Wave reflection augments central systolic and pulse pressures during facial cooling

Edwards, David G.; Roy, Matthew S.; Prasad, Raju Y.

doi:10.1152/ajpheart.01369.2007

Cited by 29 publications

(22 citation statements)

References 46 publications

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“…Thus, the time course was similar to that of MSNA (Victor et al 1987;Yamamoto et al 1992), suggesting that coldand/or pain-induced vasoconstriction increases arterial stiffness and the PWV, which leads to increases in wave reflection from the periphery, the AIx@75 (Nichols 2005;Edwards et al 2008a). Similarly, in isometric handgrip exercise, both PWV and AIx@75 remained unchanged during the first 30 s, but increased from the control value at 60 s of exercise and remained elevated until 30 s after exercise, following almost the same time course as MSNA (Mark et al1985;Seals and Victor 1991;Hashimoto et al 1998).…”

Section: Arterial Stiffnessmentioning

confidence: 59%

Increased cardiovascular reactivity to the cold pressor test is not associated with increased reactivity to isometric handgrip exercise

Moriyama

Ifuku

2009

Eur J Appl Physiol

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Individuals who respond with a rise of 15 mmHg or more in their systolic and/or diastolic blood pressure to a cold pressor test are called blood pressure hyperreactors. We examined whether hyperreactors (n = 8) showed greater reactivity of arterial stiffness, i.e., pulse wave velocity (PWV) and augmentation index normalized to a heart rate of 75 bpm (AIx@75), to the cold pressor test than normal reactors (n = 15), and whether the former showed larger cardiovascular responses to isometric handgrip exercise. The cold pressor test was performed following Hines-Brown's method, with subjects immersing their right hand in 4 degrees C water for 2 min. Isometric handgrip exercise was performed at 30% maximal voluntary contraction for 2 min. Comparison between hyperreactors and normal reactors by two-way ANOVA during cold pressor test revealed a group x time interaction for PWV and AIx@75 with a greater increase in hyperreactors. During isometric handgrip exercise, no group x time interactions were detected for all measurements. Blood pressure hyperreactors show larger cardiovascular responses to the cold pressor test, but not to isometric handgrip exercise in comparison to normal blood pressure reactors.

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Section: Arterial Stiffnessmentioning

confidence: 59%

Increased cardiovascular reactivity to the cold pressor test is not associated with increased reactivity to isometric handgrip exercise

Moriyama

Ifuku

2009

Eur J Appl Physiol

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“…Care was taken to avoid contact with the eyes (i.e., to avoid the oculocardiac reflex), and subjects were monitored to ensure normal breathing. This foreheadcooling procedure is thought to stimulate trigeminal afferents that are involved in the diving reflex (i.e., bradycardia and peripheral vasoconstriction), but bradycardia is not a universal finding in healthy people (11,22,65). Because forehead cooling at 1°C was expected to be painful, we also performed forehead cooling at 15°C in all subjects, which is a temperature that stimulates cold-sensitive afferents but does not elicit pain (23,32,35).…”

Section: Subjects and Designmentioning

confidence: 99%

Effect of healthy aging on renal vascular responses to local cooling and apnea

Patel

Mast

Sinoway

et al. 2013

Journal of Applied Physiology

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Patel HM, Mast JL, Sinoway LI, Muller MD. Effect of healthy aging on renal vascular responses to local cooling and apnea. J Appl Physiol 115: 90 -96, 2013. First published May 2, 2013 doi:10.1152/japplphysiol.00089.2013.-Sympathetically mediated renal vasoconstriction may contribute to the pathogenesis of hypertension in older adults, but empirical data in support of this concept are lacking. In 10 young (26 Ϯ 1 yr) and 11 older (67 Ϯ 2 yr) subjects, we quantified acute hemodynamic responses to three sympathoexcitatory stimuli: local cooling of the forehead, cold pressor test (CPT), and voluntary apnea. We hypothesized that all stimuli would increase mean arterial blood pressure (MAP) and renal vascular resistance index (RVRI) and that aging would augment these effects. Beat-bybeat MAP, heart rate (HR), and renal blood flow velocity (from Doppler) were measured in the supine posture, and changes from baseline were compared between groups. In response to 1°C forehead cooling, aging was associated with an augmented MAP (20 Ϯ 3 vs. 6 Ϯ 2 mmHg) and RVRI (35 Ϯ 6 vs. 16 Ϯ 9%) but not HR. In older adults, there was a positive correlation between the cold-induced pressor response and forehead pain (R ϭ 0.726), but this effect was not observed in young subjects. The CPT raised RVRI in both young (56 Ϯ 13%) and older (45 Ϯ 8%) subjects, but this was not different between groups. Relative to baseline, end-expiratory apnea increased RVRI to a similar extent in both young (46 Ϯ 14%) and older (41 Ϯ 9%) subjects. During sympathetic activation, renal vasoconstriction occurred in both groups. Forehead cooling caused an augmented pressor response in older adults that was related to pain perception. cold face test; renal blood flow; vasoconstriction; peripheral chemoreflex; noxious cooling THE KIDNEY IS A VITAL ORGAN for salt and water homeostasis and receives ϳ20% of cardiac output in resting humans (60). Furthermore, the renal vasculature is innervated by sympathetic nerves that allow for alpha adrenergic-mediated vasoconstriction during times of stress (i.e., exercise and orthostasis) (6, 43). As such, acute adjustments in renal blood flow importantly contribute to whole-body fluid balance and blood pressure control. It follows that chronic impairments in this process (e.g., enhanced water reabsorption and/or enhanced vasoconstriction) predispose an individual to hypertension. Considering that aging itself is a risk factor for hypertension (44,67), and glomerular filtration rate declines with age (12,14), baseline impairments in renal function combined with sympathetic activation may negatively affect the elderly. Therefore, a better understanding of the renal circulation in older adults may have clinical relevance. However, there is currently little experimental data (42, 61) regarding the effect of healthy aging on renal vasoconstriction during sympathoexcitatory stress.Cold temperatures are seasonally experienced in most regions of the world. The compensatory physiological responses to cold involve the sympathetic nervous ...

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“…26 The cold exposure also increases aortic augmentation index (AIx), a measure of wave reflection, leading to augmented central systolic pressure. 27 Cold pressor test conducted in healthy individuals demonstrated that stress exerted through the cold pressor for a minute stimulated the sympathetic nervous system resulting in accelerated heart rate and elevated blood pressure, both systolic and diastolic, in comparison to those recorded before the foregoing test in all the normotensive volunteers. 28 In our study, similar observations have been recorded.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of effect of highly standardized aqueous extract of roots and leaves of Withania somnifera on cold pressor test induced cardiovascular changes in healthy human subjects

Pilli

Koilagundla

Gsh

et al. 2016

Int J Basic Clin Pharmacol

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Wave reflection augments central systolic and pulse pressures during facial cooling

Cited by 29 publications

References 46 publications

Increased cardiovascular reactivity to the cold pressor test is not associated with increased reactivity to isometric handgrip exercise

Increased cardiovascular reactivity to the cold pressor test is not associated with increased reactivity to isometric handgrip exercise

Effect of healthy aging on renal vascular responses to local cooling and apnea

Evaluation of effect of highly standardized aqueous extract of roots and leaves of Withania somnifera on cold pressor test induced cardiovascular changes in healthy human subjects

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