Interaction of chemoreceptor and baroreceptor reflexes by hypoxia and hypercapnia – a mechanism for promoting hypertension in obstructive sleep apnoea

Cooper, Victoria L.; Pearson, S. Vere; Bowker, C. M.; Elliott, Mark; Hainsworth, R.

doi:10.1113/jphysiol.2005.094151

Cited by 125 publications

(124 citation statements)

References 50 publications

(54 reference statements)

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“…MAP was increased during hypercapnia, whereas HR was increased during hypoxia and hypercapnia. This has been reported by some investigators (10,29,36) but not by others (21,36). We found that TPR was reduced and CO increased, which would seem at odds with the known potentiating effects of hypoxia and hypercapnia on the sympathetic nervous system (36).…”

Section: Discussioncontrasting

confidence: 55%

Ventilatory baroreflex sensitivity in humans is not modulated by chemoreflex activation

Stewart

Rivera²,

Clarke³

et al. 2011

American Journal of Physiology-Heart and Circulatory Physiology

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IL, Ocon AJ, Taneja I, Terilli C, Medow MS. Ventilatory baroreflex sensitivity in humans is not modulated by chemoreflex activation. Am J Physiol Heart Circ Physiol 300: H1492-H1500, 2011. First published February 11, 2011 doi:10.1152/ajpheart.01217.2010.-Increasing arterial blood pressure (AP) decreases ventilation, whereas decreasing AP increases ventilation in experimental animals. To determine whether a "ventilatory baroreflex" exists in humans, we studied 12 healthy subjects aged 18 -26 yr. Subjects underwent baroreflex unloading and reloading using intravenous bolus sodium nitroprusside (SNP) followed by phenylephrine ("Oxford maneuver") during the following "gas conditions:" room air, hypoxia (10% oxygen)-eucapnia, and 30% oxygen-hypercapnia to 55-60 Torr. Mean AP (MAP), heart rate (HR), cardiac output (CO), total peripheral resistance (TPR), expiratory minute ventilation (V E), respiratory rate (RR), and tidal volume were measured. After achieving a stable baseline for gas conditions, we performed the Oxford maneuver. V E increased from 8.8 Ϯ 1.3 l/min in room air to 14.6 Ϯ 0.8 l/min during hypoxia and to 20.1 Ϯ 2.4 l/min during hypercapnia, primarily by increasing tidal volume. V E doubled during SNP. CO increased from 4.9 Ϯ .3 l/min in room air to 6.1 Ϯ .6 l/min during hypoxia and 6.4 Ϯ .4 l/min during hypercapnia with decreased TPR. HR increased for hypoxia and hypercapnia. Sigmoidal ventilatory baroreflex curves of V E versus MAP were prepared for each subject and each gas condition. Averaged curves for a given gas condition were obtained by averaging fits over all subjects. There were no significant differences in the average fitted slopes for different gas conditions, although the operating point varied with gas conditions. We conclude that rapid baroreflex unloading during the Oxford maneuver is a potent ventilatory stimulus in healthy volunteers. Tidal volume is primarily increased. Ventilatory baroreflex sensitivity is unaffected by chemoreflex activation, although the operating point is shifted with hypoxia and hypercapnia.baroreceptors; ventilation; blood pressure In intact animals (dogs) hyperpnea follows occlusion of the common carotid arteries; it is wholly reflex in origin because the effect is the same even though all branches of the carotids have been previously tied excepting only the lingual arteries, and because section of the sinus nerves completely abolishes the reaction.Carl F. Schmidt (45) DETECTION OF ARTERIAL BLOOD PRESSURE (AP) by the arterial baroreceptors causes changes in heart rate (HR), sympathetic vasoconstriction, adrenal function, and renal sympathetic activity (2, 5). Evidence primarily derived from animal experiments suggests that the carotid sinus baroreflex also affects respiratory function (7,26,45,48). Rapidly increasing blood pressure causes decreased ventilation, whereas decreasing blood pressure causes increased ventilation. While these ventilatory effects were at one time attributed to increased or decreased perfusion of the arterial chemoreceptors (26, 32), s...

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Section: Discussioncontrasting

confidence: 55%

Ventilatory baroreflex sensitivity in humans is not modulated by chemoreflex activation

Stewart

Rivera²,

Clarke³

et al. 2011

American Journal of Physiology-Heart and Circulatory Physiology

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“…These changes develop more rapidly in infants, but the body stores which buffer changes in CO 2 are correspondingly much smaller in infancy. At both ages, the pressor response outlasts the stimulus, most likely due to residual adrenergic stimulation by catecholamines released into the blood from the adrenal (21). The similarities between adults and infants suggest that (i) this cardiovascular chemoreflex arc is normally well developed at or soon after birth and (ii) elements of it may be fine-tuned as the heart and nervous systems mature, but the response itself changes little with age.…”

Section: Discussionmentioning

confidence: 91%

Abnormal Circulatory Stress Responses of Preterm Graduates

2007

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Preterm birth and chronic lung disease may increase the risk of hypertension and cardiovascular disease in infancy and adolescence. Here we looked for evidence of early circulatory dysfunction associated with these perinatal complications. We compared infants born at term (n ϭ 12) with those born preterm with an uncomplicated neonatal course (n ϭ 12) or diagnosed with bronchopulmonary dysplasia (BPD) (n ϭ 10). We measured blood pressure (BP) (Finometer), and heart rate (HR) responses to 4 min of breathing 4% CO 2 during quiet sleep. Hypercapnia accelerated HR and increased BP of term infants. Preterm infants either (i) had an exaggerated pressor but little or no HR response to CO 2 (healthy or mild-moderate BPD) or (ii) had a diminished pressor response and accompanying decrease in HR (severe BPD). Short-term reflex cardiovascular control was consequently altered by premature birth, with potentially more serious aberrations associated with severe BPD. Most anomalies had not resolved by the time infants born preterm reached term age; some may be early signs of emerging long-term cardiovascular dysfunction. W ith the impressive increase in survival of very preterm and low birth weight infants come new challenges. Evidence already indicates that this "new generation" of children and adolescents may have accelerated disease onset later in life (1). One factor contributing to their higher risk of cardiovascular disease may be abnormal vascular and circulatory development (2-4). Cardiovascular activity is normally carefully regulated, but if some or all of the central and peripheral regulatory mechanisms involved fail to develop normally, perfusion, growth, and function may be compromised. In exceptional circumstances during infancy, persistent serious dysfunction could result in a sudden catastrophic decrease in BP and HR or prevent autoresuscitative recovery, culminating in sudden infant death syndrome (SIDS) (5,6). In other cases, dysfunction may be relatively benign, although there may still be side effects with adverse consequences of their own.We know relatively little about how BP and HR control develops, and the potentially adverse effects of fetal and perinatal stress. A better understanding of these issues could lead to new therapies or strategies to prevent neonatal complications and improve long-term outcome. In the study described here, we looked for evidence that development of neonatal circulatory control is altered by common perinatal complications (7). We studied three different groups of newborn infants: those born normally at term, those born preterm but otherwise healthy, and infants born very preterm suffering from chronic lung disease (BPD). Infants with BPD are at particularly high risk of long-term cardiovascular complications and SIDS (8 -10). We compared BP and HR responses of these infants to a routine physiologic stress (breathing a low concentration of CO 2 for several minutes) commonly used to unmask autonomic anomalies (11). Normally, acute exposure to CO 2 increases BP and HR ...

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“…Recently, Cooper et al (44) reported that the effect of both peripheral and central chemoreceptors on baroreflex function may contribute to promoting hypertension in patients with obstructive sleep apnea.…”

Section: So-called 'Cirrhotic' Appearance (Asterisk) Hematoxylin Andmentioning

confidence: 99%

Carotid barochemoreceptor pathological findings regarding carotid plaque status and aging

Milei

Lavezzi

Bruni

et al. 2009

Canadian Journal of Cardiology

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Interaction of chemoreceptor and baroreceptor reflexes by hypoxia and hypercapnia – a mechanism for promoting hypertension in obstructive sleep apnoea

Cited by 125 publications

References 50 publications

Ventilatory baroreflex sensitivity in humans is not modulated by chemoreflex activation

Ventilatory baroreflex sensitivity in humans is not modulated by chemoreflex activation

Abnormal Circulatory Stress Responses of Preterm Graduates

Carotid barochemoreceptor pathological findings regarding carotid plaque status and aging

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