Yazar "Lorenzo, Jose M." seçeneğine göre listele

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    A critical review on protein-based smart packaging systems: Understanding the development, characteristics, innovations, and potential applications
    (Taylor & Francis Inc, 2024) Echegaray, Noemi; Goksen, Gulden; Kumar, Manoj; Sharma, Rajan; Hassoun, Abdo; Lorenzo, Jose M.; Dar, B. N.
    The use of packaging in the food industry is essential to protect food and improve its shelf life. However, traditional packaging, based on petroleum derivatives, presents some problems because it is non-biodegradable and is obtained from nonrenewable sources. In contrast, protein-based smart packaging is presented as an environmentally friendly strategy that also permits obtaining packaging with excellent characteristics for the formation of smart films and coatings. This review aims to summarize recent developments in smart packaging, focusing on edible films/coatings materials, originating from animal and plant protein sources. Various characteristics like mechanical, barrier, functional, sensory, and sustainability of packaging systems are discussed, and the processes used for their development are also described. Moreover, relevant examples of the application of these smart packaging technologies in muscle foods and some innovations in this area are presented. Protein-based films and coatings from plant and animal origins have great potential to enhance food safety and quality, and reduce environmental issues (e.g., plastic pollution and food waste). Some characteristics of the packages can be improved by incorporating polysaccharides, lipids, and other components as antioxidants, antimicrobials, and nanoparticles in protein-based composites. Promising results have been shown in many muscle foods, such as meat, fish, and other seafood. These innovative smart packaging systems are characterized by their renewable and biodegradable nature, and sustainability, among other features that go beyond typical protection barriers (namely, active, functional, and intelligent features). Nonetheless, the utilization of protein-based responsive films and coatings at industrial level still need optimization to be technologically and economically valid and viable.
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    Antimicrobial activity of Oliveria decumbens vent. Essential oil and Ferula asa-foetida extract on Turkey breast meat
    (Springer, 2024) Sajadizadeh, Hosna; Zamindar, Nafiseh; Esmaeili, Yasaman; Lorenzo, Jose M.; Pateiro, Mirian; Goksen, Gulden; Paidari, Saeed
    Global poultry consumption continues growing. Marinating tenderizes foods and adds flavors before cooking. In this study, marinades containing Oliveria decumbens Vent. essential oil (EO) and Ferula assa-foetida extract were formulated to investigate their antimicrobial activity in turkey breast meat during storage. The marinade solution comprised water, lactic acid (0.5%), and NaCl (3%). The treatment consisted of immersing the meat for 2 h at 4 C-degrees in the marinade solution. The antimicrobial activity tests exhibited that the growth of Escherichia coli (0 log CFU/g), yeasts and molds (3.39 log CFU/g), lactic acid bacteria (LAB) (3.05 log CFU/g), and total aerobic psychrotrophs (5.23 log CFU/g) were inhibited by immersion of turkey breast meat in the marinade containing 900 ppm Oliveria decumbens Vent. EO. Sensory analysis of turkey breast meat showed immersion in the marinade containing 900 ppm Oliveria decumbens Vent. EO or 1400 ppm of Ferula assa-foetida extract produced an acceptable odor after cooking.
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    Development of Smart Foods for health by nanoencapsulation: Novel technologies and challenges
    (Elsevier, 2023) Singh, Akhilesh Kumar; Pal, Priti; Pandey, Brijesh; Goksen, Gulden; Sahoo, Uttam Kumar; Lorenzo, Jose M.; Sarangi, Prakash Kumar
    Importance of nanotechnology may be seen by penetration of its application in diverse areas including the food sector. With investigations and advancements in nanotechnology, based on feedback from these diverse areas, ease, and efficacy are also increasing. The food sector may use nanotechnology to encapsulate smart foods for increased health, wellness, illness prevention, and effective targeted delivery. Such nanoencapsulated targeted delivery systems may further add to the economic and nutritional properties of smart foods like stability, solubility, effectiveness, safeguard against disintegration, permeability, and bioavailability of smart/bioactive substances. But in the way of application, the fabrication of nanomaterials/nanostructures has several challenges which range from figuring out the optimal technique for obtaining them to determining the most suitable form of nanostructure for a bioactive molecule of interest. This review precisely addresses concepts, recent advances in fabrication techniques as well as current challenges/glitches of nanoencapsulation with special reference to smart foods/bioactive components. Since dealing with food materials also raises the quest for safety and regulatory norms a brief overview of the safety and regulatory aspects of nanomaterials/nanoencapsulation is also presented.
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    Nutritional value, phytochemistry, health benefits, and potential food applications of Pouteria campechiana (Kunth) Baehni: A comprehensive review
    (Elsevier, 2023) Do, Thi Van Thanh; Suhartini, Wildan; Phan, Chi Uyen; Zhang, Zhengwei; Goksen, Gulden; Lorenzo, Jose M.
    Today, people around the world put more time and effort into exploring healthy foods and herbal medicines for improving health and disease prevention. Foods are expected to render physiological benefits beyond their traditionally nutritional value. An immense number of food components with medicinal activities beside nu-trients have been found in various natural plants. Pouteria campechiana has been distributed throughout Central America, the Caribbean, some regions of Southeast Asia, and areas of Africa. Fruit of P. campechiana contains a broad spectrum of nutrients and plant bioactives. P. campechiana is utilized by local people as a useful medicinal resource for several therapeutic treatments. This paper provides a comprehensive review of P. campechiana from updated research literature. Botanical information, nutrient values, phytochemistry, as well as bioactivities are covered. The processes, proposals for product development, and toxicity of P. campechiana are also discussed.