In vitro digestibility and solubility of phosphorus of three plant‐based meat analogues

Interest in plant‐based meat analogues has increased and can be expected to be applied to pet foods, which necessitates the understanding of the nutrient supply in those foods. Our primary aim was to advance our understanding of the digestive properties of sterilized plant‐based meat analogues. The...

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Published inJournal of animal physiology and animal nutrition Vol. 108; no. S1; pp. 24 - 35
Main Authors Wehrmaker, Ariane Maike, Groot, Wouter, Jan van der Goot, Atze, Keppler, Julia Katharina, Bosch, Guido
Format Journal Article
LanguageEnglish
Published Germany Wiley Subscription Services, Inc 01.05.2024
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Summary:Interest in plant‐based meat analogues has increased and can be expected to be applied to pet foods, which necessitates the understanding of the nutrient supply in those foods. Our primary aim was to advance our understanding of the digestive properties of sterilized plant‐based meat analogues. The impact of the preparatory processing steps on the solubility of meat analogues was studied. Meat analogues were made by mixing water, salt, and wheat gluten with soy protein isolate, pea protein isolate, or faba bean concentrate. Mixed materials were processed into model meat analogues using shear cell technology. Products were canned in water or gravy and sterilized. An animal‐based canned pet food was made as a reference. Products sampled at the processing steps (mixing, shearing, sterilization) were digested in vitro. Samples of digestate were taken at the gastric phase (0 and 120 min) and small intestinal phase (120, 200, 280, and 360 min) for analysis of protein hydrolysis. The extent digestion of nitrogen and dry matter was determined at the end of incubation. Total phosphorus, soluble phosphorus after acid treatment, and after acid and enzymatic treatment were determined. The degree of hydrolysis after gastric digestion was low but increased immediately in the small intestinal phase; products based on pea had the highest values (56%). Nitrogen digestibility was above 90% for all materials at each processing step, indicating that bioactive compounds were absent or inactivated in the protein isolates and concentrate. Phytate seemed to play a minor role in meat analogues, but phosphorus solubility was influenced by processing. Shearing decreased soluble phosphorus, but this effect was partly reversed by sterilization. Nutrient digestibility as well as phosphorus solubility in plant‐based products was higher than or comparable with the reference pet food. These findings show that the digestive properties of the tested plant‐based meat analogues do not limit the supply of amino acids and phosphorus.
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ISSN:0931-2439
1439-0396
1439-0396
DOI:10.1111/jpn.13956