Cardiovascular autonomic modulation in essential hypertension. Effect of tilting.

Passive head up tilt (HUT) and mental arithmetic (MA) are commonly used for providing mental and orthostatic challenges, respectively. In animal experiments, even a single exposure to a stressor has been shown to modify the response to subsequent stress stimulus. We investigated whether MA applied before HUT elicits synergistic responses in orthostatic heart rate (HR), cardiac output (CO), heart rate variability and arterial blood pressure. The 15 healthy young males were subjected to two randomized protocols: (a) HUT and (b) HUT preceded by MA, with sessions randomized and Z2 weeks apart. Beat to beat continuous hemodynamic variables were measured and saliva samples taken for hormonal assay. HUT alone increased HR from 5977 (baseline) to 80710 bpm (mean7SD) and mean blood pressure (MBP) from 88710 to 91714 mmHg. HUT results after MA were not different from those with HUT alone. The activity of alpha amylase showed differences during the experiments irrespective of the protocols. We conclude that mental challenge does not affect orthostatic cardiovascular responses when applied before; the timing of mental loading seems to be critical if it is intended to alter cardiovascular responses to upright standing.

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“…Baroreceptor sensitivity decreased as well, suggesting an increased autonomic reactivity, which is in agreement with earlier reports [25].…”

Section: Discussionsupporting

confidence: 93%

“…Blood pressure changes reported here may not only reflect modulation of the autonomic system but vascular reactivity arising due to autonomic stimulation [25]. Moreover, spectral indices do not provide a real measure of nerve activities but only are markers of their overall interaction with target function [15].…”

Section: Limitationsmentioning

confidence: 99%

Does mental arithmetic before head up tilt have an effect on the orthostatic cardiovascular and hormonal responses?

et al. 2011

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“…Thus, our data confirmed that 0.2 Hz oscillations of BP are mechanically mediated oscillations, secondary to changes in respiration and cardiac output. 6,41,42 Moreover, our results showed that 0.2 Hz oscillations of CBFV also do not result from direct parasympathetic modulation, but are secondary to BP oscillations and their causation.…”

Section: April 2013mentioning

confidence: 50%

“…8,30 Instead, 0.2 Hz CBFV oscillations most likely arise from mechanical oscillations, secondary to BP oscillations and to respiration-induced changes in venous cardiac return and cardiac output. 6,41,42 As mentioned above, CA functions as a high-pass filter 26,27,43 that transfers BP oscillations at frequencies >0.1 Hz onto CBFV, 43 yielding secondary, mechanically induced CBFV oscillations at frequencies identical to the BP oscillations in the HF range. 6,41,42 As atropine had no effects on BP, CBFV, or on 0.2 Hz modulation of either signal, gain and phase shift between 0.2 Hz oscillations of BP and CBFV also remained unchanged.…”

Section: April 2013mentioning

confidence: 99%

Autonomic Blockade During Sinusoidal Baroreflex Activation Proves Sympathetic Modulation of Cerebral Blood Flow Velocity

Hilz

Koehn²,

Tillmann³

et al. 2013

Stroke

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“…[16,17] One study showed the evidence of poor vagal rebound after exercise in the group with H/O parental hypertension. [18] Probably, a similar mechanism of poor parasympathetic reactivation was operating in our study group too.…”

Section: Discussionmentioning

confidence: 99%

Frequency domain analysis of heart rate variability in young obese adults with parental history of hypertension during isotonic exercise: A comparative study

Sreenivas¹,

Rajalakshmi²,

Y³

2018

Natl J Physiol Pharm Pharmacol

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Background: Heart rate variability (HRV) is the beat-to-beat variation in time of consecutive heartbeats. It is one of the indicators of autonomic nervous system (ANS) function. The ANS control of the cardiovascular system in obesity and hypertension remains controversial. Aims and Objectives: The objectives of the study were to analyze the effects of isotonic exercise on frequency domain indicators of HRV in young obese adults with parental history of hypertension and compare the same with that of normal controls along with an assessment of their recovery. Materials and Methods: Normotensive subjects in the age group of 18-22 years were selected and classified into two groups, based on body mass index and parental history of hypertension. Electrocardiogram was recorded before exercise, immediately after exercise and during recovery using powerlab. Result: Statistically significant variations were observed when values of low frequency (LF), high frequency (HF), and LF/HF ratio were compared in all the three conditions. Obese students with positive history of parental hypertension reflected a sympathovagal imbalance that exaggerated during exercise with delayed recovery. Conclusion: This study reveals the importance of vagal inhibition during exercise. It has also enabled us to detect cardiovascular autonomic imbalance that is exaggerated during exercises in young obese subjects who are genetically susceptible and more prone to develop hypertension later in life.

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Cardiovascular autonomic modulation in essential hypertension. Effect of tilting.

Cited by 108 publications

References 46 publications

Does mental arithmetic before head up tilt have an effect on the orthostatic cardiovascular and hormonal responses?

Does mental arithmetic before head up tilt have an effect on the orthostatic cardiovascular and hormonal responses?

Autonomic Blockade During Sinusoidal Baroreflex Activation Proves Sympathetic Modulation of Cerebral Blood Flow Velocity

Frequency domain analysis of heart rate variability in young obese adults with parental history of hypertension during isotonic exercise: A comparative study

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