - Frontiers in physiology

ER -