Kaminski Dl scite author profile

The effect of glucagon on secretin-stimulated bile flow was evaluated in dogs with chronic biliary and gastric fistulas. Evaluation of the effects of secretin and glucagon alone on hepatic bile flow indicated that the calculated maximal response (CMR) values of the two agents were similar. Secretin increased the bicarbonate concentration in hepatic bile whereas glucagon did not, suggesting basic differences in mechanism of action. Administration of glucagon to secretin-stimulated bile flow produced an increase in bile flow while decreasing the bicarbonate concentration in secretin-stimulated bile. Since the maximal response for bile flow to glucagon and secretin was significantly greater than the maximal response to either agent alone, glucagon produced potentiation of secretin-stimulated bile. Glucagon increased the CMR value of secretin-stimulated bile from 513 mul/min for secretin alone to 692 mul/min for secretin and glucagon. This was associated with no significant change in the values of the respective D50S. These data suggest that glucagon produced a noncompetitive augmentation of secretin-stimulated bile flow and suggest that the two agents do not utilize the same receptor to stimulate bile flow.

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Effect of the histamine (H2) inhibitor metiamide on histamine-stimulated bile flow in dogs

Dl¹,

Mj²,

Jellinek³

1976

American Journal of Physiology-Legacy Content

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The effects of the histamine H2-receptor inhibitor metiamide on histamine-stimulated canine bile flow and gastric hydrogen ion output were evaluated. Histamine was found to stimulate bile volume in doses comparable to those that stimulated gastric hydrogen ion output; both responses appeared to have the same maximal response dose, 150 mug/kg per h. Metiamide alone did not alter hepatic bile flow. Administration of metiamide, 2 mg/kg per h, along with various doses of histamine demonstrated that the H2-receptor antagonist decreased bile volume and gastric hydrogen ion output from values obtained with histamine administration alone. The D50 of histamine for bile flow was 16.3 mug/kg per h and the D50 for hydrogen ion output was 44.2 mug/kg per h, Kinetic analysis suggests that the decrease in histamine-stimulated hydrogen ion output produced by metiamide is the result of competitive inhibition; the decrease in histamine-stimulated bile volume by metiamide which is different from the hydrogen ion inhibition, suggests noncompetitive inhibition. These data indicate that the mechanism of histamine choleresis is different from the mechanism of histamine-stimulated gastric acid output and that histamine-stimulated bile flow may not be the result of direct hormone-receptor interaction.

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Orthotopic Liver Transplantation Resulting in Amitriptyline Toxicity in the Recipient

Jj¹,

Go²,

Me³

et al. 1989

Transplantation

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Kaminski Dl

Effect of electrical vagal stimulation on canine hepatic bile flow

The production of experimental cholecystitis by endotoxin

Effect of glucagon on secretin-stimulated bile flow

Effect of the histamine (H2) inhibitor metiamide on histamine-stimulated bile flow in dogs

Orthotopic Liver Transplantation Resulting in Amitriptyline Toxicity in the Recipient

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