To develop more sustainable feed formulations, it is important to assess in detail their effect
on gut function and health. We previously described the specific organization of the …

We derived two novel cell lines from rainbow trout (RT) proximal (RTpi-MI) and distal
intestine (RTdi-MI) and compared them with the previously established continuous cell line …

We previously showed that, according to the frequency and distribution of specific cell types,
the rainbow trout (RT) intestinal mucosa can be divided in two regions that form a complex …

Simple Summary Aquaculture is expanding due to the high demand of fish for human
consumption. However, since carnivorous fish are fed using fish-derived proteins and lipids …

In vitro organotypic cell-based intestinal platforms, able to faithfully recapitulate the complex
functions of the organ in vivo, would be a great support to search for more sustainable feed …

Reliable and predictive in vitro models would support the search for new raw materials that
can improve current fish diets. We recently developed some rainbow trout (RT) intestinal cell …

Simple Summary Aquaculture is the fastest growing food-producing sector due to the
increase of fish intended for human consumption. However, aquaculture growth generates …

Recently, a stochastic model of symmetrical stem cell division followed by neutral drift has
been proposed for intestinal stem cells (ISCs), which has been suggested to represent the …

The objective of this study was to evaluate the suitability of the rainbow trout intestinal
epithelial cell line (RTgutGC) as an in vitro model for studies of gut immune function and …

Sustainable farming of fish species depends on emerging new feed ingredients, which can
alter the features of the digestive tract and influence animals' overall health. Recent research …