Dallas J. Légaré scite author profile

In anesthetized cats, reduction of portal flow by occlusion of the superior mesenteric artery results in rapid increase in hepatic arterial (HA) flow that compensates for (buffers) 25.5 +/- 2.7% of the decreased portal flow. The hypothesis tested is that adenosine concentration produced near the HA resistance vessels is regulated by washout into portal vessels in intimate contact with the HA. Reduced portal flow leads to accumulation of adenosine and HA dilation. Several criteria for this hypothesis are met. First, adenosine is a potent dilator of the HA. Second, portal blood has access to HA resistance vessels as shown by a marked dilator effect of adenosine infused into the portal vein; it is therefore possible for adenosine produced locally to diffuse into portal blood. Third, dipyridamole potentiated the dilator response to adenosine as well as potentiating the buffer response from a 23% compensation for reduced portal flow to 34%. Fourth, 1-methyl-3-isobutylxanthine (MIX) antagonized exogenous adenosine and reduced the buffer response from 19% down to 5%. These data strongly support the hypothesis that the hepatic arterial buffer response is mediated by local concentrations of adenosine that are controlled by the rate of washout into portal blood.

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Hepatic parasympathetic (HISS) control of insulin sensitivity determined by feeding and fasting

Lautt

Macedo

Sadri

et al. 2001

American Journal of Physiology-Gastrointestinal and Liver Physi

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In response to insulin, a hormone [hepatic insulin sensitizing substance (HISS)] is released from the liver to stimulate glucose uptake in skeletal muscle but not liver or gut. The aim was to characterize dynamic control of HISS action in response to insulin and regulation of release by hepatic parasympathetic nerves. Insulin action was assessed by the rapid insulin sensitivity test, where the index is the glucose required (mg/kg) to maintain euglycemia after a bolus of insulin. Blocking HISS release by interruption of the hepatic parasympathetic nerves by surgical denervation, atropine, or blockade of hepatic nitric oxide synthase produced similar degrees of insulin resistance and revealed a similar dynamic pattern of hormone action that began 3--4 min after, and continued for 9--10 min beyond, insulin action (50 mU/kg). HISS action accounted for 56.5 +/- 3.5% of insulin action at insulin doses from 5 to 100 mU/kg (fed). We also tested the hypothesis that HISS release is controlled by the feed/fast status. Feeding resulted in maximal HISS action, which decreased progressively with the duration of fasting.

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Quantitation of the hepatic arterial buffer response to graded changes in portal blood flow

1990

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Insulin resistance induced by sucrose feeding in rats is due to an impairment of the hepatic parasympathetic nerves

et al. 2005

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Rapid insulin sensitivity test (RIST)

Lautt¹,

Wang²,

Sadri³

et al. 1998

Can. J. Physiol. Pharmacol.

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A rapid insulin sensitivity test (RIST) was recently introduced to assess insulin action in vivo (H. Xie, L. Zhu, Y.L. Zhang, D.J. Legare, and W.W. Lautt. J. Pharmacol. Toxicol. Methods, 35: 77-82. 1996). This technical report describes the current recommended standard operating procedure for the use of the RIST in rats based upon additional experience with approximately 100 tests. We describe the manufacture and use of an arterial-venous shunt that allows rapid multiple arterial samples and intravenous administration of drugs. The RIST procedure involves determination of a stable arterial glucose baseline to define the ideal euglycemic level to be maintained following a 5-min infusion of insulin, with the RIST index being the amount of glucose required to be infused to maintain euglycemia over the test period. Insulin administration by a 5-min infusion is preferable to a 30-s bolus administration. No significant difference was determined between the use of Toronto pork-beef or human insulin. Four consecutive RISTs were carried out in the same animal over 4-5 h with no tendency for change with time. The RIST index is sufficiently sensitive and reproducible to permit establishment of insulin dose-response curves and interference of insulin action by elimination of hepatic parasympathetic nerves, using atropine. This technical report provides the current recommended standard operating procedure for the RIST.

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