Cover image for The glycaemic index : a physiological classification of dietary carbohydrate
Title:
The glycaemic index : a physiological classification of dietary carbohydrate
Personal Author:
Wolever, Thomas M. S.
Publication Information:
Wallingford, UK : CABI, 2006
ISBN:
9781845930516
Subject Term:
Carbohydrates in human nutrition -- Classification

Glycemic index

Carbohydrates -- Metabolism

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Call Number
Material Type
Item Category 1
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 30000010157095 QP701 W64 2006 Open Access Book Book
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On Order

Summary

Summary

The glycaemic index (GI) is a measure of the ability of a food to raise blood sugar. Written by one of the co-inventors of the term, this is a clear and balanced review of current knowledge on this controversial concept. The book explores all the key issues of the definition of the GI, how to measure the GI of a food, how to apply GI information to meals and diets, the reasons why foods have different GI values and the impact of altering a diet GI on health and disease. The book highlights the benefits and the problems surrounding the GI concept, whilst encouraging readers to think critically about the issues involved.


Table of Contents

Prefacep. ix
1 Historical Introductionp. 1
1.1 The Dietary Fibre Hypothesisp. 1
1.2 Early Studies on the Glycaemic Effects of Carbohydratesp. 2
1.2.1 Studies before 1970p. 3
1.2.2 Studies after 1970p. 7
1.3 The Inception of the GIp. 9
1.4 The Development of the GIp. 10
1.5 Summaryp. 11
2 Determining the GI of Foods - Methodological Considerationsp. 12
2.1 Definition of the 'Glycaemic Index'p. 12
2.1.1 Meaning of 'glycaemic index'p. 12
2.1.2 Suggested protocol for determining the GI of foodsp. 17
2.1.3 Performance of methodp. 18
2.2 Effects of Variation in Methodsp. 18
2.2.1 Calculation of AUCp. 18
2.2.2 Amount of 'available carbohydrate' in the portion testedp. 20
2.2.3 Method of blood sampling and glucose measurementp. 22
2.2.4 Type of subjects studiedp. 26
2.2.5 Type of reference foodp. 33
2.2.6 Time of day tests are donep. 35
2.2.7 Preparation of subjects before the test dayp. 37
2.2.8 Effect of volume and type of drink consumed with the test mealp. 38
2.2.9 Time to consume test mealp. 41
2.3 Conclusionsp. 41
3 The Insulin Response to Carbohydrate Foods: Critical Evaluation of the Insulinaemic Indexp. 43
3.1 Insulin Sensitivityp. 43
3.1.1 Use of the term 'insulin sensitivity'p. 44
3.1.2 Measurement of insulin sensitivityp. 45
3.1.3 Clinical utility of insulin sensitivityp. 47
3.2 Are High Postprandial Insulin Responses Harmful?p. 49
3.2.1 Hyperinsulinaemia and cardiovascular diseasep. 49
3.2.2 Hyperinsulinaemia and type 2 diabetesp. 50
3.2.3 Hyperinsulinaemia and obesityp. 51
3.3 Determinants of Postprandial Insulin Responsesp. 51
3.3.1 Dietary protein and acute insulin responsesp. 51
3.3.2 Dietary fat and acute insulin responsesp. 52
3.3.3 Dietary carbohydrate and insulin responsesp. 52
3.3.4 Dietary sucrose and fructose and insulin responsesp. 54
3.3.5 Relationship between glucose and insulin responses of foodsp. 56
3.4 Plasma Insulin Responses of Mixed Meals and Whole Dietsp. 59
3.5 Relevance of GI to Insulin Sensitivity and Related Outcomesp. 60
3.6 Variation of Plasma Glucose and Insulinp. 61
3.7 Cost of Measuring Glucose and Insulinp. 61
3.8 Clinical Utility of IIp. 62
3.9 Conclusionsp. 63
4 Mechanisms by which Different Carbohydrates Elicit Different Glycaemic Responsesp. 64
4.1 The Monosaccharides Absorbedp. 64
4.1.1 Glucose, fructose and galactosep. 64
4.1.2 Polyolsp. 65
4.2 The Amount of Carbohydrate Metabolizedp. 66
4.2.1 The amount of carbohydrate consumedp. 66
4.2.2 The proportion of carbohydrate absorbedp. 69
4.3 Rate of Carbohydrate Absorptionp. 73
4.3.1 Addition of viscous fibrep. 74
4.3.2 Rate of starch digestion in vitrop. 74
4.3.3 Enzyme inhibitorsp. 75
4.3.4 Reducing the rate of carbohydrate consumptionp. 75
4.3.5 Studies using stable isotopesp. 76
4.3.6 The euglycaemic hyperinsulinaemic clampp. 76
4.4 Is Carbohydrate Malabsorption the Mechanism for Low-GI Foods?p. 78
4.4.1 Relation between RS measured in vitro and GIp. 78
4.4.2 Quantification of carbohydrate malabsorption in humans in vivop. 79
4.5 Conclusionsp. 82
5 Glycaemic Index: Application to Mixed Mealsp. 83
5.1 Effect of Mixing Carbohydrate Foods on Glycaemic Responsesp. 83
5.2 Effects of Fat on Glycaemic Responsesp. 86
5.2.1 Effects of fat added to fixed amount of carbohydratep. 86
5.2.2 Mechanism for the effect of fat on glycaemic responsesp. 88
5.2.3 Isocaloric substitution of fat and carbohydratep. 90
5.3 Effects of Protein on Glycaemic Responsesp. 91
5.4 Effects of Combination of Fat and Protein on Glycaemic Responsesp. 94
5.4.1 Studies in normal subjectsp. 94
5.4.2 Studies in subjects with diabetesp. 94
5.4.3 Interaction of GI with added protein and/or fatp. 95
5.5 Calculation of Meal or Diet GIp. 97
5.6 Different Meals with the Same Nutrient Compositionp. 100
5.6.1 What criteria should be used to determine whether the GI has utility?p. 101
5.6.2 Studies concluding against the utility of the GIp. 102
5.6.3 Statistical powerp. 105
5.6.4 Qualitative approach to predictionp. 107
5.6.5 Quantitative approach to predictionp. 111
5.7 Different Meals with Different Nutrient Compositionp. 112
5.8 Effect of Low-GI Diet on 24-hour Glucose Profilep. 115
5.9 Conclusionsp. 115
6 Measuring Diet GIp. 116
6.1 Assessing Available Carbohydrate Intakep. 116
6.1.1 Direct observationsp. 116
6.1.2 Food records or recallsp. 117
6.1.3 Food frequency questionnairesp. 117
6.2 Assigning GI Values to Foodsp. 120
6.3 Distribution of Diet GI Values in Individualsp. 123
6.4 Assessment of Diet GI by FFQp. 124
6.4.1 Population GI values assessed by FFQp. 124
6.4.2 Validity of FFQ for assessing diet GIp. 125
6.5 Assessing Diet GI by Food Recordsp. 126
6.6 Conclusionsp. 127
7 Glycaemic Index and Healthp. 129
7.1 GI and Athletic Performancep. 129
7.2 GI and Cognitive Functionp. 130
7.3 GI and Weight Managementp. 131
7.3.1 Pathogenesis of obesityp. 131
7.3.2 Effect of low-carbohydrate and low-GI diets on body weightp. 132
7.3.3 Low GI and appetite regulation in adultsp. 138
7.3.4 Low-GI foods and appetite regulation in childrenp. 141
7.3.5 GI and reduced fat storagep. 143
7.3.6 GI and efficiency of energy absorptionp. 144
7.4 GI and Pregnancyp. 145
7.5 GI and Miscellaneous Conditionsp. 145
7.5.1 GI and gastrointestinal tract functionp. 145
7.5.2 GI and dental cariesp. 146
7.6 Conclusionsp. 146
8 Glycaemic Index and Diseasep. 147
8.1 Diabetesp. 147
8.1.1 Dietary carbohydrates and prevention of type 1 diabetesp. 148
8.1.2 Dietary carbohydrates and prevention of type 2 diabetesp. 148
8.1.3 Effect of diet GI on glycaemic control in diabetesp. 153
8.2 Cardiovascular Diseasep. 154
8.2.1 Pathogenesis of cariovascular diseasep. 155
8.2.2 Effect of GI on risk for cardiovascular diseasep. 157
8.2.3 Effect of GI on cardiovascular disease risk factorsp. 157
8.3 Cancerp. 158
8.4 Mechanisms of Action of Low-GI Foodsp. 160
8.4.1 Reduced glucose toxicityp. 160
8.4.2 Reduced plasma insulin concentrationp. 160
8.4.3 Acute effects on gut hormone secretionp. 160
8.4.4 Increased colonic fermentationp. 161
8.5 Conclusionsp. 164
9 Glycaemic Index vs Glycaemic Loadp. 165
9.1 Definition of GLp. 165
9.2 Glycaemic Load and Acute Glycaemic Responsesp. 166
9.2.1 Validity of the GL conceptp. 168
9.2.2 Glycaemic glucose equivalentp. 169
9.2.3 Concluding remarks about GL and GGEp. 173
9.3 Does Low GI Equal Low Carbohydrate Beyond Acute Responses?p. 173
9.3.1 Evidence from epidemiological studiesp. 174
9.3.2 Evidence from second-meal studiesp. 176
9.3.3 Evidence from dietary intervention studiesp. 178
9.4 Clinical Utility of GI vs GL and GGEp. 181
9.5 Conclusionsp. 182
Referencesp. 184
Indexp. 223