L. De Leenheer scite author profile

The classic definitions of inulin and oligofructose are constructively criticized. It is observed that inulin cannot unequivocally be described as a polydisperse 1-kestose-based (GFn) beta (2-->1) linear fructan chain, but that inulin always contains small amounts of Fm and branched molecules. This review article describes the presence of inulin and oligofructose in common foodstuffs. Historical data on human consumption add an extra dimension. Modern analytical techniques (HPLC, LGC, HPAEC-PAD) are used to check the variety of data mentioned in the literature throughout the past century. Methods to determine inulin and oligofructose in natural foodstuffs (cereals, fruit, and vegetables) are optimized and used to determine the loss of inulin during storage and during preparation of the food. These findings allow quantification of the amount of inulin and oligofructose in the average daily western diet. The daily per capita intake is estimated to range from 1 to 10 g, depending on geographic, demographic, and other related parameters (age, sex, season, etc.). Inulin and oligofructose are not measured by classic methods of dietary fiber analysis and consequently are often not mentioned in food tables. Their significant contribution (1 to 10 g/d/per capita) to the dietary fiber fraction (recommended at 25 g/d/per capita) is not taken into account in any nutritional recommendations. In view of this, inulin and oligofructose deserve more attention, both in food composition tables and in diet or nutrition studies.

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Production and use of inulin: Industrial reality with a promising future

Leenheer

1996

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Inulin

Franck¹,

Leenheer²

2002

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Introduction Historical Outline Chemical Structure Natural Occurrence Physiological Function Chemical Analysis and Detection High‐performance Liquid Chromatography (HPLC) Gas Chromatography HPAEC Analysis (Dionex) Permethylation Quantitative Determination of Inulin and Oligofructose in Food Quantitative Determination of Inulin in Food Biosynthesis Synthesis of Microbial Fructan In vitro Synthesis of FOS Synthesis of Inulin from Plant Origin (Asteraceae) Biodegradation Plant Endogenous Degradation In vitro Hydrolysis by Yeast and Mold Enzymes Production FOS Production Starting from Sucrose Commercial Inulin of Plant Origin Commercial Production of Inulin and FOS Scale of Production Properties Physical and Chemical Properties Material Properties Biological Properties Food Applications Non‐food Developments and Applications Outlook and Perspectives Patents Acknowledgements

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Isolation and identification of O-β-d-fructofuranosyl-(2 → 1)-O-β-d-fructofuranosyl-(2 → 1)-d-fructose, a product of the en

Bruyn

Peña-Álvarez

Sandra

et al. 1992

Carbohydrate Research

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Soil Aggregate Stability Indexes and Crop Yields

1961

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L. De Leenheer

On the presence of Inulin and Oligofructose as natural ingredients in the western diet

Production and use of inulin: Industrial reality with a promising future

Inulin

Isolation and identification of O-β-d-fructofuranosyl-(2 → 1)-O-β-d-fructofuranosyl-(2 → 1)-d-fructose, a product of the en

Soil Aggregate Stability Indexes and Crop Yields

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