The NutriChip project – translating technology into nutritional knowledge

Vergères, Guy; Bogicevic, Biljana; Buri, Caroline; Carrara, Sandro; Chollet, Magali; Corbino-Giunta, Linda; Egger, Lotti; Gille, Doreen; Kopf, Katrin Annika; Laederach, Kurt; Portmann, Reto; Ramadan, Qasem; Ramsden, Jeremy; Schwander, Flurina; Silacci, Paolo; Walther, Barbara; Gijs, Martin (2012). The NutriChip project – translating technology into nutritional knowledge British Journal of Nutrition, 108(5), pp. 762-768. Cambridge University Press 10.1017/S0007114512002693

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Advances in food transformation have dramatically increased the diversity of products on the market and, consequently, exposed consumers to a complex spectrum of bioactive nutrients whose potential risks and benefits have mostly not been confidently demonstrated. Therefore, tools are needed to efficiently screen products for selected physiological properties before they enter the market. NutriChip is an interdisciplinary modular project funded by the Swiss programme Nano-Tera, which groups scientists from several areas of research with the aim of developing analytical strategies that will enable functional screening of foods. The project focuses on postprandial inflammatory stress, which potentially contributes to the development of chronic inflammatory diseases. The first module of the NutriChip project is composed of three in vitro biochemical steps that mimic the digestion process, intestinal absorption, and subsequent modulation of immune cells by the bioavailable nutrients. The second module is a miniaturised form of the first module (gut-on-a-chip) that integrates a microfluidic-based cell co-culture system and super-resolution imaging technologies to provide a physiologically relevant fluid flow environment and allows sensitive real-time analysis of the products screened in vitro. The third module aims at validating the in vitro screening model by assessing the nutritional properties of selected food products in humans. Because of the immunomodulatory properties of milk as well as its amenability to technological transformation, dairy products have been selected as model foods. The NutriChip project reflects the opening of food and nutrition sciences to state-of-the-art technologies, a key step in the translation of transdisciplinary knowledge into nutritional advice.

Item Type:

Journal Article (Original Article)

Division/Institute:

School of Agricultural, Forest and Food Sciences HAFL > Consumer-focused Food Production

Name:

Vergères, Guy;
Bogicevic, Biljana;
Buri, Caroline;
Carrara, Sandro;
Chollet, Magali;
Corbino-Giunta, Linda;
Egger, Lotti;
Gille, Doreen;
Kopf, Katrin Annika0000-0002-7443-7489;
Laederach, Kurt;
Portmann, Reto;
Ramadan, Qasem;
Ramsden, Jeremy;
Schwander, Flurina;
Silacci, Paolo;
Walther, Barbara and
Gijs, Martin

Subjects:

T Technology > T Technology (General)

ISSN:

0007-1145

Publisher:

Cambridge University Press

Language:

English

Submitter:

Katrin Annika Kopf

Date Deposited:

25 Mar 2020 12:39

Last Modified:

18 Dec 2020 13:29

Publisher DOI:

10.1017/S0007114512002693

Uncontrolled Keywords:

Nutrition, Functional genomics, Microfluidics, Nanotech

ARBOR DOI:

10.24451/arbor.9254

URI:

https://arbor.bfh.ch/id/eprint/9254

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