The ever-increasing number and variation of raw materials utilized to provide alternative feed formulations continues to allow for a more sustainable and flexible approach. Testing all these options in vivo is still the most robust and reliable manner to pick the best raw material candidates, but it requires the use of large numbers of animals and is time-consuming and expensive. Therefore, we are developing an in vitro platform that can provide a reliable evaluation of new ingredients. The main aim of this work was to combine an in vitro digestion protocol of extruded, commercially relevant aquafeeds with the exposure of intestinal epithelial cells to the extracted bio-available fraction (BAF). The results show that 250,000 cells/cm2 represents the optimal seeding density and that up to 50% BAF concentration for up to 24 h had no negative effects on the epithelial barrier morphology and function. It is possible to determine amino acid digestibility and bioavailability in all the experimental conditions (with and without BSA, at 25% and 50% dilution) and at all time points (0, 6, and 24 h). However, BAF concentration, the medium used for its dilution, and the length of exposure to the different epithelial cell lines can all influence the results and, therefore, must be selected according to the final aim of the experiment.

Development of a Rainbow Trout (Oncorhynchus mykiss) Intestinal In Vitro Platform for Profiling Amino Acid Digestion and Absorption of a Complete Diet / R. Pasquariello, R. Pavlovic, M.A. Chacon, F. Camin, N. Verdile, G. Lokka, S. Panseri, M. Faustini, A. Tandler, D. Peggs, T.M. Kortner, A. Bitan, T. Brevini, F. Gandolfi. - In: ANIMALS. - ISSN 2076-2615. - 13:14(2023 Jul 12), pp. 2278.1-2278.21. [10.3390/ani13142278]

Development of a Rainbow Trout (Oncorhynchus mykiss) Intestinal In Vitro Platform for Profiling Amino Acid Digestion and Absorption of a Complete Diet

R. Pasquariello
Primo
Investigation
;
R. Pavlovic
Secondo
Investigation
;
F. Camin
Formal Analysis
;
N. Verdile
Formal Analysis
;
S. Panseri
Membro del Collaboration Group
;
M. Faustini
Membro del Collaboration Group
;
T. Brevini
Penultimo
;
F. Gandolfi
Ultimo
Writing – Review & Editing
2023

Abstract

The ever-increasing number and variation of raw materials utilized to provide alternative feed formulations continues to allow for a more sustainable and flexible approach. Testing all these options in vivo is still the most robust and reliable manner to pick the best raw material candidates, but it requires the use of large numbers of animals and is time-consuming and expensive. Therefore, we are developing an in vitro platform that can provide a reliable evaluation of new ingredients. The main aim of this work was to combine an in vitro digestion protocol of extruded, commercially relevant aquafeeds with the exposure of intestinal epithelial cells to the extracted bio-available fraction (BAF). The results show that 250,000 cells/cm2 represents the optimal seeding density and that up to 50% BAF concentration for up to 24 h had no negative effects on the epithelial barrier morphology and function. It is possible to determine amino acid digestibility and bioavailability in all the experimental conditions (with and without BSA, at 25% and 50% dilution) and at all time points (0, 6, and 24 h). However, BAF concentration, the medium used for its dilution, and the length of exposure to the different epithelial cell lines can all influence the results and, therefore, must be selected according to the final aim of the experiment.
aquaculture; bioavailability; digestibility; in vitro digestion; intestine; sustainable feed
Settore VET/01 - Anatomia degli Animali Domestici
Settore AGR/20 - Zoocolture
Settore AGR/18 - Nutrizione e Alimentazione Animale
   Developing an Artificial Intestine for the sustainable farming of healthy fish (Fish-AI)
   Fish-AI
   EUROPEAN COMMISSION
   H2020
   828835
12-lug-2023
https://www.mdpi.com/2076-2615/13/14/2278
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/996309
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