Andrew Chau scite author profile

The effects of lesions rostral to the brain stem on breathing responses to hypoxia were determined in chronically catheterized fetal sheep (>0.8 term). These studies were designed to test the hypothesis that the diencephalon is involved in hypoxic inhibition of fetal breathing. As in normal fetuses, hypoxia inhibited breathing with transection rostral to the thalamus or transection resulting in virtual destruction of the thalamus but sparing most of the parafascicular nuclear complex. Neuronal lesions were produced in the fetal diencephalon by injecting ibotenic acid through cannulas implanted in the brain. Hypoxic inhibition of breathing was abolished when the lesions encompassed the parafascicular nuclear complex but was retained when the lesions spared the parafascicular nuclear region or when the vehicle alone was injected. A new locus has been identified immediately rostral to the midbrain, which is crucial to hypoxic inhibition of fetal breathing. This thalamic sector involves the parafascicular nuclear complex and may link central O2-sensing cells to motoneurons that inhibit breathing.

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Thalamic lesions dissociate breathing inhibition by hypoxia and adenosine in fetal sheep

Koos

Chau

Matsuura

et al. 2000

American Journal of Physiology-Regulatory, Integrative and Comp

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The effects of diencephalic lesions on respiratory responses to intra-arterially infused adenosine (ADO) were determined in chronically catheterized fetal sheep (>0.8 term). These studies were designed to test the hypothesis that the inhibitory effects of ADO on fetal breathing, like those of hypoxia, are mediated by the parafascicular nuclear complex (Pf) of the posteromedial thalamus. ADO inhibited breathing [control (C): 26 +/- 2.6, ADO: 4 +/- 1 min/h] in normal fetuses and in a fetus with a lesion that virtually destroyed the thalamus but left intact most of Pf. Neuronal lesions in the diencephalon, produced by injecting ibotenic acid, abolished the inhibitory effects of ADO on breathing (C: 31 +/- 5.1, ADO: 30 +/- 4.5 min/h) when the lesions encompassed Pf or the sector immediately rostral to Pf that retained the capacity to regulate hypoxic inhibition. Smaller lesions created by the insertion of needles also eliminated the depressant effects of ADO when disruptions were within Pf or a rostral component of the thalamic cortical activating system. It is concluded that 1) a medial thalamic sector is critically involved in ADO-induced apnea and 2) ADO-dependent and ADO-independent mechanisms mediate hypoxic inhibition.

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Adenosine mediates metabolic and cardiovascular responses to hypoxia in fetal sheep.

Koos¹,

Chau²,

Ogunyemi³

1995

The Journal of Physiology

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1. In seven unanaesthetized fetal sheep (> 80% term), isocapnic hypoxia (arterial partial pressure of O2, Pa,O2, approximately 15 mmHg) was induced for 1 h by lowering maternal inspired PO2. Fetal hypoxia was also produced during intra‐arterial administration of the adenosine receptor antagonist 8‐(p‐sulphophenyl)‐theophylline (8‐SPT). The fetal 8‐SPT infusion was begun just prior to hypoxia and was stopped when fetal Pa,O2 was returned to normal. 2. Hypoxia induced a progressive fetal acidosis, a rise in mean arterial pressure, a transient fall in heart rate and a decrease in breathing movements. 8‐SPT significantly reduced the metabolic acidosis and abolished the hypertension and bradycardia without altering hypoxic inhibition of fetal breathing. Administration of the vehicle for 8‐SPT during hypoxia did not significantly affect the normal fetal metabolic and cardiovascular responses to acute O2 deprivation. 3. It is concluded that adenosine mediates the fetal bradycardia and hypertension produced by hypoxia, indicating that adenosine modulates fetal autonomic responses to acute oxygen deficiency. Secondly, adenosine contributes to fetal metabolic acidaemia, suggesting that adenosine also modulates fetal glycolytic responses to hypoxia.

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Fetal cardiovascular and breathing responses to an adenosine A_2a receptor agonist in sheep

Koos

Chau

1998

American Journal of Physiology-Regulatory, Integrative and Comp

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CGS-21680 (CGS), a highly selective adenosine A2a receptor agonist, may excite the fetal carotid bodies. This study was designed to determine 1) whether CGS stimulates fetal breathing and 2) whether sinoaortic denervation abolishes CGS-induced tachycardia. In eight intact fetuses (>0.8 term), intra-arterial CGS infusion (6 μg ⋅ min−1 ⋅ kg estimated fetal wt−1) increased mean arterial [Formula: see text] by 3–7 Torr, reduced fetal arterial[Formula: see text] by 2–5 Torr, and produced a mild metabolic acidemia. Heart rate increased from 154 ± 7 (control) to 249 ± 12 beats/min, but mean arterial pressure was not significantly affected. CGS initially increased the frequency, amplitude, and incidence of fetal breathing, but this hyperpnea was followed by prolonged respiratory depression that was not reversed with blockade of adenosine A1 receptors. Denervation of both carotid bodies together with interruption of the vagi abolished the hyperpnea without altering the respiratory depression or the maximum rise in heart rate. We conclude that CGS induces 1) tachycardia by a mechanism independent of the peripheral arterial chemoreceptors, 2) hyperpnea by stimulating peripheral adenosine A2areceptors, and 3) respiratory depression by activating central A2a receptors.

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Metabolic and cardiorespiratory responses to hypoxia in fetal sheep: adenosine receptor blockade

Chau

Koos

1999

American Journal of Physiology-Regulatory, Integrative and Comp

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8-Phenyltheophylline (PT), a potent and specific inhibitor of adenosine receptors, was infused intra-arterially into unanesthetized fetal sheep to determine the role of adenosine in hypoxic inhibition of fetal breathing. PT in normoxic fetuses increased heart rate and the incidence of low-voltage electrocortical activity, rapid eye movements (REM), and breathing. Mean breath amplitude increased by 44%. Hypoxia (preductal arterial[Formula: see text] = 14 Torr) induced a metabolic acidemia, a transient bradycardia, and hypertension while virtually eliminating REM and breathing. PT administration during hypoxia enhanced the metabolic acidemia, blocked the bradycardia and hypertension, increased the incidence of REM and breathing, and elevated mean breath amplitude. The results indicate that 1) adenosine is involved in fetal glycolytic and cardiovascular responses to hypoxia, 2) activation of central adenosine receptors mediates about one-half the inhibitory effects of hypoxia on REM and breathing, and 3) the depression of breathing may critically depend on a hypoxia-induced reduction in phasic REM sleep.

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Andrew Chau

Thalamic Locus Mediates Hypoxic Inhibition of Breathing in Fetal Sheep

Thalamic lesions dissociate breathing inhibition by hypoxia and adenosine in fetal sheep

Adenosine mediates metabolic and cardiovascular responses to hypoxia in fetal sheep.

Fetal cardiovascular and breathing responses to an adenosine A_2a receptor agonist in sheep

Metabolic and cardiorespiratory responses to hypoxia in fetal sheep: adenosine receptor blockade

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Andrew Chau

Thalamic Locus Mediates Hypoxic Inhibition of Breathing in Fetal Sheep

Thalamic lesions dissociate breathing inhibition by hypoxia and adenosine in fetal sheep

Adenosine mediates metabolic and cardiovascular responses to hypoxia in fetal sheep.

Fetal cardiovascular and breathing responses to an adenosine A2a receptor agonist in sheep

Metabolic and cardiorespiratory responses to hypoxia in fetal sheep: adenosine receptor blockade

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Product

Resources

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Fetal cardiovascular and breathing responses to an adenosine A_2a receptor agonist in sheep