J.H. Strubbe scite author profile

Blood glucose and insulin levels were measured in undisturbed and free-moving rats. The insulin level rises already in the 1st min after the start of food ingestion, whereas the glucose level begins to increase only in the 3rd min if carbohydrate-rich food is eaten. This early rise in insulin level is observed also under conditions in which either carbohydrate-free food or even "food" without any caloric value is offered. The smell of food cannot produce this early insulin response. It is concluded that in the rat other factors besides a rise in nutrient content in the blood produce insulin release in the first minutes after food ingestion.

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Hypothalamic influence on insulin and glucagon release in the rat.

Jong¹,

Strubbe²,

Steffens³

1977

American Journal of Physiology-Endocrinology and Metabolism

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Blood glucose, plasma insulin, and glucagon levels were measured in undisturbed and free-moving rats. The insulin and glucagon levels rise in the 1st min after the beginning of food ingestion, whereas the glucose level begins to increase only in the 3rd min if carbohydrate-rich food is eaten. This early rise in insulin and glucagon level is also observed under conditions in which carbohydrate-free food is eaten. A similar release of insulin and glucagon can be obtained by injection of 0.1 microgram of norepinephrine into the ventromedial hypothalamus, but the same injection made into the lateral hypothalamus causes release of insulin only, whereas injections in other hypothalamic areas are nearly without effect. Similar injections of isoproterenol did not cause changes in insulin, glucagon, and glucose levels. It is suggested that the early insulin and glucagon responses are of reflex origin and that the ventromedial and lateral hypothalamic areas are relay stations in the reflex pathways. The lack of effect of atropine to block the insulin and glucagon responses to noradrenergic stimulation of the ventromedial hypothalamus indicates that the efferent pathway is not cholinergic.

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Efficacy of a Prevascularized Expanded Polytetrafluoroethylene Solid Support System as a Transplantation Site for Pancreatic Islets1

Vos¹,

Hillebrands

Haan³

et al. 1997

Transplantation

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Neural Control of Insulin Secretion

Strubbe

Steffens²

1993

Horm Metab Res

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Kinetics of Intraperitoneally Infused Insulin In Rats: Functional Implications for the Bioartificial Pancreas

Vos

Vegter

Haan

et al. 1996

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Intraperitoneal transplantation of encapsulated islets can restore normoglycemia in diabetic recipients but not normal glucose tolerance nor normal insulin responses to a physiological stimulus. This study investigates whether the intraperitoneal implantation site as such contributes to the interference with optimal transport kinetics between the islets and the bloodstream. Insulin was infused into the peritoneal cavity of conscious and freely moving rats in doses of 20, 40, and 80 pmol.l-1.min-1 during 15 min, to mimic the gradual release of insulin from an encapsulated, i.e., a nonvascularized, islet graft. With 20 pmol.l-1.min-1, we observed virtually no rise of insulin levels, and it took 30 min until glucose levels had dropped significantly. With 40 and 80 pmol.l-1.min-1 insulin infusions, there was a dose-dependent rise of insulin and decrease of glucose levels. When compared with intraportal infusions with the same insulin dosages, however, they were strongly delayed and reduced as well as prolonged. Similar results were obtained when inulin instead of insulin was intraperitoneally infused, with indicates that the transport of insulin from the peritoneal cavity to the bloodstream is mainly by passive diffusion. With a view on the clinical efficacy of the bioartificial pancreas, our findings indicate that we should focus on finding or creating a transplantation site that, more than the unmodified peritoneal cavity, permits close contact between the bloodstream and the encapsulated islet tissue.

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Parasympathetic involvement in rapid meal-associated conditioned insulin secretion in the rat

Strubbe

1992

American Journal of Physiology-Regulatory, Integrative and Comp

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Blood glucose and plasma insulin concentrations were measured in blood sampled via a cardiac catheter in freely moving rats. To obtain a rapid conditioned cephalic phase of insulin secretion, rats were habituated to one of two feeding schedules. Clock-activated opening of doors in front of the food hopper imposed a feeding schedule of either six meals per day or two meals per day. When the doors were opened in both conditions, insulin increased rapidly during the first minute of feeding in the middle of the light phase. However, when presented an empty food hopper immediately after door opening, only rats in the two meal per day condition showed raised insulin levels and not rats in the six meal per day condition. This response was abolished following pharmacological blockade of nicotinic receptors with hexamethonium and muscarinic receptors with atropine. The present study shows that rapid conditioned insulin secretion can be evoked within one minute by a meal-associated stimulus. These results further indicate that this conditioned insulin secretion is vagally mediated and that its occurrence is dependent on the nature of the feeding schedule.

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Meal-induced increases in parasympathetic and sympathetic activity elicit simultaneous rises in plasma insulin and free fatty acids

Steffens

Gugten

Gödeke

et al. 1986

Physiology & Behavior

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Bile Secretion and Bile Composition in the Freely Moving, Unanaesthetized Rat with a Permanent Biliary Drainage: Influence of Food Intake on Bile Flow

Vonk

Doorn

Strubbe

1978

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1. In freely moving, unanesthetized rats bile flow was measured continuously over the whole day--night cycle. Bile composition was analysed and the influence of food intake on bile flow was investigated. 2. In both sexes a distinct circadian variation of bile production was observed. The mean night-time production was 50% higher than the day-time value for female rats and 38% for male rats. In the morning when the light was switched on, a sharp decrease in secretion rate was prominent and bile flow gradually increased in the afternoon. 3. The pattern of food intake was positively correlated with the pattern of food bile secretion. During fasting only the general level of bile flow decreased, but the circadian variation persisted. Refeeding again increased the mean level of bile flow. 4. The chenodeoxycholate/cholate ratio in these rats with permanent bile fistulae was higher than in rats with "acute" bile fistulae and changed during the day--night cycle. The ratio decreased from 1.01 at 05.00 hours to a minimum of 0.41 at 15.00 hours. 5. During the day--night cycle the sodium, potassium, calcium and cholesterol concentrations were relatively constant. The total bile salt concentration was only slightly changed, so that both the bile salt-dependent fraction and the bile salt-independent fraction were subject to about the same circadian variations.

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J.H. Strubbe

Rapid insulin release after ingestion of a meal in the unanesthetized rat

Hypothalamic influence on insulin and glucagon release in the rat.

Efficacy of a Prevascularized Expanded Polytetrafluoroethylene Solid Support System as a Transplantation Site for Pancreatic Islets1

Neural Control of Insulin Secretion

Kinetics of Intraperitoneally Infused Insulin In Rats: Functional Implications for the Bioartificial Pancreas

Parasympathetic involvement in rapid meal-associated conditioned insulin secretion in the rat

Meal-induced increases in parasympathetic and sympathetic activity elicit simultaneous rises in plasma insulin and free fatty acids

Bile Secretion and Bile Composition in the Freely Moving, Unanaesthetized Rat with a Permanent Biliary Drainage: Influence of Food Intake on Bile Flow

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