Abstract
High moisture extrusion (HME) of meat analogues is often performed with raw materials containing multiple components, e.g., blends of different protein-rich raw materials. For instance, blends of soy protein isolate (SPI) and another component, such as wheat gluten, are used particularly frequently. The positive effect of blending on product texture is well known but not yet well understood. Therefore, this work targets investigating the influence of blending in HME at a mechanistic level. For this, SPI and a model protein, whey protein concentrate (WPC), were blended at three different ratios (100:0, 85:15, 70:30) and extruded at typical HME conditions (55% water content, 115/125/133 °C material temperature). Process conditions, rheological properties, morphology development, product structure and product texture were analysed. With increasing WPC percentage, the anisotropic structures became more pronounced and the anisotropy index (AI) higher. The achieved AI from the extrudates with a ratio of 70:30 (SPI:WPC) were considerably higher than comparable extrudates reported in other studies. In all extrudates, a multiphase system was visible whose morphology had changed due to the WPC addition. The WPC led to the formation of a much smaller dispersed phase compared to the overlying multiphase structure, the size of which depends on the thermomechanical stresses. These findings demonstrate that targeted mixing of protein-rich raw materials could be a promising method to tailor the texture of extruded meat analogues.
Highlights
High moisture extrusion (HME) can be used to produce meat analogues from plantbased, protein-rich raw materials that are intended to mimic meat in terms of its unique structure, texture, and mouthfeel [1,2]
We showed that a multiphase system is formed in the singlecomponent extrudates based on soy protein isolate (SPI) in which the phases differ in their water concentration [10]
The addition of whey protein concentrate (WPC) as a model protein in two different concentrations had a significant influence on high moisture extrusion processing and the resulting extrudates
Summary
High moisture extrusion (HME) can be used to produce meat analogues from plantbased, protein-rich raw materials that are intended to mimic meat in terms of its unique structure, texture, and mouthfeel [1,2]. The studies on HME, which started in the 1980s [3,4,5], can basically be classified into two different categories, which refer to the use of the raw material, either single-component, where only a single protein-rich raw material (e.g., a protein concentrate or isolate) was used [3,6,7,8,9,10,11,12], or multi-component, where two or more raw materials were mixed together [13,14,15,16,17,18,19,20,21] For both categories, it was shown that anisotropic meat-like structures were created in the process. There is still a lack of understanding of what the positive effect of adding a second protein-rich raw material in HME on the product structure is based on
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