Cardiovascular responses in apnoeic asphyxia: role of arterial chemoreceptors and the modification of their effects by a pulmonary vagal inflation reflex

James, Jennifer E. Angell; Daly, M. de Burgh

doi:10.1113/jphysiol.1969.sp008744

Cited by 136 publications

(24 citation statements)

References 30 publications

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“…The present data provide evidence that sex modifies the vascular response to apnea-induced hypoxemia in healthy humans and might also stimulate future work in patients with OSA. Both obstructive apnea during sleep and MVEEA during wakefulness activate the sympathetic nervous system (19,26,32,40,60). Specifically, Greaney et al (18) observed a 51% increase in MSNA in response to MVEEA, Hardy et al (19) noted a 94% increase in MSNA, and Leuenberger et al (40) documented a ϳ200% increase in MSNA in response to this same stimulus.…”

Section: Discussionmentioning

confidence: 99%

Sex differences in forearm vasoconstrictor response to voluntary apnea

Patel

Heffernan

Ross

et al. 2014

American Journal of Physiology-Heart and Circulatory Physiology

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Clinical evidence indicates that obstructive sleep apnea is more common and more severe in men compared with women. Sex differences in the vasoconstrictor response to hypoxemia-induced sympathetic activation might contribute to this clinical observation. In the current laboratory study, we determined sex differences in the acute physiological responses to maximal voluntary end-expiratory apnea (MVEEA) during wakefulness in healthy young men and women (26 ± 1 yr) as well as healthy older men and women (64 ± 2 yr). Mean arterial pressure (MAP), heart rate (HR), brachial artery blood flow velocity (BBFV, Doppler ultrasound), and cutaneous vascular conductance (CVC, laser Doppler flowmetry) were measured, and changes in physiological parameters from baseline were compared between groups. The breath-hold duration and oxygen-saturation nadir were similar between groups. In response to MVEEA, young women had significantly less forearm vasoconstriction compared with young men (ΔBBFV: 2 ± 7 vs. -25 ± 6% and ΔCVC: -5 ± 4 vs. -31 ± 4%), whereas ΔMAP (12 ± 2 vs. 16 ± 3 mmHg) and ΔHR (4 ± 2 vs. 6 ± 3 bpm) were comparable between groups. The attenuated forearm vasoconstriction in young women was not observed in postmenopausal women (ΔBBFV -21 ± 5%). We concluded that young women have blunted forearm vasoconstriction in response to MVEEA compared with young men, and this effect is not evident in older postmenopausal women. These data suggest that female sex hormones dampen neurogenic vasoconstriction in response to apnea-induced hypoxemia.

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Section: Discussionmentioning

confidence: 99%

Sex differences in forearm vasoconstrictor response to voluntary apnea

Patel

Heffernan

Ross

et al. 2014

American Journal of Physiology-Heart and Circulatory Physiology

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“…Continuous measurement of arterial oxygen tension during apnoea was not available to us and we are therefore not able definitively to ascribe these cardiovascular changes to hypoxia. Similar cardiovascular responses to hypoxia are, however, well established in animals and it has been shown that these responses are mediated primarily by the peripheral chemoreceptors in the dog (Daly and Scott, 1962;Cross et al, 1963;Angell James and Daly, 1969), cat (Downing and Siegel, 1963), rabbit (Chalmers et al, 1967), and fetal lamb (Dawes et al, 1969) during the last third of gestation. The shortest time interval between onset of apnoea and onset of bradycardia, and between the end of apnoea and cardiac acceleration were both about 2 seconds.…”

Section: * -E~~~~~~~~~~~~~~~mentioning

confidence: 90%

“…When breathing restarts the bradycardia would be expected to be eliminated either by lung inflation over-riding the primary effect of arterial hypoxia (Daly and Scott, 1962; Angell James and Daly, 1969) or by relief of the hypoxia itself. Cardiac acceleration was sometimes delayed up to 16 seconds after breathing restarted.…”

Section: * -E~~~~~~~~~~~~~~~mentioning

confidence: 99%

Cardiovascular effects of apnoea in preterm infants.

Storrs¹

1977

Archives of Disease in Childhood

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SUMMARY Cardiovascular reflex responses have been studied in 9 newborn preterm infants with apnoeic episodes and in 2 preterm infants with periodic breathing. Respiration, blood pressure, heart rate, and peripheral blood flow were simultaneously recorded. Peripheral blood flow was measured in the leg by venous occlusion plethysmography. During apnoea, bradycardia and peripheral vasoconstriction occur. There is little change in blood pressure though pulse pressure increases. No cardiovascular changes were seen before the onset of apnoea. Periodic breathing had little effect on peripheral blood flow. Preterm infants with gestations as low as 27 weeks apparently have well developed chemoreceptor reflexes which would tend to preserve blood supply to the brain during conditions of hypoxia.

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“…Interruption of the excitatory process could occur by a hyperpolarizing transmitter action at the motor neurone cell surface itself or by other mechanisms operating upstream such as pre-synaptic inhibition or interference with transmission between relay interneurones. The localization of an inhibitory site in the region of the inspiratory centre suggests that the central connexions utilized were those which participate in the pulmonaryvagal inflation reflex described by Angell James & Daly (1969).…”

Section: Discussionmentioning

confidence: 99%

Persistence of the cardio‐inhibitory response to brain stem ischaemia after destruction of the area postrema and the dorsal vagal nuclei

Borison¹,

Domjan²

1970

The Journal of Physiology

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SUMMARY1. In anaesthetized cats, in which the carotid arterial bifurcation had been denervated and the spinal cord transacted at the cervical level, reversible bradyeardia mediated by the vagus nerves was elicited by temporary arrest of the cranial circulation. Methoxamine was infused intravenously to maintain peripheral vascular resistance, and artificial ventilation was given to avert systemic asphyxia.2. The bradycardia persisted in cats subjected to one or more of the following acute surgical procedures: left vagotomy, mid-collicular decerebration, decerebellation, bulbar transactions at the acoustic striae and inferior fovea, and destruction of the area postrema and the underlying dorsal vagal nuclei. Ischaemia-induced bradycardia was invariably abolished after bilateral vagotomy or the administration of atropine.3. Bradycardia could not be elicited by electrical stimulation of the dorsal vagal nuclei, but was evoked by stimulation of deep structures in the vicinity of the nucleus ambiguus even after destruction of the dorsal vagal nuclei.4. Simultaneous application of ischaemia and electrical stimulation of the medullary cardio-decelerator locus produced convergent occlusion of the vagal response. The effect of ischaemia was inhibited by stimulation of a neighbouring region in the medial reticular formation. These interactions indicate that an interneuronal link is involved in the mechanism of ischaemia-induced bradycardia. 5. It is concluded that the cardio-decelerator response to ischaemia is initiated upstream to the primary efferent vagal motor neurones and that the cardio-inhibitory fibres do not originate in the dorsal vagal nuclei.

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Cardiovascular responses in apnoeic asphyxia: role of arterial chemoreceptors and the modification of their effects by a pulmonary vagal inflation reflex

Cited by 136 publications

References 30 publications

Sex differences in forearm vasoconstrictor response to voluntary apnea

Sex differences in forearm vasoconstrictor response to voluntary apnea

Cardiovascular effects of apnoea in preterm infants.

Persistence of the cardio‐inhibitory response to brain stem ischaemia after destruction of the area postrema and the dorsal vagal nuclei

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