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2. Nutritional and ethnomedicinal scenario of koumiss: A concurrent review

Author

Ali Ikram, Muhammad Afzaal, Muzzamal Husaain, Numra Waris, Fatima Anjum, Farhan Saeed, Huda Ateeq, Hafiz Ansar Rasul Suleria, and Faqir Muhammad Anjum

Subjects
Vitamin C, Nutrition. Foods and food supply, Linolenic acid, Reviews, Review, Biology, fermented products, nutritional properties, Lactic acid, chemistry.chemical_compound, chemistry, mare milk, Pantothenic acid, TX341-641, Fermentation, Mare milk, Food science, Lactose, therapeutic potential, Fermentation in food processing, koumiss, Food Science
Abstract

Fermented foods are an essential source of nutrition for the communities living in developing areas of the world. Additionally, traditional fermented products are a rich source of various bioactive components. Experimental research regarding the functional exploration of these products is a way forward for better human health. Among fermented foods, Koumiss is rich in vitamins especially vitamin C and minerals, i.e., phosphorus and calcium. In addition, it is also rich in vitamins A, E, B2, B12, and pantothenic acid. High concentrations of lactose in milk favor bacterial fermentation, as the original cultures decompose it into lactic acid. Koumiss contains essential fatty acids such as linoleic and linolenic acid. Koumiss offers many health benefits including boosting the immune system and maintains blood pressure, good effect on the kidneys, endocrine glands, gut system, liver, and nervous and vascular system. The rich microflora from the fermented product has a pivotal role in maintaining gut health and treating various digestive diseases. The core focus of the current review paper is to highlight the nutritional and therapeutic potential, i.e., anticarcinogenic, hypocholesterolemia effect, antioxidative properties, antibacterial properties, antibacterial spectrum, intestinal enlargement, and β‐galactosidase activity, of Koumiss as a traditional fermented product. Moreover, history and production technology of the Koumiss are also the main part of this review paper., Fermented commodities are an essential source of nutrition for the communities living in developing areas of the world. Traditional fermented products are a rich source of various bioactive components. Koumiss is rich in vitamins and minerals. It offers many health benefits to people such as boosting the immune system; maintaining blood pressure, good effect on the kidneys, liver, endocrine glands, gut system, nervous and vascular system.

Published
2021
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3. Structural and nutritional portrayal of rye‐supplemented bread using fourier transform infrared spectroscopy and scanning electron microscopy

Author

Muhammad Umair Arshad, Muhammad Afzaal, Faqir Muhammad Anjum, Ali Ikram, and Farhan Saeed

Subjects
Rye bread, Nutrition. Foods and food supply, Chemistry, Starch, Scanning electron microscope, digestive, oral, and skin physiology, food and beverages, rye bread, chemistry.chemical_compound, symbols.namesake, Sem micrographs, Fourier transform, FTIR, GC‐FID, SEM, symbols, TX341-641, Food science, Fourier transform infrared spectroscopy, Spectroscopy, Food Science, Original Research
Abstract

In the present study, four different variants, namely Gp‐1, Gp‐2, Gp‐3, and Gp‐4, were characterized for their nutritional and fatty acid profile. Later on, the nutritionally superior variant was used for bread preparation. Purposely, composite flour was prepared with different ratios of wheat and rye (100:0; 90:10; 80:20). Furthermore, structural characterization of bread was done using Fourier transform infrared (FTIR) spectroscopy and scanning electron microscopy (SEM). Results showed that the Gp‐2 was more nutritional among the four variants. Furthermore, the spectra of composite flour bread were scanned in the range of 4000–600 cm–1. All the bread samples presented almost similar spectra for major peaks corresponding to wavenumbers in the functional group. The SEM micrographs showed the presence of small and large starch particles with compact structures. Conclusively, rye flour supplementation has a significant impact on the nutritional and structural attributes of the bread., Rye flour supplementation has a significant impact on the nutritional and structural attributes of the bread.

Published
2021

4. Nutritional and end‐use perspectives of sprouted grains: A comprehensive review

Author

Ali Ikram, Muzzamal Hussain, Ali Imran, Muhammad Afzaal, Tabussam Tufail, Farhan Saeed, Bushra Niaz, and Faqir Muhammad Anjum

Subjects
chemistry.chemical_classification, Nutrition. Foods and food supply, Nutritional content, nutritional changes, Reviews, food and beverages, Review, Biology, sprouting, products, Human health, germination, Green food, chemistry, Germination, TX341-641, Food science, Essential nutrient, factors affecting, Antinutrient, Food Science, Sprouting
Abstract

Scientific literature is evident that the germinated seeds possess a promising potential for essential nutrients, flavors, and textural attributes over nongerminated grain. In recent decades, sprouting has also been investigated as a potential green food engineering technique to boost the nutritive profile of grains. Sprouting grains have multifold applications in different fields such as baking, pharmaceutical, and cosmetic industries. During sprouting, shifting of molecular structures to macroscopic takes place. Sprouting reactivates the grain metabolism which leads to the catabolism and degradation of antinutrient and macronutrient compounds. These modifications have an effect on human health and on the nutritional content of the foodstuffs. Sprouting grains have high bioactivity against diabetes and cancer. Germination is also an outstanding green food development technique to increase the seed nutritive profile in terms of quality. The present review focuses on the sprouting of grains, changes in nutritional profile, and the technological exploration of sprouted grains., Sprouting grains has multifold applications including nutraceutical, functional foods, pharmaceutical, and cosmetic industries. During sprouting, a shift of molecular structures to macroscopic takes place. Sprouting reactivates the grain metabolism which leads to the catabolism and degradation of antinutrient and macronutrient compounds. These modifications have an effect on the health and on the nutritional content of the foodstuffs.

Published
2021
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5. Biochemical and nutritional profile of maize bran‐enriched flour in relation to its end‐use quality

Author

Abdellatif A. Mohamed, Ali Ikram, Bushra Niaz, Faqir Muhammad Anjum, Farhan Saeed, M. S. Alamri, Muhammad Afzaal, Muzzamal Hussain, and Shahzad Hussain

Subjects
Absorption of water, nutritional composition, Water activity, 030309 nutrition & dietetics, Nutritional composition, maize bran‐enriched flour, 03 medical and health sciences, 0404 agricultural biotechnology, Water holding capacity, TX341-641, Food science, Water content, Original Research, Farinograph, 0303 health sciences, Bran, Nutrition. Foods and food supply, Chemistry, digestive, oral, and skin physiology, fungi, food and beverages, 04 agricultural and veterinary sciences, bread quality, 040401 food science, rheological properties, water‐holding capacity, Fermentation, Food Science
Abstract

The core objective of current research was determined to nutritional and bioactive profile of maize bran (MB)‐enriched flour in relation to its end‐use product quality. Furthermore, rheological properties of MB‐enriched flour at different levels (5%, 10%, and 15%) were explicated through farinograph and mixograph. Moreover, bread was prepared with the addition of MB‐enriched flour and was characterized for nutritional and textural properties. Results showed that MB‐enriched flour having high water absorption and water retaining potential up to 4%–7% as compared to wheat flour (WF). Moreover, dough height gradually decreased with the addition of MB due to water‐binding ability of bran which causes a decrease in gas retention during fermentation. This resulted in bread volume decrease (4%–7%) as compared to WF. Furthermore, the moisture content and hardness increased with the addition of MB. The water activity of bread slightly increased with the addition of maize bran after 4‐day storage. Conclusively, MB‐enriched flour improved nutritional, textural, and sensorial properties of final product., Maize bran‐enriched flour is rich source of nutritional and bioactive components. Maize bran‐enriched flour bread has high dietary fibers than wheat flour bread. MB‐enriched flour bread explicated high score of sensorial overall acceptability.

Published
2021
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6. Antioxidant capacity and characteristics of theaflavin catechins and ginger freeze-dried extract as affected by extraction techniques

Author

Rabia Shabir Ahmad, Muhammad Afzaal, Faqir Muhammad Anjum, Usman Ali Naeem, Muhammad Sajid Arshad, Ghulam Hussain, Muhammad Umair Arshad, Ali Ikram, Ali Imran, Hafsah Sherwani, Muhammad Imran, and Farhan Saeed

Subjects
black tea, Nutrition. Foods and food supply, Chemistry, green tea, Extraction (chemistry), food and beverages, hplc, TP368-456, Raw material, Green tea, complex mixtures, theaflavins, Food processing and manufacture, Antioxidant capacity, chemistry.chemical_compound, isolates, Polyphenol, TX341-641, Food science, Theaflavin, Black tea, Food Science
Abstract

The aim of current research was to determine the effect of different extraction techniques on the antioxidant capacity of green tea, black tea and ginger polyphenols. Initially, the raw materials were subjected to compositional analysis. Afterward, the bioactive moieties from all the samples were extracted through ultrasound and conventional solvent extraction method using different solvents (i.e. ethanol, methanol and water). Furthermore, the functional ingredients, namely, catechins and theaflavins were isolated by solvent partition method from green and black tea, respectively. In addition, the extracts and isolates were analyzed for their total phenolic and antioxidant profile using various spectrophotometric assays. For the quantification of theaflavins and catechins, a reverse phase HPLC system was used. Results showed that ultrasound (P > .005) proved more effectual for the extraction and isolation of polyphenols (757.33 mg/100 g GAE) from the tested materials among the other extraction techniques (741.66 mg/100 g GAE). Likewise, green tea showed better performance than the rest and in solvents ethanol performed better as compared to their counter parts. Similarly, the isolates showed higher antioxidant potential as compared to their extracts and order of effectiveness was catechins > theaflavins > Ginger freeze dried extract (GFDE).

Published
2021
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7. Exploring the amino acid profile and microbial properties of locally sweet preserved kachra hareer ( Terminalia chebula )

Author

Haroon Munir, Muhammad Tauseef Sultan, Ali Ikram, Muhammad Afzaal, Aftab Ahmed, Faqir Muhammad Anjum, and Farhan Saeed

Subjects
mineral, vitamin C, lcsh:TX341-641, Phenylalanine, 030226 pharmacology & pharmacy, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, 0302 clinical medicine, Valine, Food science, Original Research, Alanine, chemistry.chemical_classification, Methionine, extractive values, 04 agricultural and veterinary sciences, 040401 food science, Amino acid, Terminalia chebula, chemistry, hareer, amino acid profile, Isoleucine, Leucine, lcsh:Nutrition. Foods and food supply, Food Science
Abstract

The current research was designed to determine the amino acid profile and microbial properties of kachra hareer. For the purpose, kachra hareer was purchased with their brand names coded as S1, S2, S3, and S4 from five towns named as L1, L2, L3, L4, and L5. The samples were analyzed for their amino acid profile and microbial properties, while the water and alcohol extractive values were analyzed to obtain the different levels of purity during processing. The results explained that physicochemical analyses, that is, pH, moisture, acidity, and vitamin C, ranged from 4.67% to 9.44%, 22% to 40%, 0.054% to 1.44%, and 7.67% to 19.36%, respectively. However, essential amino acids histidine, isoleucine, leucine, methionine, phenylalanine, proline, threonine, and valine ranged from 470.3 to 484.5, 516.1 to 527.5, 805.5 to 817.4, 910.1 to 922.5, 240.2 to 250.5, 508.2 to 518.2, 1,160.5 to 1,172.6, 466.9 to 476.3, and 502.5 to 513.4 mg/kg, respectively, whereas nonessential amino acids alanine, arginine, aspartic acid cysteine, glutamic acid, serine, tyrosine, and glycine ranged from 612.7 to 628.2, 1,212.3 to 1,225.9, 7,254.2 to 7,258.8, ND, 1,561.2 to 1,575.2, 634.8 to 648.9, 618.4 to 630.4, and 712.8 to 723.7 mg/kg, respectively. Conclusively, sample S2 showed the maximum nutritional content and minimum microbial load., Different brands of sweet preserved hareer are checked for their microbial load. The nutritional profile of hareer was also checked.

Published
2020
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9. Effect of adding Aloe vera jell on the quality and sensory properties of yogurt

Author

Aftab Ahmed, Syed Qasim Raza, Farhan Saeed, Ali Ikram, Faqir Muhammad Anjum, Haroon Munir, Muhammad Afzaal, and Muhammad Babar Bin Zahid

Subjects
Organoleptic, lcsh:TX341-641, sensory, Aloe vera, nutrition, fat, yogurt, microbiological, chemistry.chemical_compound, 0404 agricultural biotechnology, Food science, Lactose, Original Research, biology, Syneresis, 0402 animal and dairy science, 04 agricultural and veterinary sciences, biology.organism_classification, Total dissolved solids, 040401 food science, 040201 dairy & animal science, chemistry, Milk fat, lcsh:Nutrition. Foods and food supply, Food Science
Abstract

This study was planned to investigate the effect of replacing milk fat with aloe vera gel addition on yogurt quality. Purposely, yogurt was prepared with different concentration of aloe vera gel and coded as AGY0, = Control (3.5% fat and no AG), AGY1 = (1% fat and 1% AG), AGY2 = (1% fat and 2% AG), AGY3 = (1% fat and 3% AG), AGY4 = (2% fat and 1% AG), AGY5 = (2% fat and 2% AG), and AGY6 = (2% fat and 3% AG). Aloe vera gel yogurt was analyzed for physicochemical, microbial, and sensory characteristics with defined interval (0, 7th, 14th, and 21st) days. All attributes of the yogurt were significantly (0.05) affected by the addition of aloe vera gel. Results showed that the pH (4.6–4.05), viscosity (46.4–4.3), WHC (32.8%–26.1%), fat (0.9%–3.48%), protein (3.14%–3.36%), lactose (4.07%–4.23%), ash (0.48%–0.63%), total solids (11.08%–17.18%), SNF (7.69‐l5.21%), and TPC (2.36 × 107 to 1.02 × 107 CFU/ml) values of yogurt samples decreased with storage time. However, acidity and syneresis of yogurt increased with the passage of time ranging from 1.12%–1.67% and 0.9–5 ml, respectively. In conclusion, aloe vera improved the texture of the yogurt which leads to higher consumer acceptability. Addition of 3% aloe vera to 1% fat (AGY3) containing buffalo milk yogurt was found to best for physicochemical as well as organoleptic characteristics as well as organoleptic characteristics., The current research is helpful in broaden the spectrum of aloe vera gel application for the development of fermented product. Aloe vera gel is useful to improve the physicochemical and organoleptic attributes of the yogurt. The experimental work is scientific basis for the stakeholders to utilize for product development at commercial level. The study has wide application for the development of various functional foods.

Published
2020

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