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- Thermal and non-thermal Cantaloupe melon juice pasteurization: Assessment of the impact of ozone exposure on microbiological, physicochemical and bioactive characteristicsPublication . Sroy, Sengly; Fundo, Joana F.; Miller, Fátima A.; Brandão, Teresa R.S.; Silva, Cristina L. M.
- Physicochemical and bioactive caracterisation of edible and waste parts of “piel de sapo” melonPublication . Miller, Fátima Alves; Fundo, Joana Freitas; Garcia, Ester; Santos, João Rodrigo; Silva, Cristina Luisa Miranda; Brandão, Teresa Ribeiro SilvaSeveral scientific studies point fruits as rich sources of antioxidants but mainly focus on their edible part. However, fruits wastes are abundant sources of bioactive compounds and nutrients, which are considered to be health beneficial. The main purpose was to characterise juice, pulp, peel and seeds of Piel de Sapo melon, in terms of several physicochemical characteristics (soluble solids content, titratable acidity, pH, potassium, colour and water activity), some bioactive compounds (total phenolics, vitamin C, chlorophylls and total carotenoids) and total antioxidant activity. Juice, pulp, peel and seeds represent 47, 19, 27 and 5% of melon total weight, respectively. Peel and seeds stood out by their higher concentration of total phenolics compounds and antioxidant activity when compared to edible parts. The highest potassium concentration was found in seeds. Chlorophylls were only detected in peel, while carotenoids were not detected in any part of the melon analysed. Juice and pulp contributed to 69% of vitamin C amount of the whole fruit. However, its concentration in peel was equivalent to the ones observed in juice and pulp. These results pointed out the importance of fruit wastes valorisation and the development of strategies for their re-utilisation.
- A microbiologia preditiva como instrumento da garantia da segurança de produtos alimentaresPublication . Miller, Fátima A.; Gil, Maria Manuel; Brandão, Teresa R. S.; Silva, Cristina L. M.The quality and safety of products is of great importance to food industry. In terms of public health, the appropriate control of growth and/or inactivatiton of microorganisms is crucial. No contamination by micraorganisms responsible for degradation is as well important to assure food quality along the distribution chain. The train microorganisms responsible for foodborn diseases are: Campylobacter spp, Escherichia coli, Listeria monocytogenes and Salmonella spp. Studies on the effect of several factors, such as process time-temperature, pH and water activity, on microbial behaviour are fundamental to attain the appropriate control of foods' quality. The development of mathematical models (predictive microbiology) that describe the microorganisms' inactivation is therefore important and it is a relatively new researching field. In this work a review on inactivation kinetics of microorganisms and mathematical models commonly used to describe this behaviour (primary, secondary and tertiary) is presented. Based on a critical analysis of available information, new research lines are suggested.
- Physicochemical and bioactive compounds of ‘Cantaloupe’ Melon: effect of ozone processing on pulp and seedsPublication . Miller, Fátima A.; Fundo, Joana F.; Silva, Cristina L. M.; Brandão, Teresa R. S.Melon seeds are an important source of bioactive compounds, which are considered to be health beneficial. Therefore, the objective of this work was to assess the impact of gaseous ozone treatments (30 and 60 min) on melon seeds paste (nonedible part) and compare with the effect on pulp (edible part). Ozone treatments were evaluated in terms of physicochemical (color, pH, and soluble solids content) and nutritional profiles (total phenolics, total carotenoids, and total antioxidant capacity) of processed material. Results indicate that ozone has a different impact on the two fruit matrices, being seeds less affected by this preservation treatment.
- A review on ozone-based treatments for fruit and vegetables preservationPublication . Miller, Fátima A.; Silva, Cristina L. M.; Brandão, Teresa R. S.The development and application of efficient methods for the preservation of food products have always been industrial concerns. The search for new technologies that assure safety and quality of the products is an ever-growing challenge. In this context, ozone has emerged, presenting a set of characteristics that makes it highly suitable for fruits and vegetables. Ozone properties and ozone applications to fruits and vegetables industries are included in this work. Due to the potential of ozone-based treatments for obtaining safe products with extended shelf life, several researchers have been focusing on this topic. A compilation of those works is presented in this review, with emphasis on the ozone impact on microbial inactivation and quality aspects of processed fruits and vegetables, and fruit juices as well. This review can be a helpful tool for finding process conditions of ozone-based treatments and subsequent impacts on quality and safety attributes of already studied products, opening further areas of research.
- Quality assessment of Cantaloupe melon juice under ozone processingPublication . Fundo, Joana F.; Miller, Fátima A.; Tremarin, Andréia; Garcia, Ester; Brandão, Teresa R.S.; Silva, Cristina L.M.Ozone treatment is a non-thermal technology with promising applications in food processing. The objective of this study was to evaluate the effect of gaseous ozone at a concentration of 7.0 ± 2.4 g/L for 30 and 60 min of exposure, on some physicochemical characteristics (soluble solids content, pH, titratable acidity and color), bioactive compounds (vitamin C, total phenolics and carotenoids) and total antioxidant activity of Cantaloupe melon juice. The effectiveness of the ozone treatments in microbial survival was also assessed using Alicyclobacillus acidoterrestris spores as target spoilers of the juice (artificially inoculated). Some quality parameters were significantly affected by ozone treatments. The most relevant alterations were observed for color, vitamin C, carotenoids and total antioxidant activity. However, total phenolics content increased significantly in ozonized juices. Even though A. acidoterrestris spores reduced 2.22 ± 0.04 log cycles after 60 min of exposure, other quality related characteristics of the juice were modified. Industrial relevance The actual consumers demand for high-quality food standards have launched research to alternative and milder non-thermal processes, which have gained increasing attention and importance in the fruit juice industries. Ideally, preservation and/or processing of foods should involve technologies that prevent undesirable microbial survival and minimize quality attributes changes and nutrient losses. Thermal treatments are conventionally used to attain such targets, however, the content and the biological activity of the most health-related compounds are dramatically reduced. In this context, and particularly for the beverages industries, ozone has been exploited due to their potential for inactivating spoilage and pathogenic microorganisms while being effective in overall quality retention of the products.
- Impact of ozonisation on quality parameters, nutritional aspects and inactivation of Listeria innocua in beansPublication . Alexandre, A. P .S.; Fundo, J.; Miller, F.; Calori-Domingues, M. A.; Silva, C. L. M.; Augusto, P. E. D.Beans are one of the most consumed legumes, due to their high content of proteins, complex carbohydrates, fibers, vitamins and also antioxidant substances, such as polyphenols. Antioxidants are substances that can slow down or inhibit oxidative damage by playing a role in preventing chronic diseases. However, the bean quality can be affected by microbial contamination or the methods used to avoid it. Ozone (O3) is a gas with high oxidizing potential, considered a “green chemical process” and recognized as GRAS (Generally Recognized As Safe). It can be used for microbial inactivation in different agricultural products, as well as for mycotoxins degradation in grains and derivate. However, it can also negatively impact the product quality due to oxidative processes. Consequently, the objective of this study was to evaluate the effect of processing beans with ozone on their phenolic compounds and antioxidant capacity, as well as their impact on the physical properties (water activity, color) and inactivation of Listeria innocua, as a target microorganism. Three different beans were evaluated: black, red and catarino beans with 10 and 40% moisture content. The samples were processed, in a reactor using a gas flow of 5 g/h with ozone concentration of37.06g/L, for up to 240min. The total phenolic content was evaluated through the method of Folin–Ciocalteu, while the antioxidant capacity was evaluated through the method of ABTS. The results demonstrates that it was possible to reduce 2.0Logcycles of Listeria innocua after 240 min of processing. The catarino bean was affected in the phenolic content when moistened. On the other hand, the ozone processing did not affected (p≤0.05) the total phenolic content, antioxidant capacity, and color of the beans. Therefore, the present study demonstrated that the ozonation can reduce the microbiology content in beans, without impact its nutritional quality.