H. A. J. Gielkens scite author profile

The effect of gastrin on the migrating motility complex (MMC) was studied in seven healthy subjects. It was hypothesized that a potential effect of gastrin on the MMC may result from intraluminal acidification through increased gastric acid secretion. Therefore, antroduodenal manometry and intraluminal acidity were recorded simultaneously. The effect of gastric acid inhibition, with and without administration of gastrin, on antroduodenal motility and intraluminal acidity was also evaluated and compared with saline infusion (control). Continuous infusion of gastrin-17 (20 pmol ⋅ kg−1 ⋅ h−1) increased intragastric and intraduodenal acidity and suppressed phase II and phase III motor activity in both antrum and duodenum. Concomitant gastric acid inhibition with intravenous famotidine, as demonstrated by intragastric neutralization of pH, completely antagonized the effect of gastrin on the MMC. In fact, famotidine infusion, both with and without administration of gastrin, significantly shortened MMC cycle length. It is concluded that the effect of gastrin on interdigestive antroduodenal motility results from increased intraluminal acidity.

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Is the effect of acute hyperglycaemia on interdigestive antroduodenal motility and small‐bowel transit mediated by insulin?

Gielkens¹,

Verkijk²,

Frölich

et al. 1997

Eur J Clin Investigation

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Acute hyperglycaemia inhibits antroduodenal motility. In non-diabetic subjects this inhibitory effect may result from reactive endogenous hyperinsulinaemia. Therefore, we investigated the effects of hyperinsulinaemia during both hyperglycaemia and euglycaemia on interdigestive antroduodenal motility (perfusion manometry) and duodenocaecal transit time (DCTT; lactulose breath-H2 test). Six healthy volunteers (age 20-26 years) were studied for 240 min on three separate occasions in random order during: (a) i.v. saline (control); (b) acute hyperglycaemic hyperinsulinaemia (HG) with plasma glucose at 15 mmolL-1; and (c) euglycaemic hyperinsulinaemia (HI) with plasma insulin at 80 mUL-1 and glucose at 4-5 mmolL-1, RESULTS: DCTT was significantly (P < 0.05) prolonged during HG (158 +/- 23 min) compared with control (95 +/- 25 min), whereas HI had no effect (100 +/- 17 min). Mean duration of complete migrating motor complex (MMC) cycles was significantly (P < 0.05) reduced during HG (63 +/- 9 min) compared with control (103 +/- 15 min) and HI (105 +/- 16 min), which resulted from a significantly (P < 0.05) shorter duration of phase II. Antral motility was significantly (P < 0.05) reduced during both HI (20 +/- 8 contractions 240 min-1) and HG (9 +/- 5) compared with control (43 +/- 7). It is concluded that in healthy subjects hyperglycaemia prolongs DCTT, increases duodenal MMC cycle frequency and inhibits antral motility. Hyperinsulinaemia reduces antral motor activity but has no effect on interdigestive duodenal motility or DCTT. Thus, other factors, apart from insulin, mediate the inhibitory effect of hyperglycaemia on interdigestive intestinal motility and transit.

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H. A. J. Gielkens

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Is the effect of acute hyperglycaemia on interdigestive antroduodenal motility and small‐bowel transit mediated by insulin?

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