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1. Recent advancements in cross-linked starches for food applications- a review

Author

Sneh Punia Bangar, K.V. Sunooj, Muhammed Navaf, Yuthana Phimolsiripol, and William Scott Whiteside

Subjects
Modifications, cross-linking, epichlorohydrin, STMP, STPP, pasting, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

ABSTRACTThe industrial food applications of native starches are limited due to their limited resistance to shear, susceptibility to thermal decomposition, and high tendency for retrogradation. Cross-linking of starches adds intra and inter-molecular bonds at various locations in the starch molecule that result in the stability of the granule and enhance functional attributes. This process involves the use of various cross-linking agents such as sodium trimetaphosphate (STMP), sodium tripolyphosphate (STPP), epichlorohydrin (EPI), phosphorus chloride (POCl3), and citric acid, etc., to introduce covalent or non-covalent linkages between starch molecules. Cross-linked starch exhibits improved resistance to retrogradation, enhanced freeze-thaw stability, and increased stability during cooking, shearing, and processing, such as high or low temperatures and pH. This review paper offers an overview of cross-linking modifications, emphasizing their importance in addressing native starch limitations. It underscores the significance of selecting appropriate cross-linking agents to customize starch properties for specific applications. Furthermore, the paper discusses the properties and applications of cross-linked starches and delves into regulatory considerations regarding their use. Regulatory consideration for cross-linked starches has also been discussed. Cross-linking modifications offer a promising avenue to unlock the full potential of starch and expand its utility across a wide range of applications.

Published
2024
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2. Influence of solid-state fermentation on the functional characteristics of pearl millet starch: An innovative and cost-efficient approach to modify starch

Author

Sukhvinder Singh Purewal, Anil Kumar Siroha, Raj Kumar Salar, Avneet Kaur, Ram Sarup Singh, John F. Kennedy, and Sneh Punia Bangar

Subjects
Starch, Fermentation, Amylose, Swelling, Solubility, Biochemistry, QD415-436
Abstract

The current investigation aimed to assess how the fermentation process impacts pearl millet starch. Two distinct fungi, Rhizopus azygosporus and Aspergillus sojae, were employed to alter the structure of starch granules. Fermentation led to the creation of pores on the surface of the starch granules. A comparative examination of the fungal strains revealed that Aspergillus sojae fermentation resulted in the highest number of pores in pearl millet starch when compared to Rhizopus azygosporus. The particle size of the starch granules experienced a significant reduction following fermentation. Moreover, noticeable changes were observed in the amylose content, swelling capacity, and solubility of pearl millet starch. An increase in both the amylose content and solubility of pearl millet starch was noted, with values shifting from 14.27 % to 15.96 % and 17.37 % to 20.41 %, respectively. Additionally, the starch extracted from fermented pearl millet displayed a significant decrease in swelling power, decreasing from 15.53 g/g to 13.15 g/g. These findings affirm that solid-state fermentation holds promise as an innovative and cost-effective method for starch modification.

Published
2024
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3. Unraveling the Hidden Potential of Barley (Hordeum vulgare): An Important Review

Author

Avneet Kaur, Sukhvinder Singh Purewal, Yuthana Phimolsiripol, and Sneh Punia Bangar

Subjects
barley, bioactive profile, food, nutritional composition, Botany, QK1-989
Abstract

Barley (Hordeum vulgare) is a winter crop well known for its small-seeded grains and self-pollinating characteristics. The flour derived from barley grains plays a crucial role in numerous processed food items, contributing to their taste and nutritional value. Barley consists of complex carbohydrates (80%), proteins (11.5–14.2%), lipids (4.7–6.8%), β-glucans (3.7–7.7%), and ash (1.8–2.4%). Beyond its other nutrients, barley boasts a good reservoir of phenolic compounds (1.2–2.9 mg/g GAE). This abundance of beneficial compounds positions barley as an attractive industrial substrate. In this review, the nutritional composition and bioactive profile of barley are discussed in a systemic manner, emphasizing its potential in the development of innovative barley-based products that promote health and well-being. By incorporating barley into various food formulations, industries can not only boost nutritional content but also offer consumers a wide range of health benefits. In conclusion, barley’s diverse applications in food and health highlight its essential role in promoting healthier living.

Published
2024
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4. Sugar palm (Arenga pinnata) fibers: new emerging natural fibre and its relevant properties, treatments and potential applications

Author

M. Imraan, R.A. Ilyas, A.S. Norfarhana, Sneh Punia Bangar, Victor Feizal Knight, and M.N.F. Norrrahim

Subjects
Sugar palm, Natural fibres, Cellulose, Nanocellulose, Composites materials, Application, Mining engineering. Metallurgy, TN1-997
Abstract

The key factors influencing the widespread acceptance of natural fibres as green materials are due to the quick depletion of petroleum resources and the growing awareness of environmental issues associated to the usage of conventional plastics. Due to their eco-friendly and sustainable, natural fibres have garnered the interest of scientists. Sugar palm (Arenga pinnata) tree is cultivated in tropical regions and is thought to hold promise as a source of natural fibres. The potential use of fibres derived from the sugar palm in a number of applications has been studied especially as composites materials. Investigations into these fibres on it potential uses have been conducted. Treatments of fibres is one of the important elements to increase the useability of this fibre. However, there is a problem regarding the inconsistent data reported by previous authors on experimental methods and the values of mechanical and physical properties. Therefore, it is now vital to organise data that would be helpful in the design of this fibre so that researchers may make wise choices regarding future study and application. Present review focuses on recent works related to properties of sugar palm fibers, fibers modification and their fabrication as green composites. The review also unveils the potential of sugar palm fibers and polymer for advanced industrial applications such as automotive, defense, packaging, and others. Many manufacturing sectors are focusing on using natural resources, particularly fiber-rich plants, for the production of polymer composites as a result of environmental protection, the use of renewable resources, and product biodegradability. This tendency has led to the substitution of plant fibers for synthetic fibers as reinforcement in polymer mixtures. Natural fibers are now prioritized in the composite industry due to economics and their superior properties, which have persuaded many industrial sectors to use synthetic fibers to reinforce plastics.

Published
2023
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5. Fenugreek (Trigonella foenum graecum) gum: A functional ingredient with promising properties and applications in food and pharmaceuticals—A review

Author

Sanju Bala Dhull, Pooja Bamal, Manoj Kumar, Sneh Punia Bangar, Prince Chawla, Ajay Singh, Waseem Mushtaq, Mudasir Ahmad, and Sunita Sihag

Subjects
fenugreek gum, functional properties, galactomannan, physicochemical properties, Plant culture, SB1-1110
Abstract

Abstract Fenugreek (Trigonella foenum graecum) is an annual plant belonging to the family Leguminosae or Fabaceae. The seeds of fenugreek contain 26.8% soluble fiber chemically identified as galactomannans with properties similar to soluble fiber of guar seeds and psyllium husk and so on. Galactomannans are biopolymers consisting of linear core poly (1,4)‐β‐D‐mannan backbone having varying degrees of D‐galactosyl substituents attached by 1,6‐glycosidic linkages. Different galactomannans derived from various legumes usually differ in molecular weight, ratio of mannose to galactose, and the mode and place of linkages of galactose moieties to the mannan backbone. Fenugreek gum has a galactose to mannose ratio of 1:1, showing the highest amount of galactose resulting in its highest water solubility compared with guar and locust bean gum. It suggested that the galactose and mannose moieties are linked uniformly in fenugreek gum resulting in maximum hydration and solubility. This M/G ratio affects the physicochemical properties of galactomannans and is inversely related to the solubility of gum. Galactomannans sterically stabilize the emulsions against flocculation and coalescence by getting adsorbed onto oil droplets. In addition to this, galactomannans are all found to exhibit some surface, interfacial, and emulsification activities. Because of these properties, it is preferred over other natural hydrocolloids as an excellent ingredient for various food applications. As a hydrocolloid, fenugreek gum provides texture, appeal, gelling, thickening, emulsifying, stabilizing, and encapsulating properties. In the present review, we summarized the extraction, purification, chemical, functional properties, molecular structure, thermal and rheological behavior of gum isolated from fenugreek seeds, and then vital application of this traditional source of hydrocolloids in food, pharmaceutical, and other industries.

Published
2023
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6. Digital transformation in the agri-food industry: recent applications and the role of the COVID-19 pandemic

Author

Abdo Hassoun, Hans J. P. Marvin, Yamine Bouzembrak, Francisco J. Barba, Juan Manuel Castagnini, Noelia Pallarés, Roshina Rabail, Rana Muhammad Aadil, Sneh Punia Bangar, Rajeev Bhat, Janna Cropotova, Sajid Maqsood, and Joe M. Regenstein

Subjects
artificial intelligence, automation, digitalization, Industry 4.0, robots, smart factory, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Providing food has become more complex because of climate change and other environmental and societal stressors, such as political instability, the growth in the world population, and outbreaks of new diseases, especially the COVID-19 pandemic. In response to these challenges, the agri-food industry has increased its efforts to shift to using more digital tools and other advanced technologies. The transition toward digital has been part of the fourth industrial revolution (called Industry 4.0) innovations that have and are reshaping most industries. This literature review discusses the potential of implementing digital technologies in the agri-food industry, focusing heavily on the role of the COVID-19 pandemic in fostering the adoption of greater digitalization of food supply chains. Examples of the use of these digital innovations for various food applications, and the barriers and challenges will be highlighted. The trend toward digital solutions has gained momentum since the advent of Industry 4.0 and implementations of these solutions have been accelerated by the outbreak of the COVID-19 pandemic. Important digital technology enablers that have high potential for mitigating the negative effects of both the current global health pandemic and the environmental crisis on food systems include artificial intelligence, big data, the Internet of Things, blockchain, smart sensors, robotics, digital twins, and virtual and augmented reality. However, much remains to be done to fully harness the power of Industry 4.0 technologies and achieve widespread implementation of digitalization in the agriculture and food industries.

Published
2023
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8. Avocado seed discoveries: Chemical composition, biological properties, and industrial food applications

Author

Sneh Punia Bangar, Kyle Dunno, Sanju Bala Dhull, Anil Kumar Siroha, Sushil Changan, Sajid Maqsood, and Alexandru Vasile Rusu

Subjects
Avocado seed, Bioactive compounds, Phytochemical, Health-promoting effects, Industrial application, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

The processing industry discards avocado seeds, which increases production and ultimately pollutes the environment. It would be advantageous to handle these waste by-products both economically and environmentally. Avocado seeds are rich in polysaccharides, proteins, lipids, vitamins, minerals, and other bioactive substances. The nutritional and phytochemical composition of avocado seeds has been well studied and discussed.Avocado-seed extracts also have many health-related bioactive properties, such as anti-hyperglycaemic, anticancer, anti-hypercholesterolemia, antioxidant, anti-inflammatory, and anti-neurogenerative effects are clearly demonstrated how these properties can be used to formulate or fortify food. The health-promoting properties of avocado seeds have been studied. These properties are attributed to various phytochemicals, such as acetogenin, catechin, epicatechin, procyanidin B1, estragole, etc. Additionally, items made from valorized avocado seeds that people can consume have been explored. The best applications of valorized by-products have been created for the pharmaceutical, functional food, and nutraceutical sectors while considering quality and safety. More clinical testing and product development research are required to prove the effectiveness of avocado seeds.

Published
2022
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9. Milk protein-based active edible packaging for food applications: An eco-friendly approach

Author

Vandana Chaudhary, Priyanka Kajla, Parveen Kumari, Sneh Punia Bangar, Alexandru Rusu, Monica Trif, and Jose M. Lorenzo

Subjects
active packaging, edible packaging, milk proteins, encapsulation, functional properties, Nutrition. Foods and food supply, TX341-641
Abstract

Whey and casein proteins, in particular, have shown considerable promise in replacing fossil-based plastics in a variety of food applications, such as for O2 susceptible foods, thereby, rendering milk proteins certainly one of the most quality-assured biopolymers in the packaging discipline. Properties like excellent gas barrier properties, proficiency to develop self-supporting films, adequate availability, and superb biodegradability have aroused great attention toward whey and other milk proteins in recent years. High thermal stability, non-toxicity, the ability to form strong inter cross-links, and micelle formation, all these attributes make it a suitable material for outstanding biodegradability. The unique structural and functional properties of milk proteins make them a suitable candidate for tailoring novel active package techniques for satisfying the needs of the food and nutraceutical industries. Milk proteins, especially whey proteins, serve as excellent carriers of various ingredients which are incorporated in films/coatings to strengthen barrier properties and enhance functional properties viz. antioxidant and antimicrobial. In this review, the latest techniques pertaining to the conceptualization of active package models/ systems using milk proteins have been discussed. Physical and other functional properties of milk protein-based active packaging systems are also reviewed. This review provides an overview of recent applications of milk protein-sourced active edible packages in the food packaging business.

Published
2022
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10. Evaluating the Effects of Wheat Cultivar and Extrusion Processing on Nutritional, Health-Promoting, and Antioxidant Properties of Flour

Author

Sneh Punia Bangar, Kawaljit Singh Sandhu, Alexandru Rusu, Monica Trif, and Sukhvinder Singh Purewal

Subjects
wheat, extrusion, total phenolics, antioxidants, redness intensity, Nutrition. Foods and food supply, TX341-641
Abstract

Wheat has been considered one of the most important staple foods for thousands of years. It is one of the largest suppliers of calories in the daily diet, which is added to many different products. Wheat is also a good source of health-benefiting antioxidants. This study aims toinvestigate the changes in the antioxidant properties, such as total phenol content, 2,2-diphenyl-1-picrylhydrazyl (DPPH), metal chelating activity, 2,2′-azino-bis (3-ethylbenz-thiazoline-6-sulfonic acid) diammonium salt (ABTS+) scavenging activity, and color intensity, during the extrusion processing of six different wheat cultivars. The extrusion factors evaluated were 15% feed moisture and two extrusion temperatures (150 and 180°C). Extrusion processing increased antioxidant activity (DPPH, metal chelating activity, and ABTS+ scavenging activity), whereas total flavonoids content and total phenolic content were decreased. The L* values of wheat flours increased significantly (p < 0.05) after extrusion at 150 and 180°C, 15% mc. Furthermore, redness was decreased from control wheat cultivars (range: 0.17–0.21) to extrusion at 150°C (range: 0.14–0.17) and 180°C (range: 0.1–0.14). The study suggests that extruded wheat could improve the antioxidant potential in food products.

Published
2022
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11. Bioactive Compounds from Leaf Vegetables as Preservatives

Author

Mirian Pateiro, Rubén Domínguez, Paulo E. S. Munekata, Gema Nieto, Sneh Punia Bangar, Kuldeep Dhama, and José M. Lorenzo

Subjects
polyphenolic compounds, anthocyanins, glucosinolates, nitrate sources, antioxidant, antimicrobial, Chemical technology, TP1-1185
Abstract

Trends toward a healthier diet are increasing attention to clean-label products. This has led to the search for new ingredients that avoid the use of chemical additives. Food industries are responding to these demands by incorporating natural preservatives into their products, which consumers perceive as healthy. Leafy vegetables would fit this strategy since they are common components of the diet and are associated with beneficial health effects. The objective of this chapter is to offer an overview of the large number of bioactive compounds (phenolic acids, flavonoids, anthocyanins, glucosinolates, and sulfur compounds) present in these plants, which would be responsible for their activity as potential preservatives. Its incorporation into food would improve the quality and extend the shelf life by reducing oxidative processes and inhibiting or retarding the microbial growth that occurs during processing and storage without reducing the organoleptic characteristics of the product.

Published
2023
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12. A comprehensive review on lotus seeds (Nelumbo nucifera Gaertn.): Nutritional composition, health-related bioactive properties, and industrial applications

Author

Sneh Punia Bangar, Kyle Dunno, Manoj Kumar, Hussein Mostafa, and Sajid Maqsood

Subjects
Lotus, Nutritional components, Health-promoting effects, Functional food ingredient, Nutrition. Foods and food supply, TX341-641
Abstract

Lotus is a member of a small family of Nelumbonaceae and is regarded as a sacred flower grown as a freshwater aquatic plant. All plant parts are utilized as food and medicine. Lotus seed (LS) is an important part of the lotus plant due to its nutritional and bioactive components. The presence of phenolic compounds imparts numerous bioactivities to the LS extracts. Nutritional composition is considered crucial for evaluating new ingredients for food applications. Hence, the review deals with the nutritional composition of the LS and bioactivities of LS extracts, viz., anti-cancer, anti-proliferation, anti-diabetic, anti-inflammatory, neuroprotective, antioxidant, and immunomodulatory action. LS also possesses a significant amount of industrially important components which are beneficial for the formulation of food products. The overall profile of the lotus seed makes them potential nutraceutical and bioactive food ingredients. Utilizing this low-cost horticultural waste for producing value-added products is a novel step in its sustainable utilization. The article aimed to comprehensively collate some of the vital information published on lotus seeds incurred in the agri-food sector and critically discussing the potentiality of tapping bioactive compounds from lotus seeds considered as wastes and/or by-products in the entire agriculture-based food sector.

Published
2022
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13. Enrichment in Different Health Components of Barley Flour Using Twin-Screw Extrusion Technology to Support Nutritionally Balanced Diets

Author

Sneh Punia Bangar, Kawaljit Singh Sandhu, Monica Trif, Alexandru Rusu, Ioana Delia Pop, and Manoj Kumar

Subjects
barley, extrusion, resistant starch, phenolic, antioxidants, Nutrition. Foods and food supply, TX341-641
Abstract

Due to its good dietary role, barley has attracted a growing amount of interest for the manufacture of functional foods in recent years. In barley, a number of bioactive components, including as phenolic compounds, have been discovered, and barley extrudates could be used to formulate various processed foods, including ready-to-eat cereals, baby, and pet foods and support nutritionally balanced diets. This study was conducted to investigate the effect of extrusion processing on resistant starch (RS), glycemic index (GI), and antioxidant compounds of barley flour. The L* and ΔE values of barley flours decreased significantly (p < 0.05) after extrusion is done at 150 and 180°C. The a* and b* values, however, increased after extrusion. Extrusion increased antioxidant activity (AOA), metal chelating activity (MCA), and ABTS+ scavenging activity, whereas total phenolic content (TPC) and total flavonoids content (TFC) decreased. Barley extrudates at 150 and 180°C showed decreased TPC by 16.4–34.2% and 23.4–38.1%. Moreover, improved RS and reduced GI values were recorded for barley extrudates as compared to barley non-extrudates. Therefore, extrusion of barley could be an alternative to produce pregelatinized barley flour with improved RS low GI values and improved antioxidant potential.

Published
2022
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14. Litchi (Litchi chinensis) seed starch: Structure, properties, and applications - A review

Author

Sneh Punia Bangar, Manoj Kumar, William Scott Whiteside, Maharishi Tomar, and John F. Kennedy

Subjects
Litchi seed starch, Techno-functional properties, Industrial application, Biochemistry, QD415-436
Abstract

Litchi (Litchi chinensis) seeds are discerned as the primary waste by-products produced after processing of litchi fruit into beverages, jellies, wine, and squash. These seeds are a rich source of complex polysaccharides, out of with 40% are constituted by starch. This starch exhibits certain unique functional and structural properties which are ascribed to its low amylose and high amylopectin content. These distinct functional food properties include (swelling power, water holding capacity, solubility) and micromeritic properties (Hausner's ratio, Carr's index, and angle of repose). These properties ascertain their application both in food (thickener, edible packaging, functional ingredient) and non-food (excipient in pharmaceutical products, targeted drug delivery) products. Utilization of starch from litchi seed can improve the economic feasibility of litchi processing industry and also help in preventing the waste accumulation and environmental pollution. This review article explores the litchi seed starch isolation, its structure, functional properties and diversified novel applications.

Published
2021
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15. Effects of Cross-Linking on Physicochemical and Film Properties of Lotus (Nelumbo nucifera G.) Seed Starch

Author

Ankita Chandak, Sanju Bala Dhull, Sneh Punia Bangar, and Alexandru Vasile Rusu

Subjects
lotus seed starch, cross-linking, edible film, properties, Chemical technology, TP1-1185
Abstract

Lotus seed starch was cross-linked using sodium trimetaphosphate (STMP) in varying amounts (1, 3, and 5%), and its rheological, pasting, thermal, and physicochemical properties were investigated. These cross-linked lotus seed starches (CL-LS-1, CL-LS-3, CL-LS-5) were also used to produce films (CL-LSFs), which were then examined for their mechanical characteristics, water vapor permeability, moisture content, opacity, thickness, and water solubility. After cross-linking, the solubility, amylose content, and swelling power of all the starch samples decreased. Cross-linking resulted in an increased pasting temperature, while peak viscosity (PV) decreased, with CL-LS-5 exhibiting the lowest peak viscosity (1640.22 MPa·s). In comparison to native starch, the thermal characteristics of CL-LS demonstrated greater gelatinization temperatures (To, Tp, Tc) and gelatinization enthalpy (ΔHgel). The gelatinization enthalpy of CL-LS varied between 152.70 and 214.16 J/g, while for native LS the value was 177.91 J/g. Lower moisture content, water solubility, and water vapor permeability were observed in the CL-LSFs. However, the cross-linking modification did not produce much effect on the film thickness. The highest tensile strength (12.52 MPa) and lowest elongation at break (26.11%) were found in CL-LSF-5. Thus, the starch films’ barrier and mechanical qualities were enhanced by cross-linking.

Published
2022
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16. Lactic Acid Bacteria (LAB): Autochthonous and Probiotic Microbes for Meat Preservation and Fortification

Author

Dibyajit Lahiri, Moupriya Nag, Tanmay Sarkar, Rina Rani Ray, Mohammad Ali Shariati, Maksim Rebezov, Sneh Punia Bangar, José M. Lorenzo, and Rubén Domínguez

Subjects
food safety, food fortification, food microbiology, shelf-life, antimicrobial metabolites, Chemical technology, TP1-1185
Abstract

The enhanced concern of the consumers regarding the safety, quality of the food products, and avoidance of the use of chemical food preservatives has resulted in a breakthrough in biopreservation. This has resulted in the use of beneficial microbial species, including bacteria and their secondary metabolites, to enhance the shelf-life and quality of the food products. Meat preservation and fortification are among the biggest concerns, as they are relevant to the majority of food products. The chemical preservatives conventionally used in preserving meat and meat products possess several detrimental effects on the consumers. Thus, alternative strategies are needed to combat strategically in facilitating the shelf-life and quality. Lactic acid bacteria (LAB) are considered the safest organism and have a profound role in food and food-processing industries. The biofilm developed by the bacteria prevents the growth of various undesirable microorganisms on meat and meat products. Various studies depicted that LAB produces various antimicrobial metabolites that can act effectively on the food-degrading pathogens, rendering it safe and enhancing shelf-life. This review, thus, deals with the use of LAB as biopreservatives for enhancing the shelf-life of meat and meat products and helping its fortification.

Published
2022
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17. Octenyl Succinic Anhydride Modified Pearl Millet Starches: An Approach for Development of Films/Coatings

Author

Anil Kumar Siroha, Sneh Punia Bangar, Kawaljit Singh Sandhu, Jose Manuel Lorenzo, and Monica Trif

Subjects
starch, OSA, pearl millet, film, coatings, rheology, Organic chemistry, QD241-441
Abstract

Pearl millet starches were modified at pH 8.0 using 3.0% octenyl succinic anhydride (OSA), and their pasting, rheological properties, and in vitro digestibility were analyzed. The degree of substitution (D.C.) of OSA-modified starches varied from 0.010 to 0.025. The amylose content decreased after modification, while the reverse was observed for swelling power. After OSA modification, the pasting viscosities (peak, trough, setback (cP)) of the modified starches increased compared to their native counterparts. G′ (storage modulus) and G″ (loss modulus) decreased significantly (p < 0.05) compared to their native counterparts during heating. Yield stress (σo), consistency (K), and flow behavior index (n) varied from 9.8 to 87.2 Pa, 30.4 to 91.0 Pa.s., and 0.25 to 0.47, respectively. For starch pastes, steady shear properties showed n < 1, indicating shear-thinning and pseudoplastic behavior. The readily digestible starch (RDS) and slowly digestible starch (SDS) contents decreased, while the resistant starch (R.S.) content increased. After OSA treatment, the solubility power of the starches increased; this property of OSA starches speeds up the biodegradability process for the films, and it helps to maintain a healthy environment.

Published
2022
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18. Natural Sources and Pharmacological Properties of Pinosylvin

Author

Saad Bakrim, Hamza Machate, Taoufiq Benali, Nargis Sahib, Imane Jaouadi, Nasreddine El Omari, Sara Aboulaghras, Sneh Punia Bangar, José Manuel Lorenzo, Gokhan Zengin, Domenico Montesano, Monica Gallo, and Abdelhakim Bouyahya

Subjects
pinosylvin, pharmacological property, signaling pathway, antimicrobial, cancer, Botany, QK1-989
Abstract

Pinosylvin (3,5-dihydroxy-trans-stilbene), a natural pre-infectious stilbenoid toxin, is a terpenoid polyphenol compound principally found in the Vitaceae family in the heartwood of Pinus spp. (e.g., Pinus sylvestris) and in pine leaf (Pinus densiflora). It provides defense mechanisms against pathogens and insects for many plants. Stilbenoids are mostly found in berries and fruits but can also be found in other types of plants, such as mosses and ferns. This review outlined prior research on pinosylvin, including its sources, the technologies used for its extraction, purification, identification, and characterization, its biological and pharmacological properties, and its toxicity. The collected data on pinosylvin was managed using different scientific research databases such as PubMed, SciFinder, SpringerLink, ScienceDirect, Wiley Online, Google Scholar, Web of Science, and Scopus. In this study, the findings focused on pinosylvin to understand its pharmacological and biological activities as well as its chemical characterization to explore its potential therapeutic approaches for the development of novel drugs. This analysis demonstrated that pinosylvin has beneficial effects for various therapeutic purposes such as antifungal, antibacterial, anticancer, anti-inflammatory, antioxidant, neuroprotective, anti-allergic, and other biological functions. It has shown numerous and diverse actions through its ability to block, interfere, and/or stimulate the major cellular targets responsible for several disorders.

Published
2022
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19. Natural Sources, Pharmacological Properties, and Health Benefits of Daucosterol: Versatility of Actions

Author

Nasreddine El Omari, Imane Jaouadi, Manal Lahyaoui, Taoufiq Benali, Douae Taha, Saad Bakrim, Naoual El Menyiy, Fatima El Kamari, Gökhan Zengin, Sneh Punia Bangar, José M. Lorenzo, Monica Gallo, Domenico Montesano, and Abdelhakim Bouyahya

Subjects
daucosterol, anticancer, pharmacodynamic, signaling pathways, therapeutic effects, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Daucosterol is a saponin present in various natural sources, including medicinal plant families. This secondary metabolite is produced at different contents depending on species, extraction techniques, and plant parts used. Currently, daucosterol has been tested and explored for its various biological activities. The results reveal potential pharmacological properties such as antioxidant, antidiabetic, hypolipidemic, anti-inflammatory, immunomodulatory, neuroprotective, and anticancer. Indeed, daucosterol possesses important anticancer effects in many signaling pathways, such as an increase in pro-apoptotic proteins Bax and Bcl2, a decrease in the Bcl-2/Bax ratio, upregulation of the phosphatase and tensin homolog (PTEN) gene, inhibition of the PI3K/Akt pathway, and distortion of cell-cycle progression and tumor cell evolution. Its neuroprotective effect is via decreased caspase-3 activation in neurons and during simulated reperfusion (OGD/R), increased IGF1 protein expression (decreasing the downregulation of p-AKT3 and p-GSK-3b4), and activation of the AKT5 signaling pathway. At the same time, daucosterol inhibits key glucose metabolism enzymes to keep blood sugar levels within normal ranges. Therefore, this review describes the principal research on the pharmacological activities of daucosterol and the mechanisms of action underlying some of these effects. Moreover, further investigation of pharmacodynamics, pharmacokinetics, and toxicology are suggested.

Published
2022
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20. Application of Electrolyzed Water in the Food Industry: A Review

Author

Maksim Rebezov, Kanza Saeed, Adnan Khaliq, Syed Junaid Ur Rahman, Nimra Sameed, Anastasia Semenova, Mars Khayrullin, Andrey Dydykin, Yury Abramov, Muthu Thiruvengadam, Mohammad Ali Shariati, Sneh Punia Bangar, and Jose M. Lorenzo

Subjects
electrolyzed water, decontamination, fruits and vegetables, fish and seafood, meat and poultry, food industries, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Electrolyzed water is a novel disinfectant and cleaner that has been widely utilized in the food sector for several years to ensure that surfaces are sterilized, and that food is safe. It is produced by the electrolysis of a dilute salt solution, and the reaction products include sodium hydroxide (NaOH) and hypochlorous acid. In comparison to conventional cleaning agents, electrolyzed water is economical and eco-friendly, easy to use, and strongly effective. Electrolyzed water is also used in its acidic form, but it is non-corrosive to the human epithelium and other organic matter. The electrolyzed water can be utilized in a diverse range of foods; thus, it is an appropriate choice for synergistic microbial control in the food industry to ensure food safety and quality without damaging the organoleptic parameters of the food. The present review article highlights the latest information on the factors responsible for food spoilage and the antimicrobial potential of electrolyzed water in fresh or processed plant and animal products.

Published
2022
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21. Effect on the Properties of Edible Starch-Based Films by the Incorporation of Additives: A Review

Author

Gurvendra Pal Singh, Sneh Punia Bangar, Tianxi Yang, Monica Trif, Vinod Kumar, and Dinesh Kumar

Subjects
starch, edible films, additives, active packaging, Organic chemistry, QD241-441
Abstract

At present, people more actively pursuing biodegradable-based food packaging to lower the environmental problems of plastic-based packaging. Starch could become a promising alternative to plastic because of its properties (easily available, nontoxic, tasteless, biodegradable, ecofriendly, and edible). This review article is focused mainly on the impact of the properties of starch-based biodegradable films, such as their thickness, morphology, and optical, water-barrier, mechanical, oxygen-barrier, antioxidant, and antimicrobial properties, after the incorporation of additives, and how such films fulfill the demands of the manufacturing of biodegradable and edible food-based film with preferable performance. The incorporation of additives in starch-based films is largely explained by its functioning as a filler, as shown via a reduction in water and oxygen permeability, increased thickness, and better mechanical properties. Additives also showed antimicrobial and antioxidant properties in the films/coatings, which would positively impact the shelf life of coated or wrapped food material.

Published
2022
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22. The Impacts of Lactiplantibacillus plantarum on the Functional Properties of Fermented Foods: A Review of Current Knowledge

Author

Birsen Yilmaz, Sneh Punia Bangar, Noemi Echegaray, Shweta Suri, Igor Tomasevic, Jose Manuel Lorenzo, Ebru Melekoglu, João Miguel Rocha, and Fatih Ozogul

Subjects
Lactiplantibacillus plantarum, lactic acid bacteria, fermented food, food industry, safety aspects, Biology (General), QH301-705.5
Abstract

One of the most varied species of lactic acid bacteria is Lactiplantibacillus plantarum (Lb. plantarum), formerly known as Lactobacillus plantarum. It is one of the most common species of bacteria found in foods, probiotics, dairy products, and beverages. Studies related to genomic mapping and gene locations of Lb. plantarum have shown the novel findings of its new strains along with their non-pathogenic or non-antibiotic resistance genes. Safe strains obtained with new technologies are a pioneer in the development of new probiotics and starter cultures for the food industry. However, the safety of Lb. plantarum strains and their bacteriocins should also be confirmed with in vivo studies before being employed as food additives. Many of the Lb. plantarum strains and their bacteriocins are generally safe in terms of antibiotic resistance genes. Thus, they provide a great opportunity for improving the nutritional composition, shelf life, antioxidant activity, flavour properties and antimicrobial activities in the food industry. Moreover, since some Lb. plantarum strains have the ability to reduce undesirable compounds such as aflatoxins, they have potential use in maintaining food safety and preventing food spoilage. This review emphasizes the impacts of Lb. plantarum strains on fermented foods, along with novel approaches to their genomic mapping and safety aspects.

Published
2022
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23. Recent Advancements in Smart Biogenic Packaging: Reshaping the Future of the Food Packaging Industry

Author

Vandana Chaudhary, Sneh Punia Bangar, Neha Thakur, and Monica Trif

Subjects
biogenic, smart packaging, biodegradable, material, food, Organic chemistry, QD241-441
Abstract

Due to their complete non-biodegradability, current food packages have resulted in major environmental issues. Today’s smart consumer is looking for alternatives that are environmentally friendly, durable, recyclable, and naturally rather than synthetically derived. It is a well-established fact that complete replacement with environmentally friendly packaging materials is unattainable, and bio-based plastics should be the future of the food packaging industry. Natural biopolymers and nanotechnological interventions allow the creation of new, high-performance, light-weight, and environmentally friendly composite materials, which can replace non-biodegradable plastic packaging materials. This review summarizes the recent advancements in smart biogenic packaging, focusing on the shift from conventional to natural packaging, properties of various biogenic packaging materials, and the amalgamation of technologies, such as nanotechnology and encapsulation; to develop active and intelligent biogenic systems, such as the use of biosensors in food packaging. Lastly, challenges and opportunities in biogenic packaging are described, for their application in sustainable food packing systems.

Published
2022
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24. Natural-Fiber-Reinforced Chitosan, Chitosan Blends and Their Nanocomposites for Various Advanced Applications

Author

Rushdan Ahmad Ilyas, Humaira Alias Aisyah, Abu Hassan Nordin, Norzita Ngadi, Mohamed Yusoff Mohd Zuhri, Muhammad Rizal Muhammad Asyraf, Salit Mohd Sapuan, Edi Syams Zainudin, Shubham Sharma, Hairul Abral, Mochamad Asrofi, Edi Syafri, Nasmi Herlina Sari, Mazlan Rafidah, Sharifah Zarina Syed Zakaria, Muhammad Rizal Razman, Nuriah Abd Majid, Zuliskandar Ramli, Ashraf Azmi, Sneh Punia Bangar, and Rushdan Ibrahim

Subjects
natural fiber, chitosan, chitosan blends, chitosan nanocomposites, cellulose, nanocellulose, Organic chemistry, QD241-441
Abstract

There has been much effort to provide eco-friendly and biodegradable materials for the next generation of composite products owing to global environmental concerns and increased awareness of renewable green resources. This review article uniquely highlights the use of green composites from natural fiber, particularly with regard to the development and characterization of chitosan, natural-fiber-reinforced chitosan biopolymer, chitosan blends, and chitosan nanocomposites. Natural fiber composites have a number of advantages such as durability, low cost, low weight, high specific strength, non-abrasiveness, equitably good mechanical properties, environmental friendliness, and biodegradability. Findings revealed that chitosan is a natural fiber that falls to the animal fiber category. As it has a biomaterial form, chitosan can be presented as hydrogels, sponges, film, and porous membrane. There are different processing methods in the preparation of chitosan composites such as solution and solvent casting, dipping and spray coating, freeze casting and drying, layer-by-layer preparation, and extrusion. It was also reported that the developed chitosan-based composites possess high thermal stability, as well as good chemical and physical properties. In these regards, chitosan-based “green” composites have wide applicability and potential in the industry of biomedicine, cosmetology, papermaking, wastewater treatment, agriculture, and pharmaceuticals.

Published
2022
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25. Natural Fiber-Reinforced Polycaprolactone Green and Hybrid Biocomposites for Various Advanced Applications

Author

R. A. Ilyas, M. Y. M. Zuhri, Mohd Nor Faiz Norrrahim, Muhammad Syukri Mohamad Misenan, Mohd Azwan Jenol, Sani Amril Samsudin, N. M. Nurazzi, M. R. M. Asyraf, A. B. M. Supian, Sneh Punia Bangar, R. Nadlene, Shubham Sharma, and Abdoulhdi A. Borhana Omran

Subjects
polycaprolactone, green biocomposites, hybrid biocomposites, mechanical properties, thermal properties, Organic chemistry, QD241-441
Abstract

Recent developments within the topic of biomaterials has taken hold of researchers due to the mounting concern of current environmental pollution as well as scarcity resources. Amongst all compatible biomaterials, polycaprolactone (PCL) is deemed to be a great potential biomaterial, especially to the tissue engineering sector, due to its advantages, including its biocompatibility and low bioactivity exhibition. The commercialization of PCL is deemed as infant technology despite of all its advantages. This contributed to the disadvantages of PCL, including expensive, toxic, and complex. Therefore, the shift towards the utilization of PCL as an alternative biomaterial in the development of biocomposites has been exponentially increased in recent years. PCL-based biocomposites are unique and versatile technology equipped with several importance features. In addition, the understanding on the properties of PCL and its blend is vital as it is influenced by the application of biocomposites. The superior characteristics of PCL-based green and hybrid biocomposites has expanded their applications, such as in the biomedical field, as well as in tissue engineering and medical implants. Thus, this review is aimed to critically discuss the characteristics of PCL-based biocomposites, which cover each mechanical and thermal properties and their importance towards several applications. The emergence of nanomaterials as reinforcement agent in PCL-based biocomposites was also a tackled issue within this review. On the whole, recent developments of PCL as a potential biomaterial in recent applications is reviewed.

Published
2022
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26. Applications of Inorganic Nanoparticles in Food Packaging: A Comprehensive Review

Author

Kshirod Kumar Dash, Pinky Deka, Sneh Punia Bangar, Vandana Chaudhary, Monica Trif, and Alexandru Rusu

Subjects
nanocomposite, food packaging, metal oxides, gold nanoparticles, copper nanoparticles, zinc nanoparticles, Organic chemistry, QD241-441
Abstract

Nanoparticles (NPs) have acquired significance in technological breakthroughs due to their unique properties, such as size, shape, chemical composition, physiochemical stability, crystal structure, and larger surface area. There is a huge demand for packaging materials that can keep food fresher for extended periods of time. The incorporation of nanoscale fillers in the polymer matrix would assists in the alleviation of packaging material challenges while also improving functional qualities. Increased barrier properties, thermal properties like melting point and glass transition temperatures, and changed functionalities like surface wettability and hydrophobicity are all features of these polymers containing nanocomposites. Inorganic nanoparticles also have the potential to reduce the growth of bacteria within the packaging. By incorporating nano-sized components into biopolymer-based packaging materials, waste material generated during the packaging process may be reduced. The different inorganic nanoparticles such as titanium oxide, zinc oxide, copper oxide, silver, and gold are the most preferred inorganic nanoparticles used in food packaging. Food systems can benefit from using these packaging materials and improve physicochemical and functional properties. The compatibility of inorganic nanoparticles and their various forms with different polymers make them excellent components for package fortification. This review article describes the various aspects of developing and applying inorganic nanoparticles in food packaging. This study provides diverse uses of metals and metal oxides nanoparticles in food packaging films for the development of improved packaging films that can extend the shelf life of food products. These packaging solutions containing nanoparticles would effectively preserve, protect, and maintain the quality of the food material.

Published
2022
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27. Development and Characterization of Active Native and Cross-Linked Pearl Millet Starch-Based Film Loaded with Fenugreek Oil

Author

Sanju Bala Dhull, Sneh Punia Bangar, Ranjan Deswal, Preeti Dhandhi, Manish Kumar, Monica Trif, and Alexandru Rusu

Subjects
pearl millet starch, fenugreek oil, biocomposite films, properties, Chemical technology, TP1-1185
Abstract

In this study, cross-linked pearl millet starch and fenugreek oil was used to develop active starch edible films to overcome the limitations of native starch and to substitute artificial preservatives with natural one. The starch was cross-linked at three levels (1%, 3% and 5%) using sodium trimetaphosphate (STMP), and physicochemical properties were studied. Moreover, a comparative study was conducted among four samples of films prepared using native starch, cross-linked starch, and native and cross-linked starch loaded with fenugreek oil for physical, thermal, mechanical, morphological, and antibacterial properties. The solubility, swelling, and amylose content of native and modified starch varied from 11.25–12.75%, 12.91–15.10 g/g, and 8.97–16.55%, respectively. The values of these parameters were reduced as the concentration of STMP increased. Cross-linked starch films showed lower moisture, solubility, water vapor permeability(WVP), and elongation at break (EB) values while having higher thickness, opacity, thermal, and tensile strength values. The microscopic images of cross-linked starch films showed smooth surfaces and the absence of ridges, pores, and cracks. The films loaded with fenugreek oil showed different results; the moisture content, water solubility, and tensile strength were decreased while thickness, opacity, WVP, and EB were increased. The onset temperature and peak temperature were lower, while enthalpy of gelatinization was increased to a greater extent than films without oil. The addition of fenugreek oil to films showed a good inhibition area of 40.22% for native+oil films and 41.53% for cross-linked+oil films % against Escherichia coli. This study confirmed the successful utilization of fenugreek oil as a very effective antimicrobial agent in preparing edible films.

Published
2021
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28. Garlic (Allium sativum L.) Bioactives and Its Role in Alleviating Oral Pathologies

Author

Minnu Sasi, Sandeep Kumar, Manoj Kumar, Sandhya Thapa, Uma Prajapati, Yamini Tak, Sushil Changan, Vivek Saurabh, Shweta Kumari, Ashok Kumar, Muzaffar Hasan, Deepak Chandran, Radha, Sneh Punia Bangar, Sangram Dhumal, Marisennayya Senapathy, Anitha Thiyagarajan, Ahmad Alhariri, Abhijit Dey, Surinder Singh, Suraj Prakash, Ravi Pandiselvam, and Mohamed Mekhemar

Subjects
phytochemicals, garlic, bioactivities, antioxidant, oral care, oral health, Therapeutics. Pharmacology, RM1-950
Abstract

Garlic (Allium sativa L.) is a bulbous flowering plant belongs to the family of Amaryllidaceae and is a predominant horticultural crop originating from central Asia. Garlic and its products are chiefly used for culinary and therapeutic purposes in many countries. Bulbs of raw garlic have been investigated for their role in oral health, which are ascribed to a myriad of biologically active compounds such as alliin, allicin, methiin, S-allylcysteine (SAC), diallyl sulfide (DAS), S-ally-mercapto cysteine (SAMC), diallyl disulphide (DADS), diallyl trisulfide (DATS) and methyl allyl disulphide. A systematic review was conducted following the PRISMA statement. Scopus, PubMed, Clinicaltrials.gov, and Science direct databases were searched between 12 April 2021 to 4 September 2021. A total of 148 studies were included and the qualitative synthesis phytochemical profile of GE, biological activities, therapeutic applications of garlic extract (GE) in oral health care system, and its mechanism of action in curing various oral pathologies have been discussed. Furthermore, the safety of incorporation of GE as food supplements is also critically discussed. To conclude, GE could conceivably make a treatment recourse for patients suffering from diverse oral diseases.

Published
2021
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29. Documentation of Commonly Used Ethnoveterinary Medicines from Wild Plants of the High Mountains in Shimla District, Himachal Pradesh, India

Author

Pramod Prakash, Radha, Manoj Kumar, Ashok Pundir, Sunil Puri, Suraj Prakash, Neeraj Kumari, Mamta Thakur, Sonia Rathour, Radhika Jamwal, Salena Janjua, Mansoor Ali, Sneh Punia Bangar, Chhatarpal Singh, Deepak Chandran, Sureshkumar Rajalingam, Marisennayya Senapathy, Sangram Dhumal, Surinder Singh, Mahesh Kumar Samota, Rahul D. Damale, Sushil Changan, Suman Natta, Mohamd Alblihed, Attalla F. El-kott, and Mohamed M. Abdel-Daim

Subjects
therapeutic uses, ethnoveterinary plants, rural people, livestock, Plant culture, SB1-1110
Abstract

The aim of current study is to provide a significant traditional knowledge on wild medicines used for ethnoveterinary purposes in the rural area of Maraog region in district Shimla. The medicinal plants have played a significant role in the treatment of human as well as animal’s diseases. The rural people of the Maraog region were interviewed through a questionnaire and extensive field surveys were conducted from June 2020 to July 2021. The discussion, observations and interviews were conducted in study site and included 96 informants. The information gathered from the residents is presented in a table format and includes scientific and local names, different parts used, diseases treated and mode administration. The most commonly used taxa are calculated with used value. The study revealed 100 plants in which trees (7), shrubs (26), herbs (56), ferns (5), grasses (3) and climbers (3) were identified. The most commonly documented livestock diseases were found to be hoof infections, eyes infections, poisoning and skin infections. In the current study, the Rosaceae family was reported as being the highest number (11), followed by Asteraceae (10) and then Lamiaceae (6). It was found that leaves, roots, flowers and fruits are the commonly used parts for ethnoveterinary medications. The phytochemicals present in the plant, such as alkaloids, sterols, glycosides, flavonoids, lignin, coumarins and terpenoids, etc., may be responsible for their medicinal properties. In this documentation, it was observed that the younger generation does not have good knowledge of medicinal plants as compared to the older ones. Therefore, it is necessary to preserve the traditional knowledge of these medicinal plants before their permanent loss. The documentation and conservation of medicinal plants can be a good start for novel phytopharmacological research in the veterinary field.

Published
2021
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30. Functionality and Applicability of Starch-Based Films: An Eco-Friendly Approach

Author

Sneh Punia Bangar, Sukhvinder Singh Purewal, Monica Trif, Sajid Maqsood, Manoj Kumar, Vishal Manjunatha, and Alexandru Vasile Rusu

Subjects
starch, films, properties, mechanical, barrier, applications, Chemical technology, TP1-1185
Abstract

The accumulation of high amounts of petro-based plastics is a growing environmental devastation issue, leading to the urgent need to innovate eco-safe packaging materials at an equivalent cost to save the environment. Among different substitutes, starch-based types and their blends with biopolymers are considered an innovative and smart material alternative for petrol-based polymers because of their abundance, low cost, biodegradability, high biocompatibility, and better-quality film-forming and improved mechanical characteristics. Furthermore, starch is a valuable, sustainable food packaging material. The rising and growing importance of designing starch-based films from various sources for sustainable food packaging purposes is ongoing research. Research on “starch food packaging” is still at the beginning, based on the few studies published in the last decade in Web of Science. Additionally, the functionality of starch-based biodegradable substances is technically a challenge. It can be improved by starch modification, blending starch with other biopolymers or additives, and using novel preparation techniques. Starch-based films have been applied to packaging various foods, such as fruits and vegetables, bakery goods, and meat, indicating good prospects for commercial utilization. The current review will give a critical snapshot of starch-based films’ properties and potential applicability in the sustainable smart (active and intelligent) new packaging concepts and discuss new challenges and opportunities for starch bio composites.

Published
2021
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31. Natural Antimicrobials as Additives for Edible Food Packaging Applications: A Review

Author

Sneh Punia Bangar, Vandana Chaudhary, Neha Thakur, Priyanka Kajla, Manoj Kumar, and Monica Trif

Subjects
natural antimicrobial additives, edible films, essential oils, bacteriocins, bacteriophages, casting methods, Chemical technology, TP1-1185
Abstract

Edible packaging is a swiftly emerging art of science in which edible biopolymers like lipids, polysaccharides, proteins, resins, etc., and other consumable constituents extracted from various non-conventional sources are used alone or imbibed together. Edible packaging with antimicrobial components had led to the development of the hypothesis of active packaging which safeguards the quality of foods as well as health of consumers. Natural antimicrobial agents (NAMAs) like essential oils from spices, bioactive compounds derived from vegetables and fruits, animal and microorganism derived compounds having antimicrobial properties can be potentially used in edible films as superior replcement for synthetic compounds, thus serving the purpose of quality and heath. Most of the natural antimicrobial agents enjoy GRAS status and are safer than their synthetic counterparts. This review focuses on updated literature on the sources, properties and potential applications of NAMAs in the food industry. This review also analyzes the biodegradability and biocompatibility and edibility properties of NAMAs enriched films and it can be concluded that NAMAs are better substitutes but affect the organoleptic as well as the mechanical properties of the films. Despite many advantages, the inclusion of NAMAs into the films needs to be investigated more to quantify the inhibitory concentration without affecting the properties of films and exerting potential antimicrobial action to ensure food safety.

Published
2021
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32. Therapeutic Uses of Wild Plants by Rural Inhabitants of Maraog Region in District Shimla, Himachal Pradesh, India

Author

Pramod Prakash, Radha, Manoj Kumar, Neeraj Kumari, Suraj Prakash, Sonia Rathour, Mamta Thakur, Radhika Jamwal, Salena Janjua, Mansoor Ali, Ashok Pundir, Sunil Puri, Sangram Dhumal, Surinder Singh, Marisennayya Senapathy, Sneh Punia Bangar, Vineet Kumar Maurya, Sushil Changan, Jagan Singh Gora, Mahesh Kumar Samota, Rahul D. Damale, Minnu Sasi, Suman Natta, Deepak Chandran, Sureshkumar Rajalingam, Nadeem Rais, and Mohamed Mekhemar

Subjects
medicinal plants, traditional knowledge, use value, rural inhabitants, Plant culture, SB1-1110
Abstract

The main aim of this study is to document important ethnomedicinal plants from the Maraog region, located in the district of Shimla in Himachal Pradesh, India. A total of 110 medicinal plant species belonging to 102 genera and 57 families were reported from the study site. All of the species were collected from wild habitats. The rural people of the Maraog region were surveyed through interview methods, group discussions, and participatory observations. In the current study, data were collected from 88 informants through the snowball method. A total of 110 plant species were collected from the study area, including 64 herbs, 24 shrubs, 9 trees, 5 climbers, 3 grasses, and 5 ferns. Most of the plant species, reported from the study area, belong to the Rosaceae and Asteraceae families, each contributing 12 plant species, followed by the Lamiaceae family with 6 plant species. The most used part of the plant in the preparation of herbal medications is the leaves, which have been reported in 62 plants, followed by roots in 14 plants, and flowers and other aerial parts in 9 plants. The ethnomedicinal data were analyzed using “Use Value,” a statistical quantitative method, with Artemisia vestita having the highest use value (1.00), followed by Cannabis sativa (0.79), Rhododendron arboreum (0.79), and Datura stramonium (0.71). Older people were found to have a vast knowledge of wild medicinal plants, while the younger generation’s knowledge was lacking. As a result, traditional knowledge about the use of plants as a source of medicine has decreased day-by-day. Therefore, there is a need to document traditional ethnobotanical knowledge. The data could serve as a basis for research by pharmacological and nutraceutical industries for the development of novel drugs.

Published
2021
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33. Ethnomedicinal Plants Used in the Health Care System: Survey of the Mid Hills of Solan District, Himachal Pradesh, India

Author

Manoj Kumar, Radha, Himani Devi, Suraj Prakash, Sonia Rathore, Mamta Thakur, Sunil Puri, Ashok Pundir, Sneh Punia Bangar, Sushil Changan, Tamilselvan Ilakiya, Mahesh Kumar Samota, Rahul D. Damale, Surinder Singh, Mukesh K. Berwal, Sangram Dhumal, Anilkumar G. Bhoite, Anshu Sharma, Marisennayya Senapathy, Bharat Bhushan, Vineet Kumar Maurya, Asha, Suman Natta, Ryszard Amarowicz, and Mohamed Mekhemar

Subjects
ethnobotany, traditional medicine, use value, rural inhabitant, Botany, QK1-989
Abstract

The study was performed in the mid hills of the Dharampur region in Solan district of Himachal Pradesh, India. At the study site, a total of 115 medicinal plants were documented (38 trees, 37 herbs, 34 shrubs, 5 climbers, 1 fern, and 1 grass). In the study region, extensive field surveys were performed between March 2020 and August 2021. Indigenous knowledge of wild medicinal plants was collected through questionnaires, discussions, and personal interviews during field trips. Plants with their correct nomenclature were arranged by botanical name, family, common name, habitat, parts used, routes used, and diseases treated. In the present study, the predominant family was Rosaceae, which represented the maximum number of plant species, 10, followed by Asteraceae and Lamiaceae, which represented 8 plant species. The rural inhabitants of the Dharampur region in the Solan district have been using local plants for primary health care and the treatment of various diseases for a longer time. However, information related to the traditional knowledge of medicinal plants was not documented. The rural inhabitants of the Dharampur region reported that the new generation is not so interested in traditional knowledge of medicinal plants due to modernization in society, so there is an urgent need to document ethnomedicinal plants before such knowledge becomes inaccessible and extinct.

Published
2021
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34. Plant-Based Antioxidant Extracts and Compounds in the Management of Oral Cancer

Author

Suraj Prakash, Radha, Manoj Kumar, Neeraj Kumari, Mamta Thakur, Sonia Rathour, Ashok Pundir, Abhishek Kumar Sharma, Sneh Punia Bangar, Sangram Dhumal, Surinder Singh, Anitha Thiyagarajan, Anshu Sharma, Munisha Sharma, Sushil Changan, Minnu Sasi, Marisennayya Senapathy, Prakash Chandra Pradhan, Nitin Kumar Garg, Tamilselvan Ilakiya, Mukesh Nitin, Mohamed M. Abdel-Daim, Sunil Puri, Suman Natta, Abhijit Dey, Ryszard Amarowicz, and Mohamed Mekhemar

Subjects
oral cancer, phytoconstituents, medicinal plants, oral squamous cell carcinoma, Therapeutics. Pharmacology, RM1-950
Abstract

Oral cancer continues to be a leading cause of death worldwide, and its prevalence is particularly high in developing countries, where people chew tobacco and betel nut on a regular basis. Radiation-, chemo-, targeted-, immuno-, and hormone-based therapies along with surgery are commonly used as part of a treatment plan. However, these treatments frequently result in various unwanted short- to long-term side effects. As a result, there is an urgent need to develop treatment options for oral cancer that have little or no adverse effects. Numerous bioactive compounds derived from various plants have recently attracted attention as therapeutic options for cancer treatment. Antioxidants found in medicinal plants, such as vitamins E, C, and A, reduce damage to the mucosa by neutralizing free radicals found in various oral mucosal lesions. Phytochemicals found in medicinal plants have the potential to modulate cellular signalling pathways that alter the cellular defence mechanisms to protect normal cells from reactive oxygen species (ROS) and induce apoptosis in cancer cells. This review aims to provide a comprehensive overview of various medicinal plants and phytoconstituents that have shown the potential to be used as oral cancer therapeutics.

Published
2021
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35. Development and Characterization of Fenugreek Protein-Based Edible Film

Author

Neha Kumari, Sneh Punia Bangar, Michal Petrů, R.A. Ilyas, Ajay Singh, and Pradyuman Kumar

Subjects
fenugreek protein concentrate, edible film, tensile strength, water vapor permeability, Fourier-transform infrared spectroscopy, X-ray diffraction, Chemical technology, TP1-1185
Abstract

The present investigation studied the physicochemical, mechanical, structural, thermal, and morphological attributes of a novel edible film formed from fenugreek protein concentrate. Films were produced at different pH—9, 10, 11, and 12—and the effect of the pH on the films was studied. As the pH increased, tensile strength increased while water vapor absorption decreased, which is interrelated to the surface morphological properties; as the pH increased, the surface became smoother and compact without any cavities. The films produced were darker in color. Fenugreek protein films exhibited good thermal stability. Fourier transform infrared spectroscopy (FTIR) revealed the presence of strong bonding for the films made at alkaline pH. X-ray diffraction analysis (XRD) indicated the major structure of the film was amorphous. The study demonstrated that the fenugreek protein concentrate film has influential characteristics and can be used as an edible packaging film.

Published
2021
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36. Development and Characterization of Physical Modified Pearl Millet Starch-Based Films

Author

Sneh Punia Bangar, Manju Nehra, Anil Kumar Siroha, Michal Petrů, Rushdan Ahmad Ilyas, Urmila Devi, and Priyanka Devi

Subjects
pearl millet starch, physical modification, physicochemical, morphology, particle size, Chemical technology, TP1-1185
Abstract

Pearl millet is an underutilized and drought-resistant crop that is mainly used for animal feed and fodder. Starch (70%) is the main constituent of the pearl millet grain; this starch may be a good substitute for major sources of starch such as corn, rice, potatoes, etc. Starch was isolated from pearl millet grains and modified with different physical treatments (heat-moisture (HMT), microwave (MT), and sonication treatment (ST)). The amylose content and swelling capacity of the starches decreased after HMT and MT, while the reverse was observed for ST. Transition temperatures (onset (To), peak of gelatinization (Tp), and conclusion (Tc)) of the starches ranged from 62.92–76.16 °C, 67.95–81.05 °C, and 73.78–84.50 °C, respectively. After modification (HMT, MT, and ST), an increase in the transition temperatures was observed. Peak-viscosity of the native starch was observed to be 995 mPa.s., which was higher than the starch modified with HMT and MT. Rheological characteristics (storage modulus (G′) and loss modulus (G′′)) of the native and modified starches differed from 1039 to 1730 Pa and 83 to 94 Pa; the largest value was found for starch treated with ST and HMT. SEM showed cracks and holes on granule surfaces after HMT as well as MT starch granules. Films were prepared using both native and modified starches. The modification of the starches with different treatments had a significant impact on the moisture, transmittance, and solubility of films. The findings of this study will provide a better understanding of the functional properties of pearl millet starch for its possible utilization in film formation.

Published
2021
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37. Unraveling the Bioactive Profile, Antioxidant and DNA Damage Protection Potential of Rye (Secale cereale) Flour

Author

Pinderpal Kaur, Kawaljit Singh Sandhu, Sneh Punia Bangar, Sukhvinder Singh Purewal, Maninder Kaur, Rushdan Ahmad Ilyas, Muhammad Rizal Muhammad Asyraf, and Muhammad Rizal Razman

Subjects
rye cultivars, extraction, phytochemicals, total phenolic compounds, antioxidant properties, Therapeutics. Pharmacology, RM1-950
Abstract

Six different solvents were used as extraction medium (water, methanol, ethanol, acidified methanol, benzene and acetone) to check their phenolics extraction efficacy from flour of two rye cultivars. Rye extracts with different solvents were further analyzed for the estimation of phytochemicals and antioxidant properties. Different tests (TPC, TAC, DPPH, FRAP, ABTS, RPA and CTC) were performed to check the antioxidant properties and tannin contents in extracts. A bioactive profile of a rye cultivar indicated the presence of total phenolic compounds (0.08–2.62 mg GAE/g), total antioxidant capacity (0.9–6.8 mg AAE/g) and condensed tannin content (4.24–9.28 mg CE/100 g). HPLC was done to check phenolics in rye extract with the best solvent (water), which indicated the presence of Catechol (91.1–120.4 mg/100 g), resorcinol (52–70.3 mg/100 g), vanillin (1.3–5.5 mg/100 g), ferulic acid (1.4–1.5 mg/100 g), quercetin (4.6–4.67 mg/100 g) and benzoic acid (5.3 mg/100 g) in rye extracts. The presence of DNA damage protection potential in rye extracts indicates its medicinal importance. Rye flour could be utilized in the preparation of antioxidant-rich health-benefiting food products.

Published
2021
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38. Evaluation of Nutritional, Phytochemical, and Mineral Composition of Selected Medicinal Plants for Therapeutic Uses from Cold Desert of Western Himalaya

Author

Radha, Manoj Kumar, Sunil Puri, Ashok Pundir, Sneh Punia Bangar, Sushil Changan, Poonam Choudhary, E. Parameswari, Ahmad Alhariri, Mahesh Kumar Samota, Rahul D. Damale, Surinder Singh, Mukesh K. Berwal, Sangram Dhumal, Anilkumar G. Bhoite, M. Senapathy, Anshu Sharma, Bharat Bhushan, and Mohamed Mekhemar

Subjects
elements, nutrition, medicinal plants, traditional knowledge, Botany, QK1-989
Abstract

The aim of this study was to determine the elemental and nutritive values of leaf parts of 10 selected wild medicinal plants, Acer pictum, Acer caecium, Betula utilis, Oxalis corniculata, Euphorbia pilosa, Heracleum lanatum, Urtica dioica, Berberis lycium, Berberis asiaticaand, and Quercus ilex, collected from the high hills of the Chitkul range in district Kinnaur, Western Himalaya. The nutritional characteristics of medicinal plant species were analyzed by using muffle furnace and micro-Kjeldahl methods, and the mineral content in plants was analyzed through atomic absorption spectrometry. The highest percentage of used value was reported in Betula utilis (0.42) and the lowest in Quercus ilex (0.17). In this study, it was found that new generations are not much interested in traditional knowledge of ethnomedicinal plants due to modernization in society. Therefore, there is an urgent need to document ethnomedicinal plants along with their phytochemical and minerals analysis in study sites. It was found that rural people in western Himalaya are dependent on wild medicinal plants, and certain steps must be taken to conserve these plants from extinction in the cold desert of Himalayan region. They are an alternative source of medicine because they contain saponin, alkaloid, and flavonoid etc. as well as minerals. The leaves used for analysis possesses good mineral content, such as Na, N, K, P, Zn, Fe, Cu, Mn, Ca, Mg, and S. Hence, in the current study it was observed that medicinal plants are not only used for therapeutic purposes, but they can also be used as nutritional supplements.

Published
2021
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43. Fabrication and characterization of active nanocomposite films loaded with cellulose nanocrystals stabilized Pickering emulsion of clove bud oil

Author

Sneh Punia, Bangar, William Scott, Whiteside, Kyle D, Dunno, George Armstrong, Cavender, and Paul, Dawson

Subjects
Structural Biology, General Medicine, Molecular Biology, Biochemistry
Abstract

There is a tremendous increase in the development of alternative food packaging materials which are functional, environment-friendly, and can improve the shelf-life of food products. One such possible approach is to develop biopolymer-based active films loaded with antimicrobial essential oils. In the present study, pearl millet starch (PMS) films reinforced with kudzu cellulose nanocrystals (CNCs) stabilized Pickering emulsions of clove bud oil (CBO) were developed as active and sustainable packaging material. Active nanocomposite films were prepared by blending PMS with Pickering emulsions of CBO at 0.5, 1, 1.5, and 2 wt% conc. Using the solution casting method. Overall, active nanocomposite films displayed improved thermal, mechanical, and water barrier properties, with an optimum CBO-Pickering emulsion concentration of 1.5 %. CBO and PMS films showed strong chemical interactions, which significantly improved the mechanical resistance of the film. Further, SEM showed the appearance of micro-porous holes in the films because of partial evaporation on the cryo-fractured surface due to the vacuum condition. In addition, films exhibited antimicrobial activity against Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus), with a rate response from increasing CBO Pickering emulsion concentration from 0.5 to 2 %. E. coli and S. aureus exhibited an inhibition zone ranging from 10.5 to 2.15 mm and 11.2 to 22.1 mm. This study suggests that PMS starch and kudzu CNCs-based active nanocomposite films loaded with CBO-Pickering emulsions have good potential to develop active and sustainable packaging materials.

Published
2023

48. Starch‐based noodles: Current technologies, properties, and challenges

Author

Sneh Punia Bangar, N. Afzal Ali, Aderonke Ibidunni Olagunju, Kristian Pastor, Adeleke Omodunbi Ashogbon, Kshirod K. Dash, Jose M. Lorenzo, and Fatih Ozogul

Subjects
Pharmaceutical Science, Food Science
Abstract

Starch noodles are gaining interest due to the massive popularity of gluten-free foods. Modified starch is generally used for noodle production due to the functional limitations of native starches. Raw materials, methods, key processing steps, additives, cooking, and textural properties determine the quality of starch noodles. The introduction of traditional, novel, and natural chemical additives used in starch noodles and their potential effects also impacts noodle quality. This review summarizes the current knowledge of the native and modified starch as raw materials and key processing steps for the production of starch noodles. Further, this article aimed to comprehensively collate some of the vital information published on the thermal, pasting, cooking, and textural properties of starch noodles. Technological, nutritional, and sensory challenges during the development of starch noodles are well discussed. Due to the increasing demands of consumers for safe food items with a long shelf life, the development of starch noodles and other convenience food products has increased. Also, the incorporation of modified starches overcomes the shortcomings of native starches, such as lack of viscosity and thickening power, retrogradation characteristics, or hydrophobicity. Starch can improve the stability of the dough structure but reduces the strength and resistance to deformation of the dough. Some technological, sensory, and nutritional challenges also impact the production process.

Published
2022

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