Changes of central haemodynamic parameters during mental stress and acute bouts of static and dynamic exercise

Lydakis, Charalampos; Momen, Afsana; Blaha, Cheryl; Gugoff, Steve; Gray, Kristen S.; Herr, Michael D.; Leuenberger, Urs A.; Sinoway, Lawrence I.

doi:10.1038/jhh.2008.4

Cited by 49 publications

(31 citation statements)

References 50 publications

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“…The reasons for this are not entirely clear but are in line with some previous studies that have reported increases in AIx during forearm exercise (3,5,10), probably due to increased sympathetic activity. This contrasts with other studies of whole body exercise, which have typically reported decreased AIx during exercise (7,12,13).…”

Section: Discussionsupporting

confidence: 73%

The impact of exercise on derived measures of central pressure and augmentation index obtained from the SphygmoCor device

Dawson¹,

Black²,

Pybis³

et al. 2009

Journal of Applied Physiology

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Section: Discussionsupporting

confidence: 73%

The impact of exercise on derived measures of central pressure and augmentation index obtained from the SphygmoCor device

Dawson¹,

Black²,

Pybis³

et al. 2009

Journal of Applied Physiology

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“…The studies described by Lydakis et al 10 and McEniery et al 18 have demonstrated the proof of the concept that PTT could be estimated from the measurement of a single aortic pulse wave. They showed that the inflection point could be identified by waveform analysis of the aortic pressure pulse.…”

Section: Discussionmentioning

confidence: 90%

“…PTT has also been estimated from the time of the inflection point in the aorta. 10 For aortic pressure pulses are estimated from radial tonometry pulses with the use of a generalized transfer function, 7,11,12 it raises the possibility that PTT could be derived directly from radial arterial pulses and provided equivalent information to aortic PTT. The study of Millasseau et al 13 suggested that similar information on the aortic pressure wave could be obtained directly from the radial pulse.…”

Section: Introductionmentioning

confidence: 99%

Radial pulse transit time is an index of arterial stiffness

Zhang

Zheng

et al. 2011

Hypertens Res

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Aortic pulse wave velocity, calculated from pulse transit time (PTT), is often used as an indicator of arterial stiffness and suggested to be standardized for heart rate (HR). This study aimed to determine whether PTT obtained directly from radial arterial waveforms could be used to assess arterial stiffness and the effect of HR on it. Measurements of anthropometric parameters, blood pressure (BP) and radial PTT were taken in 266 apparently healthy adults (113 men and 153 women; age 18-78 years). BP and radial PTT were measured in a subgroup of 11 young subjects (seven men and four women, age 24-35 years) in a 3-month follow-up study, which aimed to investigate the effect of HR changes. Radial PTT was significantly higher in men compared with women (0.116±0.022 s compared with 0.103±0.031 s, Po0.001). It was inversely related to age in men and women (r¼À0.838 and r¼À0.804, respectively, Po0.01 for both). Multiple regression analysis showed that HR was a potent predictor of radial PTT in addition to age, sex and systolic BP. There was no significant change in radial PTT when HR ranged from 60 to 75 b.p.m. A significant decrease was found in radial PTT when HR was up to 80 b.p.m. (Po0.01). These findings indicate that the simple and easily obtainable radial PTT could be a useful index of arterial stiffness, and HR changes should be considered when it is up to 80 b.p.m.

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“…10,11 The travel time has also been estimated from the time of the inflection point, ie, the start of pressure augmentation, in proximal aortic pressure. 8,[12][13][14] This time of return, derived from aortic or carotid pressure has been used to estimate aortic pulse wave velocity (PWV) 10,11,[13][14][15] as a measure of aortic stiffness. Assuming that the major refection site is located at the lower abdominal aorta, twice this length (2L) divided by the time of return of the reflected wave (⌬t), ie, 2L/⌬t, has been taken equal to aortic PWV.…”

mentioning

confidence: 99%

Location of a Reflection Site Is Elusive

et al. 2008

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Abstract-Aortic pulse wave velocity (PWV), a measure of aortic stiffness, is an important indicator of cardiovascular risk.Derivation of PWV from uncalibrated proximal aortic or carotid pressure alone has practical advantages. However, when the time of return of the reflected wave, ⌬t, is used to calculate PWV, inaccurate data are obtained. With aging PWV increases but ⌬t hardly decreases, suggesting that the reflection site moves toward the periphery. We hypothesized that the forward and reflected waves in the distal aorta are not in phase, leading to an undefined reflection site. We derived forward and backward waves, at the entrance and distal end of a uniform tube, with length "L." With the tube closed at the end, forward and reflected waves are there in phase, and PWVϭ2L/⌬t. When the tube is ended with the input impedance of the lower body, forward and backward waves at its end are not in phase, and ⌬t is increased, suggesting that the reflection site is further away (tube seems longer), and PWV calculated from 2L/⌬t is underestimated. Using an anatomically accurate model of the human arterial system, we show that the forward and backward waves in the distal aorta are not in phase. When aortic PWV increases, ⌬t changes only little, and the reflection site appears to move to the periphery, similar to what is observed in humans. We conclude that to define the location of a reflection site is elusive and that PWV cannot be calculated from time of return of the reflected wave.

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Changes of central haemodynamic parameters during mental stress and acute bouts of static and dynamic exercise

Cited by 49 publications

References 50 publications

The impact of exercise on derived measures of central pressure and augmentation index obtained from the SphygmoCor device

The impact of exercise on derived measures of central pressure and augmentation index obtained from the SphygmoCor device

Radial pulse transit time is an index of arterial stiffness

Location of a Reflection Site Is Elusive

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