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Effect of fat type in baked bread on amylose–lipid complex formation and glycaemic response
by
Henry, Christiani Jeyakumar
, Lau, Evelyn
, Zhou, Weibiao
in
Adult
/ Amylose
/ Amylose - chemistry
/ Area Under Curve
/ blood glucose
/ Blood Glucose - metabolism
/ Bread
/ breads
/ Butter
/ Carbohydrates
/ Coconut Oil
/ Cocos - chemistry
/ Complex formation
/ Diabetes
/ Dietary Fats - pharmacology
/ Digestibility
/ Drinking water
/ Edible oils
/ Fasting
/ Fats
/ Fatty acids
/ Fatty Acids - chemistry
/ Fatty Acids - pharmacology
/ Food
/ Food Handling - methods
/ Glucose
/ glycemic effect
/ Glycemic Index
/ Grapeseed oil
/ Human and Clinical Nutrition
/ Humans
/ hyperinsulinemia
/ Insulin
/ Insulin - blood
/ Insulin-Secreting Cells
/ islets of Langerhans
/ Lipids
/ Male
/ Men
/ Metabolic disorders
/ Nutrition research
/ Oils & fats
/ Olea - chemistry
/ Olive oil
/ Olive Oil - chemistry
/ Olive Oil - pharmacology
/ Plant Oils - chemistry
/ Plant Oils - pharmacology
/ Regression analysis
/ Single-Blind Method
/ Starch
/ variance
/ Vitis - chemistry
2016
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Effect of fat type in baked bread on amylose–lipid complex formation and glycaemic response
by
Henry, Christiani Jeyakumar
, Lau, Evelyn
, Zhou, Weibiao
in
Adult
/ Amylose
/ Amylose - chemistry
/ Area Under Curve
/ blood glucose
/ Blood Glucose - metabolism
/ Bread
/ breads
/ Butter
/ Carbohydrates
/ Coconut Oil
/ Cocos - chemistry
/ Complex formation
/ Diabetes
/ Dietary Fats - pharmacology
/ Digestibility
/ Drinking water
/ Edible oils
/ Fasting
/ Fats
/ Fatty acids
/ Fatty Acids - chemistry
/ Fatty Acids - pharmacology
/ Food
/ Food Handling - methods
/ Glucose
/ glycemic effect
/ Glycemic Index
/ Grapeseed oil
/ Human and Clinical Nutrition
/ Humans
/ hyperinsulinemia
/ Insulin
/ Insulin - blood
/ Insulin-Secreting Cells
/ islets of Langerhans
/ Lipids
/ Male
/ Men
/ Metabolic disorders
/ Nutrition research
/ Oils & fats
/ Olea - chemistry
/ Olive oil
/ Olive Oil - chemistry
/ Olive Oil - pharmacology
/ Plant Oils - chemistry
/ Plant Oils - pharmacology
/ Regression analysis
/ Single-Blind Method
/ Starch
/ variance
/ Vitis - chemistry
2016
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Effect of fat type in baked bread on amylose–lipid complex formation and glycaemic response
by
Henry, Christiani Jeyakumar
, Lau, Evelyn
, Zhou, Weibiao
in
Adult
/ Amylose
/ Amylose - chemistry
/ Area Under Curve
/ blood glucose
/ Blood Glucose - metabolism
/ Bread
/ breads
/ Butter
/ Carbohydrates
/ Coconut Oil
/ Cocos - chemistry
/ Complex formation
/ Diabetes
/ Dietary Fats - pharmacology
/ Digestibility
/ Drinking water
/ Edible oils
/ Fasting
/ Fats
/ Fatty acids
/ Fatty Acids - chemistry
/ Fatty Acids - pharmacology
/ Food
/ Food Handling - methods
/ Glucose
/ glycemic effect
/ Glycemic Index
/ Grapeseed oil
/ Human and Clinical Nutrition
/ Humans
/ hyperinsulinemia
/ Insulin
/ Insulin - blood
/ Insulin-Secreting Cells
/ islets of Langerhans
/ Lipids
/ Male
/ Men
/ Metabolic disorders
/ Nutrition research
/ Oils & fats
/ Olea - chemistry
/ Olive oil
/ Olive Oil - chemistry
/ Olive Oil - pharmacology
/ Plant Oils - chemistry
/ Plant Oils - pharmacology
/ Regression analysis
/ Single-Blind Method
/ Starch
/ variance
/ Vitis - chemistry
2016
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Effect of fat type in baked bread on amylose–lipid complex formation and glycaemic response
Journal Article
Effect of fat type in baked bread on amylose–lipid complex formation and glycaemic response
2016
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Overview
The formation of amylose–lipid complexes (ALC) had been associated with reduced starch digestibility. A few studies have directly characterised the extent of ALC formation with glycaemic response. The objectives of this study were to investigate the effect of using fats with varying degree of saturation and chain length on ALC formation as well as glycaemic and insulinaemic responses after consumption of bread. Healthy men consumed five test breads in a random order: control bread without any added fats (CTR) and breads baked with butter (BTR), coconut oil (COC), grapeseed oil (GRP) or olive oil (OLV). There was a significant difference in glycaemic response between the different test breads (P=0·002), primarily due to COC having a lower response than CTR (P=0·016), but no significant differences between fat types were observed. Insulinaemic response was not altered by the addition of fats/oils. Although BTR was more insulinotropic than GRP (P<0·05), postprandial β-cell function did not differ significantly. The complexing index (CI), a measure of ALC formation, was significantly higher for COC and OLV compared with BTR and GRP (P<0·05). CI was significantly negatively correlated with incremental AUC (IAUC) of change in blood glucose concentrations over time (IAUCglucose) (r –0·365, P=0·001). Linear regression analysis showed that CI explained 13·3 % of the variance and was a significant predictor of IAUCglucose (β=–1·265, P=0·001), but IAUCinsulin did not predict IAUCglucose. Our study indicated that a simple way to modulate glycaemic response in bread could lie in the choice of fats/oils, with coconut oil showing the greatest attenuation of glycaemic response.
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