Martin P. Walsh scite author profile

Experiments were performed under Saffan anaesthesia on normoxic (N) rats and on chronically hypoxic rats exposed to 12% O 2 for 1, 3 or 7 days (1, 3 or 7CH rats): N rats routinely breathed 21% O 2 and CH rats 12% O 2 . The 1, 3 and 7CH rats showed resting hyperventilation relative to N rats, but baseline heart rate (HR) was unchanged and arterial blood pressure (ABP) was lowered. Femoral vascular conductance (FVC) was increased in 1 and 3CH rats, but not 7CH rats. When 1-7CH rats were acutely switched to breathing 21% O 2 for 5 min, ABP increased and FVC decreased, consistent with removal of a hypoxic dilator stimulus that is waning in 7CH rats. We propose that this is because the increase in haematocrit and vascular remodelling in skeletal muscle help restore the O 2 supply. The increases in FVC evoked by acute hypoxia (8% O 2 for 5 min) and by infusion for 5 min of α-calcitonin gene-related peptide (α-CGRP), which are NO-dependent, were particularly accentuated in 1CH, relative to N rats. The NO synthesis inhibitor L-NAME increased ABP, decreased HR and greatly reduced FVC, and attenuated increases in FVC evoked by acute hypoxia and α-CGRP, such that baselines and responses were similar in N and 1-7CH rats. We propose that in the first few days of chronic hypoxia there is tonic NO-dependent vasodilatation in skeletal muscle that is associated with accentuated dilator responsiveness to acute hypoxia and dilator substances that are NO -dependent.

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Inactivation of foodborne pathogens based on synergistic effects of ultrasound and natural compounds during fresh produce washing

Zhang

Wang

Goon

et al. 2020

Ultrasonics Sonochemistry

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The role of adenosine in the early respiratory and cardiovascular changes evoked by chronic hypoxia in the rat

Walsh

Marshall

2006

The Journal of Physiology

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Experiments were performed on anaesthetized normoxic (N) rats and chronically hypoxic rats that had been exposed to 12% O 2 for 1, 3 or 7 days (1, 3 or 7CH rats). The adenosine A 1 receptor antagonist DPCPX did not affect the resting hyperventilation of 1-7CH rats breathing 12% O 2 and increased resting heart rate (HR) in 1CH rats only. DPCPX partially restored the decreased baseline arterial pressure (ABP) and increased femoral vascular conductance (FVC) of 1 and 3CH rats, but had no effect in N or 7CH rats. DPCPX also attenuated the decrease in arterial blood pressure (ABP) and increase in FVC evoked by acute hypoxia in N and 1-7CH rats. The non-selective adenosine receptor antagonist 8-SPT had no further effect on baselines or cardiovascular responses to acute hypoxia, but attenuated the hypoxia-evoked increase in respiratory frequency in 1-7CH rats. In N, and 1 and 3CH rats, the inducible nitric oxide synthase (iNOS) inhibitor aminoguanidine had no effect on baselines or increases in FVC evoked by acetylcholine. We propose: (i) that tonically released adenosine acting on A 1 receptors reduces HR in 1CH rats and stimulates endothelial NOS in 1 and 3CH rats to decrease ABP and increase FVC, the remaining NO-dependent tonic vasodilatation being independent of iNOS activity; (ii) that in 7CH rats, tonic adenosine release has waned; (iii) that in 1-7CH rats, adenosine released by acute hypoxia stimulates A 1 but not A 2 receptors to produce muscle vasodilatation, and stimulates carotid body A 2 receptors to increase respiration. Adenosine makes a major contribution to the cardiovascular and ventilatory responses evoked by acute systemic hypoxia. In human subjects and the rat, a major part of the vasodilatation evoked in hindlimb muscle (increase in femoral vascular conductance, FVC) is mediated by adenosine acting on A 1 receptors (Neylon & Marshall, 1991;Bryan & Marshall, 1999a;Leuenberger et al. 1999). Further, adenosine contributes to the secondary fall in tidal volume (V T ) and heart rate (HR) that occur during extended periods of acute hypoxia (Millhorn et al. 1984;. This accords with evidence that adenosine can decrease HR by acting on cardiac A 1 receptors (Evans et al. 1982;Belardinelli et al. 1989) and decrease V T and respiratory frequency (R F ) by acting on central neural A 1 receptors (Eldridge et al. 1985;Wessberg et al. 1985;Schmidt et al. 1995). Adenosine also stimulates A 2 receptors in the carotid body and so may contribute to the increase in R F of acute hypoxia (Monteiro & Ribeiro, 1987;Kobayashi et al. 2000).The adaptations that occur in ventilation and haematocrit (Hct) from the onset of chronic hypoxia have been extensively investigated (e.g. Olson & Dempsey, 1978;Dempsey & Forster, 1982;Ou et al. 1992). By contrast, relatively little is known of the cardiovascular adaptations. We have now confirmed (accompanying paper Walsh & Marshall, 2006) that resting hyperventilation is already present in rats exposed to chronic hypoxia (12% O 2 ) for 1, 3 and 7 days (1, 3 and 7CH rats), while an incr...

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Enhanced antimicrobial effect of ultrasound by the food colorant Erythrosin B

Bastarrachea

Walsh

Wrenn

et al. 2017

Food Research International

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Martin P. Walsh

Serotonergic mediation of the antidepressant-like effects of nitric oxide synthase inhibitors

The early effects of chronic hypoxia on the cardiovascular system in the rat: role of nitric oxide

Inactivation of foodborne pathogens based on synergistic effects of ultrasound and natural compounds during fresh produce washing

The role of adenosine in the early respiratory and cardiovascular changes evoked by chronic hypoxia in the rat

Enhanced antimicrobial effect of ultrasound by the food colorant Erythrosin B

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