Gluten-free pasta as an alternative in the diet of patients with celiac disease

Celiac disease (CD) is an autoimmune disorder that produces inflammation in the gut mucosa, affecting nutrient digestion and absorption. CD affects 0.3% to 1.0% of the world's population and only 15% have a clinical diagnosis. The only effective treatment is a gluten-free diet. The objective of this study was to develop a dough for gluten-free pasta prepared with mixtures of flours from corn, amaranth, soy, and rice. According to the FAO standard of 1975, the resultant mixtures should have a protein content greater than 11.0% and a chemical rating of not less than 70. Three mixtures were obtained: corn‒soy (81-19), corn‒rice‒soy (48-37-15), and corn‒rice‒amaranth (49-32-14). To improve the handling of the pasta and its physical characteristics (sedimentation, degree of absorption, and cracked shaped pasta) compared to a control (commercial) gluten-free pasta, carboxymethylcellulose, an emulsifier (distilled monoglycerides), and egg albumin were added at concentrations of 0.3, 0.5, and 5.0%, respectively. The corn flour was pregelatinized, and the extrusion was repeated twice. The experimental pasta had a protein content of 14.0%, which was higher than the commercial pasta (4.5%), and a gluten content of less than 20 mg/kg which, according to the Codex Alimentarius International Food Standard (2015), it is considered gluten-free. The corn‒rice‒soy pasta obtained had an acceptance and liking similar to a commercial brand. This pasta may widen the gluten-free products commercially available to CD patients in Mexico, which nowadays is limited and expensive. PRACTICAL APPLICATION: Raw materials available in our country were selected to promote their consumption and diversify the ingredients used in the production of gluten-free products. The pasta obtained presented a higher nutritional content than a commercial gluten-free pasta and was comparable to that of a pasta made with wheat.

Relationship of Compositional, Mechanical, and Textural Properties of Gluten-Free Pasta Using Different Quinoa (Chenopodium quinoa) Varieties

Quinoa epitomizes the drive for healthier foods with ethnic concepts in developed countries, particularly among millennials. As a result, the popularity of quinoa as a gluten-free alternative has steadily grown over the last 20 years. Despite this, little is known about the impact of specific varieties on processed foods. The purpose of this study was to examine the impact of quinoa varieties (variety and content) on the mechanical and textural properties of buckwheat-based extruded pasta (spaghetti). Peruvian native (var. rosada taraco, kuchivila, negra collana, and mistura) and Latvian-grown (var. titicaca) varieties were independently incorporated to pasta between 5 and 20% (w/w). Pasta containing 20% quinoa var. negra collana, which presented the largest content of fiber and lowest content of saponin, was strongly associated to structural resilience (i.e., cohesiveness, firmness). Conversely, pasta containing 20% quinoa var. Titicaca appeared structurally weak (i.e., smooth). The addition of saponin-containing varieties to pasta (20%), such as rosada taraco and mistura, resulted in resilient structures with little effect on taste (incl. bitterness). Despite initial stability, pasta containing 20% quinoa var. kuchivila suffered heavy structural damage. In conclusion, the relationship of compositional, mechanical, and textural properties of pasta was strongly variety-dependent.

Consumer Understanding of the Date of Minimum Durability of Food in Association with Quality Evaluation of Food Products After Expiration

Food labelled with a "best before" date has a long shelf life. This study aimed to examine the respondents' knowledge and understanding regarding the labelling on food products, as well as to assess the microbiological, physico-chemical and the sensory quality of selected durable food products on and after the date specified by the manufacturer. Two methods were used-a survey and laboratory tests. It was found that the majority of respondents have difficulty distinguishing and understanding the terms on the label and that a significant proportion of the respondents consume food products after the "best before" date. Laboratory tests of milk, pasta, mayonnaise and jam confirmed the microbiological safety of the products even six months after the "best before" date. Other features (texture, colour and sensory quality) slightly changed after one month for milk and mayonnaise (the colour had become more yellow) and after three months for pasta (its hardness had decreased) and jam (it had become browner). The possibilityof extending the "best before" dates of selected durable foods could be considered, which could allow such products to legally be handed over to public benefit organisations, thereby reducing food wastage.

Pseudocereal grains: Nutritional value, health benefits and current applications for the development of gluten-free foods

Nowadays, consumers are more conscious of the environmental and nutritional benefits of foods. Pseudocereals grains, edible seeds belonging to dicotyledonous plant species, are becoming a current trend in human diets as gluten-free (GF) grains with excellent nutritional and nutraceutical value. Pseudocereals are a good source of starch, fiber, proteins, minerals, vitamins, and phytochemicals such as saponins, polyphenols, phytosterols, phytosteroids, and betalains with potential health benefits. The present review aims to summarize the nutritional quality and phytochemical profile of the three main pseudocereal grains: quinoa, amaranth and buckwheat. In addition, current evidence about their health benefits in animal models and human studies is also provided in detail. Based on the accumulating research supporting the inclusion of pseudocereals grains in the diet of celiac persons, this review discusses the recent advances in their application for the development of new GF products. Future directions for a wider cultivation and commercial exploitation of these crops are also highlighted.

Optimization of hot-air drying conditions for cassava flour for its application in gluten-free pasta formulation

The design and development of gluten-free foods requires a comprehensive understanding of the behavior of the raw materials to attain the same cooking and nutritional quality as gluten-based food. The objective of this study was to determine the optimal hot-air drying conditions for elaboration of cassava flour to be used in a gluten-free pasta formulation. The results showed that the operational conditions to minimize the hot-air drying time (57 min) to produce cassava flour with higher water holding capacity was 57 ℃ at 3 m/s. Then, the optimal formulation for the pasta was found to be cassava (26 g/100 g), amaranth flour (12 g/100 g), and carboxymethyl cellulose (0.23 g/100 g), which maximized the A_w (0.160), moisture content (3.10 g/100 g), hardness (5.02 N), and protein content (9.30 g/100 g), and it is used for the sensorial analysis, which showed that an earthy taste was the main problem with consumer satisfaction.