Your search keyword '"Stefania Nazzaro"' showing total 4 results

1. Effect of Different Hydrocolloids on the Qualitative Characteristics of Fermented Gluten-Free Quinoa Dough and Bread

Author

Tiziana Di Renzo, Maria Carmela Trivisonno, Stefania Nazzaro, Anna Reale, and Maria Cristina Messia

Subjects

hydroxypropyl methylcellulose (HPMC), sodium alginate, k-carrageenan, xanthan gum, digital image analysis, yeast fermentation, Chemical technology, TP1-1185

Abstract

The aim of this research was to optimize the production process of fermented gluten-free quinoa bread. To this end, the effect of different hydrocolloids on the technological, fermentative, and nutritional properties of quinoa-based gluten-free doughs and breads was evaluated. For this purpose, 3% of four different hydrocolloids (sodium alginate, k-carrageenan, xanthan gum, and hydroxypropyl methylcellulose (HPMC)) were used in gluten-free doughs composed of 50% quinoa flour, 20% rice flour, and 30% potato starch. The rheological and fermentative properties of the doughs were evaluated, as well as the chemical composition, specific volume, crust and crumb color, and alveolar structure profile of gluten-free breads. The results highlighted the differences in dough rheology during mixing and fermentation of the doughs. In particular, HPMC showed a good gas retention (93%) during the fermentation of quinoa dough by registering the highest maximum dough development height (Hm). The gluten-free quinoa breads obtained were characterized by significantly different quality parameters (p < 0.05). The use of 3% HPMC resulted in breads with the lowest baking loss, the highest volume, and the most open crumb structure.

Published

2024

2. Ancient Grain Flours with Different Degrees of Sifting: Advances in Knowledge of Nutritional, Technological, and Microbiological Aspects

Author

Tiziana Di Renzo, Giovanni Cascone, Giuseppina Crescente, Anna Reale, Valeria Menga, Maria D’Apolito, Stefania Nazzaro, Maria Grazia Volpe, and Stefania Moccia

Subjects

Risciola, Carosella, Saragolla, ATR-FTIR, chemical composition, amylose–amylopectin ratio, Chemical technology, TP1-1185

Abstract

Ancient grains have gained considerable attention in recent years, as some research suggests they may be healthier than modern wheat. The present study aims to evaluate the chemical, rheological, and microbiological features of three Southern Italian cultivated ancient wheat varieties: Risciola, Carosella, and Saragolla. ATR-FTIR analyses were performed on the finely ground grain samples of the three varieties. The selected grains were ground with a stone mill, and different sifting degrees (whole—100%, type 1—80%, and type 0—72%) were evaluated. The flours showed a good nutritional profile, a higher amylose/amylopectin ratio, and a lower glycemic index than the literature. The gluten index of the samples was in the range 2.6–28.9%, and the flours can be classified as weak, having a value

Published

2023

3. Microbial and Qualitative Traits of Quinoa and Amaranth Seeds from Experimental Fields in Southern Italy

Author

Anna Reale, Maria Cristina Messia, Cataldo Pulvento, Antonella Lavini, Stefania Nazzaro, and Tiziana Di Renzo

Subjects

pseudocereals, spore-forming bacteria, Bacillus spp., PCR-DGGE, rope spoilage, bread, Chemical technology, TP1-1185

Abstract

Quinoa and amaranth are of special interest since they are increasingly used for the development of new bakery products with enhanced nutritional value. The aim of the study was to evaluate the agronomic, microbiological, and nutritional characteristics of quinoa and amaranth seeds grown in Southern Italy. For this reason, quinoa Titicaca and three amaranth accessions (5, 12, and 14) were cultivated in different experimental fields in the Campania Region and analyzed for the cultivation aspects, chemical composition, and microbiological quality of the seeds. All seeds showed a good adaptability to cultivation in the experimental areas of the Mediterranean basin. Quinoa seeds were characterized by their higher protein, fat, and ash content than the amaranth seeds, which were characterized by their higher value in dietary fiber. All seeds, regardless of the geographical area of production, were contaminated with yeasts, moulds, and spore-forming bacteria, mainly Bacillus cereus, B. licheniformis, B. safensis and B. subtilis, as identified by 16S rRNA sequencing analysis. So, the detection of Bacillus spp. must be strongly monitored, as quinoa and amaranth seeds could be used in bread production, where they can cause ropiness, resulting in great economic losses for the industries.

Published

2023

4. Shotgun proteomics for the identification of yeasts responsible for pink/red discoloration in commercial dairy products

Author

Tiziana Di Renzo, Anna Reale, Stefania Nazzaro, Francesco Siano, Francesco Addeo, and Gianluca Picariello

Subjects

Food Science

Published

2023