Control of pulsatile insulin secretion in man

Lang, D.; Burnett, M. A.

doi:10.1007/bf00282705

Cited by 171 publications

(136 citation statements)

References 22 publications

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“…The presence of preserved pulsatile insulin secretion after pancreas transplantation, albeit at increased frequency, further indicates the presence of an intra-pancreatic coordinating mechanism [75]. In vivo, cholinergic, alphaadrenergic and beta-adrenergic blocking agents did not perturb the detected periodicity in humans [131] or in monkeys [76], thus failing to support significance of these receptors on controlling pulsatile insulin release in vivo.…”

Section: Contribution Of Pulsatile Insulin Release To the Overall Insmentioning

confidence: 98%

“…In addition, the overall insulin secretion could be regulated by nerve blockers [76,131] and neurotransmitters such as galanine [134], epinephrine [135,136], GABA [137] dopamine [138], as well as nitric oxide [139], and because overall insulin release is pulsatile, the impact of these agents is probably involved in the regulation of pulses, although they have not been studied. In addition, sensory nerve blocking markedly increases insulin release [140], suggesting an inhibitory role of sensory nerves, and this could explain the loss of auto-feedback inhibition of insulin on insulin release in humans with pancreas transplant [141].…”

Section: Contribution Of Pulsatile Insulin Release To the Overall Insmentioning

confidence: 99%

“…In humans, an amplification of peripheral insulin oscillations with no change in frequency has been reported [131]. In a canine model, tolbutamide infusion results in a massive amplification of secretory burst mass with no effects on frequency or basal secretion and with no deterioration of the pulsatile pattern [32].…”

Section: Impact Of Drugs On Insulin Pulsatilitymentioning

confidence: 99%

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The in vivo regulation of pulsatile insulin secretion

2002

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In 1922, Karen Hansen [1] measured two series of blood glucose concentrations and reported oscillations in the peripheral concentrations of this substrate, results which were validated by simultaneous sampling from two sites to exclude the possibility that assay variability was a cause of the observed variations. Furthermore she studied the glucose concentrations in diabetic patients, and described both rapid and slower oscillations [1]. Half a century later the observation of rapid oscillations was shown to correlate with oscillations in the peripheral insulin concentrations [2±6], with glucose concentration increases slightly out of phase with insulin secretion pulses [7]. The pulsatile secretion of insulin was shown to coincide with islet pulsatile release of glucagon [4,6,8,9], and somatostatin [9±11]. A number of studies have reported importance of this release pattern for optimal insulin action [10, 12±21, 21±25], for overall insulin secretion [26±35], and for possible development of disease [36±43]. Studies on pulsatile insulin secretion could therefore be important for appreciating how insulin release is regulated overall and how Diabetologia (2002) 45: 3±20 ReviewsThe in vivo regulation of pulsatile insulin secretion

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Section: Contribution Of Pulsatile Insulin Release To the Overall Insmentioning

confidence: 98%

Section: Contribution Of Pulsatile Insulin Release To the Overall Insmentioning

confidence: 99%

Section: Impact Of Drugs On Insulin Pulsatilitymentioning

confidence: 99%

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The in vivo regulation of pulsatile insulin secretion

2002

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“…Blood glucose concentrations oscillate on a minute-by-minute basis (Abdallah et al, 1997), driven, at least in part, by the pulsatile nature of insulin secretion (Matthews et al, 1983). Presumably, the oscillations of plasma glucose in different tissues in the body are not in phase with each other, because it takes different lengths of time for the pulses of insulin from the pancreas to reach them.…”

Section: Glycaemic Index Interlaboratory Study Tms Wolever Et Almentioning

confidence: 99%

Determination of the glycaemic index of foods: interlaboratory study

et al. 2003

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Objective: Practical use of the glycaemic index (GI), as recommended by the FAO=WHO, requires an evaluation of the recommended method. Our purpose was to determine the magnitude and sources of variation of the GI values obtained by experienced investigators in different international centres. Design: GI values of four centrally provided foods (instant potato, rice, spaghetti and barley) and locally obtained white bread were determined in 8 -12 subjects in each of seven centres using the method recommended by FAO=WHO. Data analysis was performed centrally. Setting: University departments of nutrition. Subjects: Healthy subjects (28 male, 40 female) were studied. Results: The GI values of the five foods did not vary significantly in different centres nor was there a significant centre Â food interaction. Within-subject variation from two centres using venous blood was twice that from five centres using capillary blood. The s.d. of centre mean GI values was reduced from 10.6 (range 6.8 -12.8) to 9.0 (range 4.8 -12.6) by excluding venous blood data. GI values were not significantly related to differences in method of glucose measurement or subject characteristics (age, sex, BMI, ethnicity or absolute glycaemic response). GI values for locally obtained bread were no more variable than those for centrally provided foods. Conclusions:The GI values of foods are more precisely determined using capillary than venous blood sampling, with mean between-laboratory s.d. of approximately 9.0. Finding ways to reduce within-subject variation of glycaemic responses may be the most effective strategy to improve the precision of measurement of GI values.

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“…in plasma glucose and reflect a pacemaker function of the pancreas (Lang et al, 1981;Matthews et al, 1983a). Studies in normal subjects with suppressed endogenous insulin secretion and diabetic patients have indicated that less insulin is required to maintain normoglycaemia if the hormone is infused in an oscillatory manner compared to a constant rate (Matthews et al, 1983b;Bratusch-Marrain et al, 1986;Matthews et al, 1987;Paolisso et al, 1988a;Paolisso et al, 1988b).…”

mentioning

confidence: 99%

Oscillatory control of insulin secretion

Tengholm

Gylfe

2009

Molecular and Cellular Endocrinology

163

169

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Pulsatile insulin secretionSince insulin is the only blood glucose-lowering hormone, its secretion is essential for glucose homeostasis, and disturbances are associated with glucose intolerance and diabetes.Glucose is the major stimulus for insulin release but secretion is enhanced also by other nutrients and is under stimulatory and inhibitory control by hormones and neurotransmitters.Although the external factors are essential determinants of insulin secretion, there are also input-independent variations in hormone release. Regular oscillations of the circulating insulin concentrations in normal subjects consequently occur without accompanying changes

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Control of pulsatile insulin secretion in man

Cited by 171 publications

References 22 publications

The in vivo regulation of pulsatile insulin secretion

The in vivo regulation of pulsatile insulin secretion

Determination of the glycaemic index of foods: interlaboratory study

Oscillatory control of insulin secretion

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