The American journal of physiology
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Manometric studies of pharyngeal-upper esophageal sphincter (UES) coordination during swallowing have proven difficult. Asymmetry of the UES makes pressure measurements with a single, unoriented transducer suspect. Perfused systems lack the necessary response rate for measuring peak pharyngeal contraction pressures. ⋯ All timing sequences became progressively longer with increasing bolus size. Residual pressures were unchanged. Timing sequences were also measured for wet (5 ml) and dry swallows in seven volunteers using a Dent sleeve and single perfused orifice in the UES; no differences were seen.
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We investigated in conscious, chronically instrumented dogs whether actions mediated by V1 receptors affect cardiovascular effects elicited by V2-like receptors in response to vasopressin or vasopressin analogues. Infused arginine vasopressin (AVP) (220 pg.kg-1.min-1) did not have any significant effect on arterial pressure, cardiac output (CO), and heart rate (HR) when it was preceded by administration of a V1 receptor antagonist. However, when the same antagonist was administered 1 h after the start of the same infusion of AVP, CO, and HR increased significantly above control pre-AVP values, and total peripheral resistance (TPR) fell significantly below control. ⋯ In another set of experiments, the administration of a selective V1 agonist blunted significantly the CO and HR increase as well as the decrease in TPR normally associated with injection of a selective V2 agonist. However, administration of phenylephrine did not reduce these V2-mediated effects. We conclude that there are significant interactions between V1 and V2-like receptors in the cardiovascular system of conscious dogs, whereby V1 effects appear to 1) immediately antagonize the action of V2 agonists and 2) sensitize the organism to cardiovascular effects mediated by V2-like receptors after a prolonged exposure.(ABSTRACT TRUNCATED AT 250 WORDS)
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We studied the effects of metabolic and respiratory acidosis (pH 7.20) and alkalosis (pH 7.60) on pulmonary vascular tone in 32 pentobarbital-anesthetized dogs ventilated with hyperoxia (inspired oxygen fraction, FIO2 0.40) and with hypoxia (FIO2 0.10). Ventilation, pulmonary capillary wedge pressure (Ppw), and cardiac output (3 l.min-1.m-2) were maintained constant to prevent passive changes in pulmonary arterial pressure (Ppa). Metabolic acidosis and alkalosis were induced with HCl (2 mmol.kg-1.h-1) and NaHCO3-Na2CO3 (5 mmol.kg-1.h-1) infusions, respectively, and respiratory acidosis and alkalosis by modifying the inspiratory CO2 fraction. ⋯ Linear relationships were found between pH and Ppa-Ppw gradients. These data indicate that in intact anesthetized dogs, metabolic acidosis and alkalosis, respectively, enhance and reverse hypoxic pulmonary vasoconstriction (HPV). Respiratory acidosis did not affect HPV and respiratory alkalosis blunted HPV, which suggests an pH-independent vasodilating effect of CO2.