Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies

Daniela Freitas; Athina Lazaridou; Dorine Duijsens; Kali Kotsiou; Kendall R. Corbin; Marilisa Alongi; Natalia Perez-Moral; Sebnem Simsek; Sedef Nehir El; Shannon Gwala; Sibel Karakaya; Steven Le Feunteun; Tara Grauwet; Mario M. Martinez; Cathrina H. Edwards

doi:10.1016/j.tifs.2025.104969

Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies

Daniela Freitas^*, Athina Lazaridou, Dorine Duijsens, Kali Kotsiou, Kendall R. Corbin, Marilisa Alongi, Natalia Perez-Moral, Sebnem Simsek, Sedef Nehir El, Shannon Gwala, Sibel Karakaya, Steven Le Feunteun, Tara Grauwet, Mario M. Martinez^*, Cathrina H. Edwards^*

^*Corresponding author for this work

Department of Food Science - Food Technology

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Review › Research › peer-review

Abstract

Background: Starch is the predominant carbohydrate in our diets and its impact on human health is intricately linked with its digestive process. However, despite major advancements in the field, important inconsistencies in how starch digestion is described and studied in vitro still persist. Scope and approach: Our main objective was to provide up-to-date insights on starch digestion and fermentation in the human gastrointestinal tract, as well as related physiological responses and main drivers of variability (including inter-individual variations and structural and compositional differences between foods). A critical appraisal of digestion models and future work priorities is also presented. This work is the product of an international collaboration within the INFOGEST research network. Key findings and conclusions: Starch digestion is accomplished by the concerted action of luminal and brush-border hydrolases. Mechanical and biochemical transformations occurring throughout oral, gastric and intestinal phases can be determinant, contributing to different extents to the digestive process depending on food properties and individual characteristics. Numerous methodologies, with varying complexity and capacity to reproduce key digestive processes (e.g., gastric emptying), are currently available. Some in vitro digestibility outcome measures can be closely correlated with the outcomes of in vivo studies, demonstrating the promising potential of these approaches. However, the physiological relevance of in vitro starch digestion studies is often compromised by the lack of methodological consensus (particularly for oral digestion) and omission of key enzymatic events. Therefore, the need to develop harmonized guidelines and validate in vitro protocols adapted to starch digestion studies stand out as priority areas for future work.

Original language	English
Article number	104969
Journal	Trends in Food Science and Technology
Volume	159
ISSN	0924-2244
DOIs	https://doi.org/10.1016/j.tifs.2025.104969
Publication status	Published - May 2025

Keywords

Dietary fibre
Food structure
Glycaemic response
INFOGEST
Microbiota
α-amylase

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10.1016/j.tifs.2025.104969

Cite this

Freitas, D., Lazaridou, A., Duijsens, D., Kotsiou, K., Corbin, K. R., Alongi, M., Perez-Moral, N., Simsek, S., El, S. N., Gwala, S., Karakaya, S., Le Feunteun, S., Grauwet, T., Martinez, M. M., & Edwards, C. H. (2025). Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies. Trends in Food Science and Technology, 159, Article 104969. https://doi.org/10.1016/j.tifs.2025.104969

@article{f9cf737436ef470e9e96f62d5010aeaf,

title = "Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies",

abstract = "Background: Starch is the predominant carbohydrate in our diets and its impact on human health is intricately linked with its digestive process. However, despite major advancements in the field, important inconsistencies in how starch digestion is described and studied in vitro still persist. Scope and approach: Our main objective was to provide up-to-date insights on starch digestion and fermentation in the human gastrointestinal tract, as well as related physiological responses and main drivers of variability (including inter-individual variations and structural and compositional differences between foods). A critical appraisal of digestion models and future work priorities is also presented. This work is the product of an international collaboration within the INFOGEST research network. Key findings and conclusions: Starch digestion is accomplished by the concerted action of luminal and brush-border hydrolases. Mechanical and biochemical transformations occurring throughout oral, gastric and intestinal phases can be determinant, contributing to different extents to the digestive process depending on food properties and individual characteristics. Numerous methodologies, with varying complexity and capacity to reproduce key digestive processes (e.g., gastric emptying), are currently available. Some in vitro digestibility outcome measures can be closely correlated with the outcomes of in vivo studies, demonstrating the promising potential of these approaches. However, the physiological relevance of in vitro starch digestion studies is often compromised by the lack of methodological consensus (particularly for oral digestion) and omission of key enzymatic events. Therefore, the need to develop harmonized guidelines and validate in vitro protocols adapted to starch digestion studies stand out as priority areas for future work.",

keywords = "Dietary fibre, Food structure, Glycaemic response, INFOGEST, Microbiota, α-amylase",

author = "Daniela Freitas and Athina Lazaridou and Dorine Duijsens and Kali Kotsiou and Corbin, {Kendall R.} and Marilisa Alongi and Natalia Perez-Moral and Sebnem Simsek and El, {Sedef Nehir} and Shannon Gwala and Sibel Karakaya and {Le Feunteun}, Steven and Tara Grauwet and Martinez, {Mario M.} and Edwards, {Cathrina H.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = may,

doi = "10.1016/j.tifs.2025.104969",

language = "English",

volume = "159",

journal = "Trends in Food Science and Technology",

issn = "0924-2244",

publisher = "Elsevier Ltd",

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Freitas, D, Lazaridou, A, Duijsens, D, Kotsiou, K, Corbin, KR, Alongi, M, Perez-Moral, N, Simsek, S, El, SN, Gwala, S, Karakaya, S, Le Feunteun, S, Grauwet, T, Martinez, MM & Edwards, CH 2025, 'Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies', Trends in Food Science and Technology, vol. 159, 104969. https://doi.org/10.1016/j.tifs.2025.104969

Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies. / Freitas, Daniela; Lazaridou, Athina; Duijsens, Dorine et al.
In: Trends in Food Science and Technology, Vol. 159, 104969, 05.2025.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Review › Research › peer-review

TY - JOUR

T1 - Starch digestion

T2 - A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies

AU - Freitas, Daniela

AU - Lazaridou, Athina

AU - Duijsens, Dorine

AU - Kotsiou, Kali

AU - Corbin, Kendall R.

AU - Alongi, Marilisa

AU - Perez-Moral, Natalia

AU - Simsek, Sebnem

AU - El, Sedef Nehir

AU - Gwala, Shannon

AU - Karakaya, Sibel

AU - Le Feunteun, Steven

AU - Grauwet, Tara

AU - Martinez, Mario M.

AU - Edwards, Cathrina H.

PY - 2025/5

Y1 - 2025/5

N2 - Background: Starch is the predominant carbohydrate in our diets and its impact on human health is intricately linked with its digestive process. However, despite major advancements in the field, important inconsistencies in how starch digestion is described and studied in vitro still persist. Scope and approach: Our main objective was to provide up-to-date insights on starch digestion and fermentation in the human gastrointestinal tract, as well as related physiological responses and main drivers of variability (including inter-individual variations and structural and compositional differences between foods). A critical appraisal of digestion models and future work priorities is also presented. This work is the product of an international collaboration within the INFOGEST research network. Key findings and conclusions: Starch digestion is accomplished by the concerted action of luminal and brush-border hydrolases. Mechanical and biochemical transformations occurring throughout oral, gastric and intestinal phases can be determinant, contributing to different extents to the digestive process depending on food properties and individual characteristics. Numerous methodologies, with varying complexity and capacity to reproduce key digestive processes (e.g., gastric emptying), are currently available. Some in vitro digestibility outcome measures can be closely correlated with the outcomes of in vivo studies, demonstrating the promising potential of these approaches. However, the physiological relevance of in vitro starch digestion studies is often compromised by the lack of methodological consensus (particularly for oral digestion) and omission of key enzymatic events. Therefore, the need to develop harmonized guidelines and validate in vitro protocols adapted to starch digestion studies stand out as priority areas for future work.

AB - Background: Starch is the predominant carbohydrate in our diets and its impact on human health is intricately linked with its digestive process. However, despite major advancements in the field, important inconsistencies in how starch digestion is described and studied in vitro still persist. Scope and approach: Our main objective was to provide up-to-date insights on starch digestion and fermentation in the human gastrointestinal tract, as well as related physiological responses and main drivers of variability (including inter-individual variations and structural and compositional differences between foods). A critical appraisal of digestion models and future work priorities is also presented. This work is the product of an international collaboration within the INFOGEST research network. Key findings and conclusions: Starch digestion is accomplished by the concerted action of luminal and brush-border hydrolases. Mechanical and biochemical transformations occurring throughout oral, gastric and intestinal phases can be determinant, contributing to different extents to the digestive process depending on food properties and individual characteristics. Numerous methodologies, with varying complexity and capacity to reproduce key digestive processes (e.g., gastric emptying), are currently available. Some in vitro digestibility outcome measures can be closely correlated with the outcomes of in vivo studies, demonstrating the promising potential of these approaches. However, the physiological relevance of in vitro starch digestion studies is often compromised by the lack of methodological consensus (particularly for oral digestion) and omission of key enzymatic events. Therefore, the need to develop harmonized guidelines and validate in vitro protocols adapted to starch digestion studies stand out as priority areas for future work.

KW - Dietary fibre

KW - Food structure

KW - Glycaemic response

KW - INFOGEST

KW - Microbiota

KW - α-amylase

UR - http://www.scopus.com/inward/record.url?scp=105000304442&partnerID=8YFLogxK

U2 - 10.1016/j.tifs.2025.104969

DO - 10.1016/j.tifs.2025.104969

M3 - Review

AN - SCOPUS:105000304442

SN - 0924-2244

VL - 159

JO - Trends in Food Science and Technology

JF - Trends in Food Science and Technology

M1 - 104969

ER -

Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies

Abstract

Keywords

Access to Document

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Non-covalent binding to target prime sites for cardiometabolic protection

Starch nutritional quality: beyond intraluminal digestion in response to current trends

Cite this

Starch digestion: A comprehensive update on the underlying modulation mechanisms and its in vitro assessment methodologies

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Projects

Non-covalent binding to target prime sites for cardiometabolic protection

Research output

Starch nutritional quality: beyond intraluminal digestion in response to current trends

Cite this