Abstract
Probiotics in almond-based matrices were considered as a means of obtaining fermented products which would cover both the current demand for health-promoting foods and for alternatives to standard yoghurts. Firstly, the combined effect of high pressure homogenisation (HPH) and heat treatment on the physical stability of almond “milk” was studied. The beverage was homogenised by applying 62, 103 and 172 MPa (MF1, MF2 and MF3 respectively); MF3 was also combined with two different heat treatments (85 ºC-30 min (LH) and 121 ºC-15 min (HH)). Both microstructure and colloidal stability were analysed in all the processed samples to select the most suitable treatment with which to obtain a stable product. The selected almond milk was then fermented with probiotic Lactobacillus reuteri and Streptococcus thermophilus and the final product was characterised throughout cold storage time (28 days) as to pH, acidity, serum retention and starter viability. A sensory evaluation and probiotic survival to in vitro digestion was also conducted. The results showed that the physical and structural almond-milk properties were affected by both HPH and heat treatments, obtaining the greatest stability in MF3-LH samples. The fermented milk permitted probiotic survivals above the level suggested as minimum for ensuring health benefits during the entire controlled time and, hence, can be considered as a functional food. No differences in the sensory acceptability of the product were found between 1 and 28 storage days. Therefore, a new, functional, fermented product was developed, which was suitable for targeted groups, such as the lactose-intolerant and cow-milk-protein allergic populations.
Highlights
Vegetable “milks” are currently at the forefront due to either the growing problems related with intolerance (Fiocchi et al, 2010) or to changes in food preferences
Most of the small particles were flocculated through protein bridges, which explains the poor stability of the emulsion despite the fact that particles are small in size
Once the separation process occurred in the different samples, no notable differences in the height of the separate phases were observed throughout storage period
Summary
Vegetable “milks” are currently at the forefront due to either the growing problems related with intolerance (Fiocchi et al, 2010) or to changes in food preferences. The so-called almond “milk” has long been used as an alternative to cow-milk for lacto-intolerant people, pregnant women and celiacs mainly due to their high levels of calcium, phosphorous and potassium (Luengo, 2009). It could be used as a base product to develop new non-dairy fermented products with functional features, in which the nutritional and health benefits of almonds and probiotic bacteria are included. The aim of this study was, on the one hand, to analyse the combined effect of heat treatments and high homogenisation pressures on the physical properties and stability of almond milk in order to define processing conditions which ensure the product quality and stability and, on the other hand, to develop a non-dairy, fermented, probiotic product with high quality properties by using L. reuteri ATCC 55730, a well-established probiotic (Casas & Mollstam, 1997), mixed with S. thermophilus CECT 986
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