Aortic Reservoir Pressure Corresponds to Cyclic Changes in Aortic Volume

Schultz, Martin G.; Davies, Justin E.; Hardikar, Ashutosh; Pitt, S.; Moraldo, M.; Dhutia, Niti M.; Hughes, Alun D.; Sharman, James E.

doi:10.1161/atvbaha.114.303573

Cited by 42 publications

(28 citation statements)

References 35 publications

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“…Contrary to our hypothesis, wave separation analysis revealed that the reflected wave was not enhanced by the BFR during walking. In this regard, recent reports indicate that the reflected wave emanates around the proximal aorta (6) and that wave reflection from the periphery does not appear to influence the rise of aortic systolic BP during leg cycling exercise (6,20,21). Leg BFR-induced elevation of aortic systolic BP might be supported by these notions but not by the traditional wave theory.…”

Section: Discussionmentioning

confidence: 95%

“…However, the present findings are not consistent with this arterial wave reflection theory. The observed increases in central BP can be explained by changes in IWA and RWA acting through impeded outflow (impaired diastolic discharge) (6,20,21). Exercise-induced change in aortic PP was correlated with corresponding changes in IWA and RWA, and changes in IWA were entered into the multiple regressional model as a significant independent determinant of the exercise-induced change in aortic BP.…”

Section: Discussionmentioning

confidence: 99%

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Impact of leg blood flow restriction during walking on central arterial hemodynamics

Sugawara

Tomoto

Tanaka

2015

American Journal of Physiology-Regulatory, Integrative and Comp

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Walking exercise with limb blood flow restriction (BFR) has been shown to increase muscular mass and strength even if it is performed at low exercise intensities. Despite mounting evidence for its efficacy and the increasing popularity, the safety of BFR exercise in relation to cardiac loads has not been established. The aim of this study was to determine the response of central hemodynamics during the BFR exercise to assess its impact on cardiac load. Fifteen apparently healthy sedentary or recreationally active adults (10 men and 5 women, 27 ± 1 yr) underwent five bouts of 2-min constant treadmill walking at 2 mph with 1-min rest intervals either with or without BFR on both proximal thighs. Beat-by-beat blood pressure and hemodynamics (via Modelflow method) were measured, and central arterial hemodynamics were evaluated with pulse wave analyses via general transfer function. Incident wave amplitude (IWA) and reflected wave amplitude (RWA) were obtained by the wave separation analysis. Peripheral systolic blood pressure (SBP) increased more substantially during walking with BFR (43 ± 5% vs. baseline) than without BFR (11 ± 4% vs. baseline). Aortic SBP did not change significantly during walking without BFR, but there was a substantial elevation in aortic SBP (43 ± 5% vs. baseline) during walking with BFR. Significant effect of BFR was seen in IWA but not in RWA. These findings suggest that even during slow-speed walking, leg BFR induces substantial hypertensive responses in the aorta. However, this response could not be explained by the augmented wave reflection.

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Impact of leg blood flow restriction during walking on central arterial hemodynamics

Sugawara

Tomoto

Tanaka

2015

American Journal of Physiology-Regulatory, Integrative and Comp

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“…Although the wave reflection theory may provide a plausible description of CBP morphology, recent studies indicate that the influence of wave reflection on CBP may be less than initially assumed due to wave dispersion along the aorta and entrapment of reflected waves in the periphery. Accumulating evidence has shown that the reservoir function has a significant contribution to the augmentation of CBP [40]. The aortic reservoir represents the buffering role of the highly elastic proximal aorta, and the reservoir pressure is the minimum hydraulic force needed for the ventricle to generate the blood flow.…”

Section: Differences Between Central and Peripheral Bp Measurementmentioning

confidence: 99%

“…This leads to augmented BP and results in left ventricular hypertrophy due to the increased myocardial load. The reservoir pressure is highly correlated with changes in proximal aortic volume, and parameters from the reservoir wave can predict cardiovascular events and correlates with left ventricular mass [40,41,42]. The excess pressure integral is the difference between the measured BP waveform and reservoir pressure, and is a measure of the extra work needed by the left ventricle.…”

Section: Differences Between Central and Peripheral Bp Measurementmentioning

confidence: 99%

Practical Suitability of a Stand-Alone Oscillometric Central Blood Pressure Monitor: A Review of the Microlife WatchBP Office Central

Verberk

Cheng

Huang³

et al. 2015

Pulse

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Accumulating evidence indicates that central blood pressure (CBP) is a better cardiovascular risk predictor than brachial blood pressure (BP). Although more additional benefits of CBP-based treatment above usual hypertension treatment are to be demonstrated, the demand for implementing CBP assessment in general clinical practice is increasing. For this, the measurement procedure must be noninvasive, easy to perform, and cost- and time-efficient. Therefore, oscillometric devices with the possibility to assess CBP seem the best option. Recently, such an oscillometric BP monitor, the Microlife WatchBP Office Central, was developed, which demonstrated its high accuracy in a validation study against invasive BP measurement. Calibration errors of this device are limited because the procedure is automated, standardized, and performed at the same place of and within 30 s from pulse wave assessment. The transformation from the peripheral pulse wave to CBP is done by means of an individual-based pulse wave analysis according to a theory of arterial compliance and wave reflections. In addition, the device has demonstrated to enable a more reliable diagnosis of hypertension by CBP than by peripheral BP, with a lower frequency of over- and underdiagnosis. Altogether, the available clinical evidence suggests that the Microlife WatchBP Office Central fulfills the criteria for general clinical use.

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“…12,13 In the latter population there was an improvement of the c statistic with the inclusion of aortic excess pressure into predictor models for CV events already containing conventional Framingham risk factors (including brachial BP). 13 This novel marker, representing excess left ventricular (LV) work, has been validated in humans, 14 and can be produced from pressure waveforms (oscillometric cuff or tonometry) without using a generalised transfer function, and is a promising area for future study.…”

Section: Improved Prognostic Capacitymentioning

confidence: 99%

Central pressure should be used in clinical practice

Sharman

2014

ARTRES

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The original purpose for recording brachial blood pressure (BP) more than 100 years ago was to estimate central (aortic) BP. While high brachial BP is an important cardiovascular risk factor, it is clear that major differences in central systolic BP (SBP; e.g. >30 mmHg) can occur among people with similar brachial SBP. It is also proven that central SBP responses to antihypertensive therapy can differ substantially from brachial SBP responses, such that true treatment effects cannot be gauged from conventional brachial BP. Importantly, assessment of central BP results in: 1) improved predictive accuracy of future cardiovascular events beyond brachial BP and other cardiovascular risk factors; 2) superior diagnostic accuracy over brachial BP and; 3) different patient management than usual care guided by brachial BP. Collectively, the above illustrates that central BP is a better cardiovascular risk biomarker than brachial BP. As with all medical advances there are areas of research need and international consensus is required on issues such as standardization of techniques. However, central BP can now be accurately estimated (with appropriate waveform calibration) using brachial cuff methods in an approach that is familiar to clinicians, acceptable to patients and amenable to widespread use. In other words, this modern BP technique can finally satisfy the original purpose for measuring central aortic BP as intended more than 100 years ago. Although the tipping point towards routine use is yet to be reached, the body of evidence continues to favour the view that central BP should be used in clinical practice.

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Aortic Reservoir Pressure Corresponds to Cyclic Changes in Aortic Volume

Cited by 42 publications

References 35 publications

Impact of leg blood flow restriction during walking on central arterial hemodynamics

Impact of leg blood flow restriction during walking on central arterial hemodynamics

Practical Suitability of a Stand-Alone Oscillometric Central Blood Pressure Monitor: A Review of the Microlife WatchBP Office Central

Central pressure should be used in clinical practice

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