Your search keyword '"Saeed, Farhan"' showing total 18 results

1. Anticaking Agents in Food Nanotechnology

Author

Afzaal, Muhammad, Saeed, Farhan, Ahmed, Aftab, Islam, Fakhar, Khalid, Muhammad Armghan, Hussain, Muzzamal, Anjum, Waqas, Afzal, Atka, Egbuna, Chukwuebuka, editor, Jeevanandam, Jaison, editor, C. Patrick-Iwuanyanwu, Kingsley, editor, and N. Onyeike, Eugene, editor

Published

2022

2. An overview of the nutritional and therapeutic properties of amaranth.

Author

Sattar, Moazma, Saeed, Farhan, Afzaal, Muhammad, Rasheed, Amara, Asif, Aliha, Sharif, Sadia, Hussain, Muzzamal, Asad Ur Rehman, Hafiz, Raza, Muhammad Ahtisham, Munir, Haroon, and Al Jbawi, Entessar

Subjects

*FOOD combining, *FOOD industry, *AMARANTHS, *FOOD quality, *PLANT species

Abstract

Amaranthus spp. was found a few centuries back as a highly auspicious plant species that might yield significant unsaturated fat, protein, and several other beneficial ingredients. Since that day, studies have mainly centered on different Amaranthus spp. Various journals with fundamental characteristics, including biological, pharmacological, technical, compositional, botanical along with health impacts have been published. This in-depth analysis focuses on constituents, anti-oxidant qualities, uses, and processing of amaranth. In addition to macro-components, the composition also contains vitamins, tocopherols, polyphenols, phytates, squalene, and other significant ingredients. Humankind has long been aware of the advantages plants have for supporting health. Amaranth is currently generating more scientific and commercial concern. This is because of its beneficial biological traits, diverse nutraceutical activity, and extensive phytoconstituents. Amaranth is a pseudo cereal plant that combines the qualities of a food and a health-improving commodity into one plant. This article addresses the most important biological and pharmacological activity of amaranth, in addition to its chemical makeup, status as a dietary ingredient, and effectiveness of its supplementation. The favorable biological features of amaranth formulations discussed in this work may serve as a catalyst for additional, deep scientific study in this area as well as for the advancement of new methods utilizing this pseudo cereal in the cosmetic & food sectors. [ABSTRACT FROM AUTHOR]

Published

2024

3. Encapsulation of probiotic bacteria using polyelectrolytes stabilized nanoliposomes for improved viability under hostile conditions.

Author

Adeel, Muhammad, Afzaal, Muhammad, Saeed, Farhan, Ahmed, Aftab, Mahmood, Kaiser, Abbas shah, Yasir, Ateeq, Huda, Sibat, Amaima, Khan, Mohammad Rizwan, and Busquets, Rosa

Subjects

PROBIOTICS, FOOD industry, LACTOBACILLUS acidophilus, INFRARED spectra, ZETA potential, FOURIER transforms

Abstract

Probiotics viability and stability is a core challenge for the food processing industry. To prolong the viability of probiotics (Lactobacillus acidophilus), gelatin (GE)–chitosan (CH) polyelectrolytes‐coated nanoliposomes were developed and characterized. The average particle size of the nanoliposomes was in the range of 131.7–431.6 nm. The mean zeta potential value of the nanoliposomes differed significantly from −42.2 to −9.1 mV. Scanning electron micrographs indicated that the nanoliposomes were well distributed and had a spherical shape with a smooth surface. The Fourier transform infrared spectra revealed that the GE–CH polyelectrolyte coating has been effectively applied on the surface of nanoliposomes and L. acidophilus cells were successfully encapsulated in the lipid‐based nanocarriers. X‐ray diffraction results indicated that nanoliposomes are semicrystalline and GE–CH polyelectrolyte coating had an influence on the crystalline nature of nanoliposomes. Moreover, the coating of L. acidophilus‐loaded nanoliposomes with GE–CH polyelectrolytes significantly improved its viability when exposed to simulated gastrointestinal environments. The findings of the current study indicated that polyelectrolyte‐coated nanoliposomes could be used as an effective carrier for the delivery of probiotics and their application to food matrix for manufacturing functional foods. [ABSTRACT FROM AUTHOR]

Published

2023

4. Valorization and food applications of okara (soybean residue): A concurrent review.

Author

Asghar, Aasma, Afzaal, Muhammad, Saeed, Farhan, Ahmed, Aftab, Ateeq, Huda, Shah, Yasir Abbas, Islam, Fakhar, Hussain, Muzzamal, Akram, Noor, and Shah, Mohd Asif

Subjects

FOOD industry, METABOLIC disorders

Abstract

Agriculture waste is rising continuously across the globe due to enormous industrial, food processing, and household activities. Proper valorization of this waste could be a promising source of various essential bioactive and functional ingredients. Okara is a major residue produced as result of soybean processing and has a rich nutritional profile. The nutritional profile of okara is affected by the processing conditions, variety, pre‐treatment, post‐production treatments, and processing techniques. Owing to the high fibers, lipids, proteins, and bioactive components, it is being used as an essential industrial ingredient in various food processing industries. The prebiotic potential and nutritional profile can be increased by various techniques, that is, enzymatic, chemical, biotransformation, high‐pressure microfludization, and fermentation. The prebiotic potential of okara makes it suitable as a therapeutic agent to prevent a variety of metabolic disorders such as diabetes, obesity, hypercholesterolemia, and hyperlipidemia. The current review highlights the structural, nutritional, functional, therapeutic, and industrial applications of okara. [ABSTRACT FROM AUTHOR]

Published

2023

5. Innovative applications and therapeutic potential of oilseeds and their by‐products: An eco‐friendly and sustainable approach.

Author

Usman, Ifrah, Saif, Hina, Imran, Ali, Afzaal, Muhammad, Saeed, Farhan, Azam, Iqra, Afzal, Atka, Ateeq, Huda, Islam, Fakhar, Shah, Yasir Abbas, and Shah, Mohd Asif

Subjects

OILSEEDS, FOOD industry, WASTE recycling, BIOACTIVE compounds, COSMETICS industry, AGRICULTURAL wastes, FOOD industrial waste

Abstract

The risk of inadequate management of agro‐waste is an emerging challenge. However, the economic relevance of agro‐waste valorization is one of the key strategies to ensure sustainable development. Among the agro‐waste, oilseed waste and its by‐products are usually seen as mass waste after the extraction of oils. Oilseed by‐products especially oilseed cakes are a potential source of protein, fiber, minerals, and antioxidants. Oilseed cakes contain high value‐added bioactive compounds which have great significance among researchers to develop novel foods having therapeutic applications. Moreover, these oilseed cakes might be employed in the pharmaceutical and cosmetic industries. Thus, as a result of having desirable characteristics, oilseed by‐products can be more valuable in wide application in the food business along with the preparation of supplements. The current review highlights that plentiful wastes or by‐products from oilseeds are wasted if these underutilized materials are not properly valorized or effectively utilized. Hence, promising utilization of oilseeds and their wastes not only assists to overcome environmental concerns and protein insecurity but also helps to achieve the goals of zero waste and sustainability. Furthermore, the article also covers the production and industrial applications of oilseeds and by‐products along with the potential role of oilseed cakes and phytochemicals in the treatment of chronic diseases. [ABSTRACT FROM AUTHOR]

Published

2023

6. Nutritional, functional, and ethno‐medical properties of sweet corn cob: a concurrent review.

Author

Islam, Fakhar, Imran, Ali, Afzaal, Muhammad, Saeed, Farhan, Asghar, Aasma, Shahid, Sumaira, Shams, Arooj, Zahra, Syeda Mahvish, Biswas, Sunanda, and Aslam, Muhammad Arslan

Subjects

CORNCOBS, SWEET corn, CORN residues, FOOD industry, BLOOD sugar, POLLUTION

Abstract

Summary: The corn cob is still a significant component of the corn residue. It is estimated that maize cob accounts for 40–50 percent of total corn production. Corn cob is considered an agriculture waste (by‐product of sweet corn). This by‐product causes environmental pollution, which produces health problems. Its phytochemicals and prebiotic potential provide large benefits for humans when it is consumed. Therefore, corn cob has functional properties such as antioxidant, antimicrobial, anticoagulant, anticancer and reduces the blood glucose level. Corn cob may be used as opportunistic raw material in food products and other possible applications. Current review explained the nutritional composition of corn cob and its possible health benefits. In conclusion, corn cobs have the potential for the development of value‐added products, which are gluten free and also contribute to flourish business of food development and nutraceutical manufacturing industries. [ABSTRACT FROM AUTHOR]

Published

2023

7. Physicochemical and sensory profile of spiced yogurt as affected by ginger supplementation.

Author

Aamir, Muhammad, Arshad, Arfa, Afzaal, Muhammad, Rakha, Allah, Jalel Mahsen Oda, Nooralhuda, Nadeem, Muhammad, Saeed, Farhan, Ahmed, Aftab, Imran, Ali, Ateeq, Huda, Farooq, Rimsha, Islam, Fakhar, Manoharadas, Salim, Nawaz, Asad, and Asif Shah, Mohd

Subjects

YOGURT, GINGER, ENRICHED foods, DIETARY supplements, FOOD industry, PRODUCT attributes

Abstract

Food fortification processes are used to improve the functional and dietary characteristics of the final product. The basic aim of the current study was to evaluate the ginger (Zingiber officinalis, Roscoe) fortification in yogurt and to improve its functionality. For this purpose, ginger at different concentrations (0%, 0.5%, 1%, 1.5%, and 2%) was added to yogurt. The results showed a significant influence (p <.05) on physicochemical and phenolic content as well as on the sensory parameters of fortified yogurt. Moreover, the addition of 1.5% ginger powder in yogurt resulted in the best results for protein (3.30%), moisture (79.16%), and water-holding capacity (39.85%), respectively. Furthermore, the total phenolic contents were also higher in T3 (19.91 μg GAE/g); however, the total plate count tends to decrease ranging from 3.94 to 3.58 log CFU/g in different treatments. The results of the sensorial assessment revealed T3 was appreciated the most among all treatments. [ABSTRACT FROM AUTHOR]

Published

2023

8. A comprehensive review on biochemical and technological properties of rye (Secale cereale L.).

Author

Ikram, Ali, Saeed, Farhan, Noor, Ramzan Ahmed, Imran, Ali, Afzaal, Muhammad, Rasheed, Areeba, Islam, Fakhar, Iqbal, Ahsan, Zahoor, Tahir, Naz, Saima, Waheed, Wisha, Shahid, Muhammad Zia, Khan, Abdul Waheed, and Kinki, Abdela Befa

Subjects

*BREAD, *RYE, *GLYCEMIC index, *BREAD quality, *BREAKFAST cereals, *SOIL temperature

Abstract

Rye (Secale cereale L.) is widely grown, especially in areas of Europe and North America, where the soil and temperature are unfavorable for cultivating other cereals. Rye grains are distinguished by having one of the greatest levels of fiber content as compared to the other cereals commonly ingested by people. Rye is one of the best sources of nutritional and bioactive substances, and it is the second most significant raw material for bread and bakery goods after wheat. Rye is also used in many culinary products, including pasta, snack foods, breakfast cereals, and porridge. Several physicochemical processes that affect the composition, characteristics, and availability of nutrients and technologically significant components take place during rye and rye flour preparation. Different Changes impact rye flour's ability to absorb water, the dough's viscosity and structure, the bread's quality and yield, and its glycemic index. A recent trend in the milling and processing of rye is the production of more fiber and wholemeal flour. Wholemeal and dark rye flours with fine granulation are frequently produced using non-traditional, customized mill equipment. Our study aims to provide an in-depth analysis of the most recent findings about rye's compositional and technological characteristics that significantly impact its use as food. In addition, this evaluation seeks to pinpoint the most recent developments and trends in rye product development. [ABSTRACT FROM AUTHOR]

Published

2023

9. Effect of starch-based nanoparticles on the viability and stability of probiotics under adverse conditions.

Author

Noman, Mohammad, Afzaal, Muhammad, Saeed, Farhan, Ahmad, Aftab, Imran, Ali, Akram, Noor, Asghar, Aasma, Shah, Yasir Abbas, Ateeq, Huda, Khan, Mohammad Rizwan, Lorenzo, José M., and Teferi Asres, Degnet

Subjects

PROBIOTICS, FOURIER transform infrared spectroscopy, STARCH, NANOPARTICLES, FOOD industry

Abstract

Starch nanoparticles resist digestion in the upper intestine but not in the colon. They are proven to exert prebiotic effects on the human body. Starch-based nanoparticles have generated a great interest in the food and agriculture sector due to their biocompatibility, wide array of natural sources and ease of modification. In the current study, two starch sources (rice and water chestnut) were used to synthesize nanoparticles for the encapsulation of probiotic bacteria. Obtained nanoparticles were characterized for their morphological, molecular, and structural attributes using Fourier Transform Infrared Spectroscopy (FTIR), scanning electron microscopy (SEM), X-ray diffraction (XRD), and zeta sizer. Furthermore, free and nano-encapsulated probiotics were subject to simulated gastrointestinal digestion conditions. The average size of rice and water chestnut starch-based nano-capsules ranged from 309 to 427 nm. The encapsulation efficiency was recorded for rice and water chestnut starch as 89% and 95%, respectively. SEM micrographs exhibited entrapment of probiotics in wall materials. The surface of the capsules showed tiny, smooth surface polygonal granules. XRD images showed loss of crystallinity structure following encapsulation. Higher probiotic viability was recorded under simulated gastrointestinal conditions for nano-encapsulated probiotics compared to free probiotics. Conclusively, water chestnut and rice-based starch nanoparticles showed overall the best results regarding the viability of probiotics under stressed conditions. [ABSTRACT FROM AUTHOR]

Published

2023

10. Probiotic viability as affected by encapsulation materials: recent updates and perspectives.

Author

Safeer Abbas, Muhammad, Afzaal, Muhammad, Saeed, Farhan, Asghar, Aasma, Jianfeng, Lu, Ahmad, Aftab, Ullah, Qudrat, Elahi, Samreen, Ateeq, Huda, Shah, Yasir Abbas, Nouman, Muhammad, and Shah, Mohd Asif

Subjects

PROBIOTICS, FUNCTIONAL foods, MICROENCAPSULATION, CONSUMPTION (Economics), FOOD industry, DYSBIOSIS

Abstract

The demand for probiotic-based functional food is increasing globally owing to its health-endorsing attributes. There are various driving forces behind probiotic therapy. However, Intestinal dysbiosis in humans is the prime driving force behind this increasing trend in the consumption of probiotic-based functional food. Probiotics have numerous health potentials, however, their target delivery and stability is a great challenge for food manufacturer. Microencapsulation with various types of coating materials is trending for the target and stable delivery of potential probiotics. There are various encapsulation techniques with pros and cons. The type of probiotic bacteria, encapsulation methods, and coating materials are considered crucial factors to prolong the viability of probiotics under hostile conditions. The current review addresses the opportunities, challenges, and future trends surrounding matrix materials used in probiotic encapsulation. The review also describes the current studies and their findings on the various types of encapsulation materials. This comprehensive review could be a way forward in the selection of efficient and effective wall material for the target delivery of sensitive ingredients. [ABSTRACT FROM AUTHOR]

Published

2023

11. Utilization of biomaterials to develop the biodegradable food packaging.

Author

Perveen, Saima, Anwar, Muhammad Junaid, Ismail, Tariq, Hameed, Aneela, Naqvi, Syeda Sameen, Mahomoodally, Mohamad Fawzi, Saeed, Farhan, Imran, Ali, Hussain, Muzzamal, Imran, Muhammad, Ur Rehman, Habib, Khursheed, Tara, Tufail, Tabussam, Mehmood, Tahir, Ali, Shinawar Waseem, and Al Jbawi, Entessar

Subjects

PACKAGING materials, FOOD packaging, FOOD industry, DAIRY products industry, FOOD quality, BIOMATERIALS

Abstract

Food packaging material is the primary element of the food industry; therefore, its consideration to sustain food quality and food safety is crucial. Several food-grade materials have been utilized for packaging food commodities for a long time. Still, these materials negatively influence safety, shelf life, texture, quality, and flavors of the food commodities. Concurrently, biotechnology introduces various techniques to produce several edible food packaging materials i.e. polysaccharides and protein-based films, intelligent and active packaging, which can preserve the food for a long period and inhibit the entry of biotic and abiotic components into the food. Various materials i.e. nisin, chitosan, cactus/mucilage, and bacterial nanocellulose, are being utilized to produce various kinds of edible packaging, including films, coatings, foams, with various kinds of edible active and intelligent packaging characteristics by biotechnological tools. The packaging material prepared by biotechnological applications is widely adopted and utilized in various food processing and preservation industries due to its higher safety levels and more nutritional components for consumption. The edible packaging material is currently utilized only for solid and semisolid processed products. However, there is an urgency to develop edible packaging material for liquid commodities such as products of the dairy and beverages industry by utilizing biotechnological techniques. [ABSTRACT FROM AUTHOR]

Published

2023

12. Recent updates and perspectives of plasma in food processing: a review.

Author

Usman, Ifrah, Afzaal, Muhammad, Imran, Ali, Saeed, Farhan, Afzal, Atka, Ashfaq, Iqra, Shah, Yasir Abbas, Islam, Fakhar, Azam, Iqra, Tariq, Ifra, Ateeq, Huda, Asghar, Aasma, Farooq, Rimsha, Rasheed, Amara, and Asif Shah, Mohd

Subjects

DECONTAMINATION of food, FOOD industry, PLASMA materials processing, PLASMA production, FOOD quality, PROCESSED foods

Abstract

The demand for minimally processed food is increasing across the globe. In this regard, the application of non-thermal technologies for food processing is getting more attention. The use of plasma in food processing offers promising potential owing to its different attributes including non-thermal, enzyme inactivation, removal of pesticides toxin, less damage to food, low nutritional loss, and high quality of the final products. Plasma ensures food safety by inactivation of potential pathogens without distressing the quality indices of the food. Plasma is an advanced technique that has attracted scientists and technologists because of its astonishing capacity and potential applications in food industries which include food decontamination, inactivation of food-borne pathogenic microbes, and food packaging. The present review summarizes the key factors in plasma generation, its characteristics and applications in different food industries. Furthermore, it also addresses the principles, practices and limitations of plasma application in food safety, decontamination and current knowledge on the subject matter. These application of plasma in food industries improves the nutritional and textural aspects of food materials [ABSTRACT FROM AUTHOR]

Published

2023

13. Nutritional and Therapeutic Potential of Soursop.

Author

Afzaal, Muhammad, Saeed, Farhan, Asghar, Aasma, Shah, Yasir Abbas, Ikram, Ali, Ateeq, Huda, Hussain, Muzzamal, Ofoedu, Chigozie E., and Chacha, James S.

Subjects

TROPICAL fruit, HEMORRHAGIC diseases, BLOOD pressure, OXIDATIVE stress, FOOD industry, FUNCTIONAL beverages, FRUIT development

Abstract

Soursop (Annona muricata) has been one of the most studied fruits in recent years, owing to its potential medicinal benefits, as evidenced by many studies. Soursop is a tropical and subtropical fruit having great versatility and is quite sensitive to drastic temperature fluctuations. Since soursop contains various phytochemicals, it can be used medicinally to treat a wide range of conditions, including diabetes (by inhibiting the enzymes α-glucosidase and α-amylase), tumor, cancer, oxidative stress, blood pressure, the induction of apoptosis in tumor cells as well as hemorrhagic disease and cholesterol lowering. Due to its significant nutritional profile and therapeutic potential, it can be utilized in the development of nutraceuticals and medicines. Its pulp, seed, and leaf extract are used as functional ingredients in different foods as value-added foods. This review article is intended to characterize fruit development patterns and examines potential maturity indicators in soursop. In addition, it also elaborates on the potential nutritional and active phytochemicals present in this magnificent gift of nature and their possible uses in the food and pharmaceutical industries. [ABSTRACT FROM AUTHOR]

Published

2022

14. Recent trends in encapsulation of probiotics in dairy and beverage: A review.

Author

Abbas, Muhammad Safeer, Saeed, Farhan, Afzaal, Muhammad, Jianfeng, Lu, Hussain, Muzzamal, Ikram, Ali, and Jabeen, Ayesha

Subjects

*FUNCTIONAL beverages, *ANIMAL feeds, *FUNCTIONAL foods, *BEVERAGE industry, *PROBIOTICS, *DAIRY industry, *FOOD industry

Abstract

Probiotics are becoming popular in dairy and non‐dairy matrices owing to their symbiotic effects on the human gut. However, maintaining the viability and stability of probiotics at their therapeutic level is a great challenge for manufacturers. Encapsulation technology is getting attention to maintain and target the delivery of sensitive ingredients in the food and pharmaceutical industry. Probiotics are encapsulated by using different economical biomaterials to augment their stability under stressed conditions and encapsulated by materials. Encapsulation with these biomaterials retains their recommended number in the product as well as provides a barrier against the hostile conditions in the human gastrointestinal passage. Adaptation of encapsulation technology in the dairy and beverage sector will be a way forward for the development of a different range of functional foods. The current review focuses on encapsulation, types of encapsulation material, and their suitability for the development of dairy and beverage functional foods. Practical applications: Probiotic application as functional ingredients in different food, an animal feed is increasing across the globe owing to their numerous benefits. The dairy and beverage industry is the largest in the food sector and has promising probiotic application potential. Probiotic stability and viability challenges can be addressed by encapsulation using different polymer‐based wall materials. [ABSTRACT FROM AUTHOR]

Published

2022

15. Acrylamide Formation and Different Mitigation Strategies during Food Processing – A Review.

Author

Maan, Abid Aslam, Anjum, Muhammad Adeel, Khan, Muhammad Kashif Iqbal, Nazir, Akmal, Saeed, Farhan, Afzaal, Muhammad, and Aadil, Rana Muhammad

Subjects

ACRYLAMIDE, FOOD industry, MAILLARD reaction, AMINO acids

Abstract

Thermal treatment can initiate the production of some undesirable compounds in foods during processing. Acrylamide is one among such compounds that is produced (in starch-rich foods) as a result of Maillard reaction between reducing sugars and free amino acids. Acrylamide has gained much attention owing to its wide occurrence, dietary exposure, and toxicity. Its formation mechanism and mitigation has been an area of interest for numerous researchers since its discovery in foods. Some reviews have already been published on acrylamide where its formation and mitigation has been discussed with reference to some specific group of foods and/or some specific mitigation technique. In others, the mitigation section does not cover all the aspects of acrylamide attenuation reported in the literature. The present paper provides the updated and comprehensive information on formation, occurrence, dietary exposure, toxicity, and mitigation of acrylamide in foods during processing. [ABSTRACT FROM AUTHOR]

Published

2022

16. A mini‐review on egg waste valorization.

Author

Younas, Kashaf, Afzaal, Muhammad, Saeed, Farhan, Shankar, Amar, Kumar Bishoyi, Ashok, Khare, Neeraj, Imran, Ali, Mahmood, Kaiser, Amhed, Aftab, Asghar, Aasma, Samar, Namra, Rasheed, Musarrat, and Islam, Fakhar

Subjects

*FOOD industrial waste, *PETROLEUM waste, *BONE substitutes, *EGGSHELLS, *METAL industry

Abstract

Each year, approximately million tons of waste is generated from eggshells disposed of in landfills. This waste is challenging to manage because of the odor and microbiological development. However, eggshells have potential applications as a solid byproduct. They can be modified and used in various industries such as metal, polymer and ceramic composites, in the production of biodiesel, heavy metal absorption from wastewater, and even as a biomaterial to substitute bone tissues. Furthermore, eggshells can be used as a cheap adsorbent for the treatment of contaminated waterways. They are also a great source of calcium and fertilizer for plants, animals and humans. Chicken eggshells can even be used as a catalyst for converting waste frying oil into biofuel. This review highlights the challenges and opportunities of eggshell waste valorization in the food industry. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

17. Functional and nutraceutical properties of maize bran cell wall non-starch polysaccharides.

Author

Saeed, Farhan, Hussain, Muzzamal, Arshad, Muhammad Sajid, Afzaal, Muhammad, Munir, Haroon, Imran, Muhammad, Tufail, Tabussam, and Anjum, Faqir Muhammad

Subjects

*BRAN, *RICE bran, *CORN, *FOOD industry, *WHEAT bran, *POLYSACCHARIDES, *FERULIC acid

Abstract

In most of the countries around the world, the ever increase in food processing industries around the world is producing various types of by-products including peel, bran, pomace, refused pulp, shells, hull, husk, pods, seeds. With increasing activity in health-promoting functional foods, increase in the demand for natural bioactive moieties and new areas of research are on the way. Many by-products have been explored for health endorsing properties however, maize bran cell walls (MBCWs) and their various components (non-starch polysaccharides) are of chief importance. In this review, efforts are focused to illustrate the functional and nutraceutical importance of maize bran cell walls. Maize bran cell wall is made up of non-starch polysaccharide materials including arabinoxylans, heteroxylans, and hemicellulose. It holds various bioactive compounds such as ferulic acid, diferulic acid, and p-coumaric acid, having enormous nutraceutical properties, like antioxidant, anticancer, anti-inflammatory, anti-microbial, antiaging, cardioprotective, prebiotic and antiviral effects. These bioactive compounds are protecting against various disorders, like hypercholesterolemia, diabetes, cancer, neurodegenerative, cardiovascular, and thrombosis diseases. Furthermore, extraction, functional and nutraceutical properties, possible uses, and industrial applications of MBCW are the limelight of this article. [ABSTRACT FROM AUTHOR]

Published

2021

18. Recent Developments in Minimal Processing: A Tool to Retain Nutritional Quality of Food.

Author

Pasha, Imran, Saeed, Farhan, Sultan, M. Tauseef, Khan, Moazzam Rafiq, and Rohi, Madiha

Subjects

*FOOD quality, *FOOD industry, *FOOD crops, *HORTICULTURAL crops, *FRUIT development, *PROCESSED foods, *ELECTRIC heating

Abstract

The modernization during the last century resulted in urbanization coupled with modifications in lifestyles and dietary habits. In the same era, industrial developments made it easier to meet the requirements for processed foods. However, consumers are now interested in minimally processed foods owing to increase in their awareness to have fruits and vegetables with superior quality, and natural integrity with fewer additives. The food products deteriorate as a consequence of physiological aging, biochemical changes, high respiration rat,e and high ethylene production. These factors contribute substantially to discoloration, loss of firmness, development of off-flavors, acidification, and microbial spoilage. Simultaneously, food processors are using emerging approaches to process perishable commodities, along with enhanced nutritional and sensorial quality. The present review article is an effort to utilize the modern approaches to minimize the processing and deterioration. The techniques discussed in this paper include chlorination, ozonation, irradiation, photosensitization, edible coating, natural preservative use, high-pressure processing, microwave heating, ohmic heating, and hurdle technology. The consequences of these techniques on shelf-life stability, microbial safety, preservation of organoleptic and nutritional quality, and residue avoidance are the limelight of the paper. Moreover, the discussion has been made on the feasibility and operability of these techniques in modern-day processing. [ABSTRACT FROM AUTHOR]

Published

2014