Efficacy of increased resistant starch consumption in human type 2 diabetes

Bodinham, Caroline L.; Smith, Leanne; Thomas, E. Louise; Bell, Jimmy D.; Swann, Jonathan R.; Costabile, Adele; Russell‐Jones, David; Umpleby, AM; Robertson, M. Denise

doi:10.1530/ec-14-0036

Cited by 116 publications

(140 citation statements)

References 36 publications

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“…Interestingly, resistant starch supplementation increases peripheral glucose uptake in healthy subjects and in subjects with the metabolic syndrome [37] ; yet, a subsequent study by the same authors found no effect using the same method in subjects with DMT2 [38] , a finding that supports earlier work indicating that the underlying pathophysiology of diabetes may attenuate the effect of FCHO on glucose metabolism [39] . We have recently shown that over 9 weeks, the same dose of inulin as used in this study (30 g/day) reduces FPG in subjects with prediabetes compared to control [unpublished data], suggesting that longer supplementation periods may be required in subjects with prediabetes or DMT2.…”

Section: Discussionsupporting

confidence: 52%

“…We have recently shown that over 9 weeks, the same dose of inulin as used in this study (30 g/day) reduces FPG in subjects with prediabetes compared to control [unpublished data], suggesting that longer supplementation periods may be required in subjects with prediabetes or DMT2. Nevertheless, the effect of FCHO on glucose metabolism is clearly complex, with the type of FCHO (resistant starch, fructooligosaccharides, lactulose or inulin) [7,8,32] , the SCFA ratio produced [40] , and underlying pathophysiology [38,39] all appearing to mediate the effect of FCHO. We would draw particular attention to establish in vivo, the metabolic fate of the SCFAs: randomized controlled trials have shown that oral propionate lowers fasting and postprandial glucose [41,42] ; yet acute gastric infusion of propionate has no effect on hepatic glucose production or glucose levels [43] .…”

Section: Discussionmentioning

confidence: 99%

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A Randomised Crossover Trial: The Effect of Inulin on Glucose Homeostasis in Subtypes of Prediabetes

Guess¹,

Dornhorst²,

Oliver³

et al. 2015

Ann Nutr Metab

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Background: Fermentable carbohydrates (FCHO) have been shown to improve insulin sensitivity in normoglycaemic and insulin-resistant subjects. However, there are no data on subjects with prediabetes. We aimed to investigate the effect of the FCHO inulin, on glucose homeostasis in subjects with prediabetes. Methods: In a double-blind and placebo-controlled crossover study, 40 volunteers with prediabetes were randomly allocated to take 30 g/day of inulin or cellulose for 2 weeks in a crossover trial, following a 4-week dose-escalation run-in. Fasting insulin and glucose were measured for all subjects. Fifteen of the 40 subjects also underwent a meal tolerance test to assess insulin sensitivity, free fatty acids and glucagon-like peptide-1 concentrations. A subanalysis was carried out to examine any differences between the prediabetes subtypes. Results: Inulin was associated with a significant increase in _{(0-30 min)}incremental AUC (iAUC) for insulin (treatment: p < 0.04) and _{(0-60 min)}iAUC for insulin (treatment: p < 0.04) compared to control. There was a significant reduction in insulin resistance measured by the homeostatic model assessment in the isolated-impaired fasting glucose (p < 0.05) but not in the isolated-impaired glucose tolerance groups (p = 0.59). Conclusion: The FCHO, inulin, may have unique metabolic effects that are of particular benefit to people at risk of diabetes, which warrant further investigation.

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Section: Discussionsupporting

confidence: 52%

Section: Discussionmentioning

confidence: 99%

A Randomised Crossover Trial: The Effect of Inulin on Glucose Homeostasis in Subtypes of Prediabetes

Guess¹,

Dornhorst²,

Oliver³

et al. 2015

Ann Nutr Metab

View full text Add to dashboard Cite

show abstract

“…Resistant starch has been proved to exhibit potential health benefits, including reducing the glycemic response [6], lowering blood cholesterol [7], acting as a functional probiotic [8], and increasing the production of short chain fatty acids in the large intestine [9].…”

Section: Introductionmentioning

confidence: 99%

Characterization and Prebiotic Effect of the Resistant Starch from Purple Sweet Potato

Zheng

Wang

et al. 2016

Molecules

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Abstract:Purple sweet potato starch is a potential resource for resistant starch production. The effects of heat-moisture treatment (HMT) and enzyme debranching combined heat-moisture treatment (EHMT) on the morphological, crystallinity and thermal properties of PSP starches were investigated. The results indicated that, after HMT or EHMT treatments, native starch granules with smooth surface was destroyed to form a more compact, irregular and sheet-like structure. The crystalline pattern was transformed from C-type to B-type with decreasing relative crystallinity. Due to stronger crystallites formed in modified starches, the swelling power and solubility of HMT and EHMT starch were decreased, while the transition temperatures and gelatinization enthalpy were significantly increased. In addition, HMT and EHMT exhibited greater effects on the proliferation of bifidobacteria compared with either glucose or high amylose maize starch.

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“…However, the unphysiologically high concentrations of sodium propionate applied in these studies advise caution. Bodinham et al [156] recently studied the effects of increased resistant starch consumption in type-2 diabetes patients. While insulin sensitivity did not improve, a benefi cial effect on meal handling behavior was observed.…”

Section: Propionic Acidmentioning

confidence: 99%

“…Moreover, many studies performed in humans used a SCFA mix [161] or prebiotics such as resistant starch [156]. In consequence, it is not possible to separate the effects of the SCFAs and to analyze any synergistic or antagonistic actions.…”

Section: Propionic Acidmentioning

confidence: 99%

Reevaluating the hype: four bacterial metabolites under scrutiny

Fröhlich

Mayerhofer

Holzer

2015

European Journal of Microbiology and Immunology

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With microbiome research being a fiercely contested playground in science, new data are being published at tremendous pace. The review at hand serves to critically revise four microbial metabolites widely applied in research: butyric acid, flagellin, lipoteichoic acid, and propionic acid. All four metabolites are physiologically present in healthy humans. Nevertheless, all four are likewise involved in pathologies ranging from cancer to mental retardation. Their inflammatory potential is equally friend and foe. The authors systematically analyze positive and negative attributes of the aforementioned substances, indicating chances and dangers with the use of pre-and probiotic therapeutics. Furthermore, the widespread actions of microbial metabolites on distinct organs and diseases are reconciled. Moreover, the review serves as critical discourse on scientific methods commonly employed in microbiome research and comparability as well as reproducibility issues arising thereof.

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Efficacy of increased resistant starch consumption in human type 2 diabetes

Cited by 116 publications

References 36 publications

A Randomised Crossover Trial: The Effect of Inulin on Glucose Homeostasis in Subtypes of Prediabetes

A Randomised Crossover Trial: The Effect of Inulin on Glucose Homeostasis in Subtypes of Prediabetes

Characterization and Prebiotic Effect of the Resistant Starch from Purple Sweet Potato

Reevaluating the hype: four bacterial metabolites under scrutiny

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