Intermittent hypercapnic hypoxia: a model to study human respiratory motor plasticity?

The role of serotonin (5-HT) neurons in cardiovascular responses to acute intermittent hypoxia (AIH) has not been studied in the neonatal period. We hypothesized that a partial loss of 5-HT neurons would reduce arterial blood pressure (BP) at rest, increase the fall in BP during hypoxia, and reduce the long-term facilitation of breathing (vLTF) and BP following AIH. We exposed 2-wk-old, 5,7-dihydroxytryptamine-treated and controls to AIH (10% O2; n = 13 control, 14 treated), acute intermittent hypercapnia (5% CO2; n = 12 and 11), or acute intermittent hypercapnic hypoxia (AIHH; 10% O2, 5% CO2; n = 15 and 17). We gave five 5-min challenges of AIH and acute intermittent hypercapnia, and twenty ∼20-s challenges of AIHH to mimic sleep apnea. Systolic BP (sBP), diastolic BP, mean arterial pressure, heart rate (HR), ventilation (V̇e), and metabolic rate (V̇o2) were continuously monitored. 5,7-Dihydroxytryptamine induced an ∼35% loss of 5-HT neurons from the medullary raphe. Compared with controls, pups deficient in 5-HT neurons had reduced resting sBP (∼6 mmHg), mean arterial pressure (∼5 mmHg), and HR (56 beats/min), and experienced a reduced drop in BP during hypoxia. AIHH induced vLTF in both groups, reflected in increased V̇e and V̇e/V̇o2, and decreased arterial Pco2. The sBP of pups deficient in 5-HT neurons, but not controls, was increased 1 h following AIHH. Our data suggest that a relatively small loss of 5-HT neurons compromises resting BP and HR, but has no influence on ventilatory plasticity induced by AIHH. AIHH may be useful for reversing cardiorespiratory defects related to partial 5-HT system dysfunction.

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Evaluation of the activity of antihypoxants with an isothiourea structure in a model of hypercapnic hypoxia with a shutdown of the cerebral hemispheres

Reviews on Clinical Pharmacology and Drug Therapy ◽

10.17816/rcf19155-63 ◽

2021 ◽

Vol 19 (1) ◽

pp. 55-63

Author(s):

Vera V. Marysheva ◽

Vladimir V. Mikheev ◽

Petr D. Shabanov

Keyword(s):

Acute Hypoxia ◽

Life Time ◽

The Body ◽

Cerebral Hemispheres ◽

Antihypoxic Activity ◽

Hypoxic Episode ◽

Hypoxia With Hypercapnia ◽

Hypercapnic Hypoxia ◽

Outbred Mice ◽

The Brain

PURPOSE: To study the effect of amtizol, 2-aminobenzthiazole (2-ABT) and 2-amino-4-acetylthiazolo[5,4-b]indole (BM-606) on the resistance of male outbred mice to acute hypoxia with hypercapnia under conditions of isolated functioning of one from the hemispheres, as well as both hemispheres of the brain. METHODS: A model of acute hypoxia with hypercapnia (canned hypoxia) was used in mice of the same mass, the lifespan of all animals was determined. Temporary shutdown of the cortex of one of the hemispheres or both hemispheres was achieved by epidural application of filter paper moistened with 25% potassium chloride solution, creating a spreading depression according to Leao. Amtizol, 2-aminobenzthiazole (2-ABT) and 2-amino-4-acetylthiazolo[5,4-b]indole (BM-606) at equimolar doses of 25, 32.5, and 50 mg/kg, respectively were used as pharmacological analyzers, the compounds were injected intraperitoneally 30 min before the hypoxic episode. RESULTS: It was shown that, in contrast to amtizol, 2-ABT and VM-606 increase the life time of experimental animals when any hemisphere is turned off. The use of drugs when both hemispheres were turned off revealed that amtizol has approximately equal effect on the brain and the rest of the body, in 2-ABT antihypoxic activity is 1/3 associated with the brain, in VM-606 exclusively with the brain. CONCLUSION: The experimental model used in this work makes it possible to quite easily evaluate the effect of either one drug or compare several drugs, their role in the functioning of the cerebral hemispheres, on which part of the sample highly resistant or low resistant to hypoxia they have the greatest effect.

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Influence of myocardial oxygen demand on the coronary vascular response to arterial blood gas changes in humans

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.00689.2017 ◽

2018 ◽

Vol 315 (1) ◽

pp. H132-H140 ◽

Cited By ~ 1

Author(s):

Tyler D. Vermeulen ◽

Lindsey M. Boulet ◽

Mike Stembridge ◽

Alexandra M. Williams ◽

James D. Anholm ◽

...

Keyword(s):

Coronary Artery ◽

Adrenergic Receptor ◽

Blood Velocity ◽

Rate Pressure Product ◽

Receptor Blockade ◽

Vascular Response ◽

Arterial Blood ◽

Hypercapnic Hypoxia ◽

The Mean ◽

Adrenergic Receptor Blockade

It remains unclear if the human coronary vasculature is inherently sensitive to changes in arterial Po2 and Pco2 or if coronary vascular responses are the result of concomitant increases in myocardial O2 consumption/demand ([Formula: see text]). We hypothesized that the coronary vascular response to Po2 and Pco2 would be attenuated in healthy men when [Formula: see text] was attenuated with β1-adrenergic receptor blockade. Healthy men (age: 25 ± 1 yr, n = 11) received intravenous esmolol (β1-adrenergic receptor antagonist) or volume-matched saline in a double-blind, randomized crossover study and were exposed to poikilocapnic hypoxia, isocapnic hypoxia, and hypercapnic hypoxia. Measurements made at baseline and after 5 min of steady state at each gas manipulation included left anterior descending coronary blood velocity (LADV; Doppler echocardiography), heart rate, and arterial blood pressure. LADV values at the end of each hypoxic condition were compared between esmolol and placebo. The rate-pressure product (RPP) and left ventricular mechanical energy (MELV) were calculated as indexes of [Formula: see text]. All gas manipulations augmented RPP, MELV, and LADV, but only RPP and MELV were attenuated (4–18%) after β1-adrenergic receptor blockade ( P < 0.05). Despite attenuated RPP and MELV responses, β1-adrenergic receptor blockade did not attenuate the mean LADV vasodilatory response compared with placebo during poikilocapnic hypoxia (29.4 ± 2.2 vs. 27.3 ± 1.6 cm/s) and isocapnic hypoxia (29.5 ± 1.5 vs. 30.3 ± 2.2 cm/s). Hypercapnic hypoxia elicited a feedforward coronary dilation that was blocked by β1-adrenergic receptor blockade. These results indicate a direct influence of arterial Po2 on coronary vascular regulation that is independent of [Formula: see text]. NEW & NOTEWORTHY In humans, arterial hypoxemia led to an increase in epicardial coronary artery blood velocity. β1-Adrenergic receptor blockade did not diminish the hypoxemic coronary response despite reduced myocardial O2 demand. These data indicate hypoxemia can regulate coronary blood flow independent of myocardial O2 consumption. A plateau in the mean left anterior descending coronary artery blood velocity-rate-pressure product relationship suggested β1-adrenergic receptor-mediated, feedforward epicardial coronary artery dilation. In addition, we observed a synergistic effect of Po2 and Pco2 during hypercapnic hypoxia.

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The effect of acute intermittent hypercapnic hypoxia on cerebral neurovacular coupling in healthy humans

Sleep Medicine ◽

10.1016/j.sleep.2019.11.1126 ◽

2019 ◽

Vol 64 ◽

pp. S404-S405

Author(s):

T.D. Vermeulen ◽

J. Benbaruj ◽

R. Niven ◽

C.V. Brown ◽

B.M. Shafer ◽

...

Keyword(s):

Healthy Humans ◽

Hypercapnic Hypoxia

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Chemoreceptor and baroreceptor responses of A1 area neurons projecting to supraoptic nucleus

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1992.263.2.r310 ◽

1992 ◽

Vol 263 (2) ◽

pp. R310-R317 ◽

Cited By ~ 5

Author(s):

Y. W. Li ◽

Z. J. Gieroba ◽

W. W. Blessing

Keyword(s):

Arterial Pressure ◽

Supraoptic Nucleus ◽

Discharge Rate ◽

Sodium Cyanide ◽

Peripheral Chemoreceptor ◽

Antidromic Activation ◽

Hypercapnic Hypoxia ◽

Nucleus Increase ◽

The Common ◽

Baroreceptor Activation

Extracellular recordings were made from 127 neurons, identified by antidromic activation from the supraoptic nucleus, in the A1 area of urethan-anesthetized rabbits. The median axonal conduction velocity was 0.7 m/s, and the median discharge rate was 3.9 spikes/s. Raising arterial pressure decreased the discharge rate in 94 of 101 neurons tested. Lowering arterial pressure increased the discharge rate in 50 of 64 neurons tested. Of 70 neurons inhibited by baroreceptor activation, 40 were excited and 25 inhibited by hypercapnic hypoxia. Of 23 neurons excited by hypercapnic hypoxia, all were excited by hypoxia but only 2 were affected by hypercapnia. Of 16 neurons inhibited by hypercapnic hypoxia, 15 were inhibited by hypoxia and 1 was inhibited by hypercapnia. Of 14 neurons excited by hypoxia, 13 were excited by injection of sodium cyanide into the common carotid artery. Of five neurons inhibited by hypoxia, four were inhibited by sodium cyanide. Our results provide electrophysiological evidence that neurons projecting from the A1 area to the supraoptic nucleus increase their discharge rate in response to baroreceptor unloading and decrease their discharge rate in response to baroreceptor activation. These neurons may form part of the central pathway mediating secretion of vasopressin in response to hemorrhage. A high proportion of the neurons also receive peripheral chemoreceptor inputs, and these A1 cells may also be part of the central pathway whereby chemoreceptor stimulation modifies the secretion of vasopressin.

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Effects of Hypoxia and Hypercapnic Hypoxia on Oxygen Transport and Acid-Base Status in the Atlantic Blue Crab, Callinectes sapidus , During Exercise

Journal of Experimental Zoology Part A Ecological Genetics and Physiology ◽

10.1002/jez.2054 ◽

2016 ◽

Vol 325 (9) ◽

pp. 598-609 ◽

Cited By ~ 6

Author(s):

Mark P. Lehtonen ◽

LOUIS E. BURNETT

Keyword(s):

Blue Crab ◽

Oxygen Transport ◽

Callinectes Sapidus ◽

Acid Base ◽

Hypercapnic Hypoxia ◽

Acid Base Status

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Acute hypoxia influence on cardio-respiratory system and new possibilities of pharmacological prophylactics of hypoxia in experiment

Reviews on Clinical Pharmacology and Drug Therapy ◽

10.17816/rcf14137-45 ◽

2016 ◽

Vol 14 (1) ◽

pp. 37-45

Author(s):

Andrei V Evseev ◽

Vitaliy A Pravdivtsev ◽

Denis V Sosin ◽

Marina A Yevseyeva

Keyword(s):

Metal Complex ◽

Electrical Activity ◽

Respiratory System ◽

High Resistance ◽

Acute Hypoxia ◽

Cardiorespiratory System ◽

Resistance Level ◽

Hypoxia With Hypercapnia ◽

Hypercapnic Hypoxia ◽

Complex Substance

Cardiorespiratory system activities have been studied on rats in experiment after oral introduction of the new selenium-containing metal-complex substance πQ1983 in dose 100 mg/kg before and under action of acute hypercapnic hypoxia (AH + Hc). The substance was introduced 90 min. before (incubation period) placement of animals into hypoxic chambers with 1.0 L free volume. During each experiment as well as during AH+Hc an electrical activity of myocardium (ECG) and respiration curves called pneumobarogramm (PBG) were recorded simultaneously. It has been established that the substance πQ1983 made cardiodepressive effect and decreases parameters of lungs ventilation in animals. According to ECG and PBG dynamics, rats protected by the substance demonstrated a high resistance level to the aroused acute hypoxia with hypercapnia, that expressed by weakening of early reactions from cardiorespiratory system under hypercapnia action, and by twice longer life span of animals in hypoxic experiment.

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