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Unleavened flat bread (chapatis and rotis) is staple food of the Pakistani population. Almost 90 per cent of wheat produced in the country is used for chapatis and roti preparation. Present study was carried out to prepare composite flour, assess suitable level of composition. The main aim was to increase the mineral content of the diet, as they are deficient in the diet of the Pakistani people as for other developing countries.

Composite flours were prepared by replacing wheat flour with 8, 16, 24, 32 and 40 per cent soy flour. Composite flour and chapatis were analysed for mineral and phytate contents. Sensory evaluation (color, flavor, taste, texture, folding ability and chewing ability) of chapatis was also carried out to assess acceptance of suitable level by the consumers.

The statistical analysis of data obtained showed significant increase in minerals (Fe, Zn, Cu, Mn, Ca and Mg) and phytic acid content of flour. Significant decrease in phytate was found during the baking of chapatis. Chapatis were found acceptable by the panel of judges up to 24 per cent supplementation of soy flour. To combat mineral deficiency in developing countries composite flour technology can use as replacement of mineral salts fortification. As in case of composite flour natural source of nutrient are used.

Soy supplementation of wheat flour can be successfully done through flourmills and small‐scale grinders as it causes no problem in milling operations.

The research carried out is one of outstanding type as no such research was done earlier. Phytate besides minerals was also given due consideration in same study which is one of chelating agent found in plant source of minerals.

Due to the increased consumption of fast foods in India, especially among the youngsters, obesity and related health ailments have become a serious concern. Fast foods provide empty calories which calls for an urgent need to improvise their nutritional value rendering them “nutrient dense”. The purpose of this research was development and nutritional evaluation of baked products incorporated with partially defatted peanut flour.

Three baked products, namely, pizza base, buns and bread were developed using standardized recipes with different levels of incorporation of defatted peanut meal flour. These products were organoleptically evaluated by a trained panel of ten judges using nine-point hedonic scale. The selected samples of each product were nutritionally evaluated for proximate composition and mineral content along with their respective control samples.

Results from sensory evaluation revealed that pizza base, buns and bread were most acceptable at 10, 10 and 15 per cent level of incorporation of partially defatted peanut flour, respectively. The developed products were found to have high protein, crude fiber, calcium and iron, i.e. 11.5-12.4 per cent, 1.4-1.8 per cent, 19.2-20.4 mg/100 g, 1.8-2.3 mg/100 g content, respectively. p-values for the same were also calculated.

Keeping in view the nutritional benefits of peanut flour and trending consumption of bakery products among children and other age groups, these products can be commercialized to improve the nutritional value of empty calorie baked products as these products are consumed very frequently. Defatted peanut meal although being nutrient rich has generally been used as animal feed or is discarded as waste. The role of this meal in the human diet has not been explored to the best.

The present study was designed to enhance the nutritional and calorific value of food without affecting quality of final product with the use of emulsifiers. Lysine contents in potatoes are similar to animal protein and its flour can be utilized to overcome protein and calorie malnutrition.

Composite flours were prepared by substituting wheat flour with potato flour at 20 per cent, with guar gum 3 per cent and GMS at 0, 0.2, 0.4, 0.6, 0.8 and 1.0. The blends were subject to proximate analysis and calorific value determination. Naan prepared from composite flours were evaluated by panel of judges to access suitable level of supplementation.

Statistical analysis revealed significant decrease in moisture, protein, crude fiber while increase in the fat content of composite flour. Replacement of wheat flour by potato flour has non significant effect on the ash and carbohydrates contents nitrogen free extract (NFE). Moisture, protein and fat contents decreased significantly with the passage of time during storage while crude fiber, ash content and NFE were found to be non‐significantly affected by duration of storage. Potato flour at 20 per cent level of substitution along with 3 per cent guar gum and 0.6 per cent GMS was found to be acceptable by panel of judges having maximum acceptability of naan.

Potato flour supplementation can be done through roller flour mills or small scale grinders (chakki) to enhance the value of flour to be used by masses in order to overcome the protein malnutrition as quantity of potato flour protein is comparable to animal protein.

Presently potatoes are consumed as vegetable and during peak season processed into flour, starch and dried products. Potato flour is rarely used for the production of baked products in Pakistan. Potatoes are rich in starch, vitamin B₁, and vitamin B₂, ash content, fiber content and essential amino acids as compared to cereals. Thus potato flour can utilized to improve the energy status of masses. Research conducted was unique in its nature as effect of both storage periods was evaluated and the suitable levels of replacement of potato flour were investigated.

To develop the biscuit from pearl millet flour prepared from pearl millet grains subjected to processing treatment, i.e. blanching and malting. Purpose was also to analyze the developed biscuit for nutritional evaluation.

Pearl millet is under utilized crop and its consumption is limited to low‐income group in the forms of chapatti, dalia, rabari, etc. However, when pearl millet grain was subjected to processing treatment, i.e. blanching and malting (methods are given in research paper), it helped to reduce the anti‐nutrients, rancidity and bitterness in the flour. After that, this processed flour was incorporated in biscuit to increase the consumption in human beings. Biscuit was also developed in combination with soybean flour to improve the protein quality, as pearl millet is deficient in lysine whereas soybean flour is rich in lysine.

The research revealed that all types of biscuit were organoleptically acceptable, with good mineral profile and low amount of anti‐nutrients. However, biscuit prepared from blanched flour had high calcium, phosphorus, iron and manganese content as compared to that prepared from malted flour. Low anti‐nutrient content and high in vitro digestibility were observed in biscuit prepared from blanched flour. Addition of soybean flour to biscuit also helps to increase the mineral profile as compared to that prepared without incorporation of soybean flour.

Utilization of processed pearl millet for product development was scanty. Work on blanching technique for product development and its comparison with product developed from malted flour was very less. The results indicate that processing method will help in lowering the amount of anti‐nutrients and lead to improvement in protein and starch digestibility. This research paper is valuable for processing industries, scientists and general public.

Unleavened bread (chapatti and roti) is the staple diet of people in the Indo‐Pak region, utilizing almost 90 percent of the wheat produced in the region. To improve the nutrition of chapattis, normally legume flour is used in the region. The purpose of the current study is to assess the nutritional quality and safety of chapattis supplemented with soy flour.

Wheat and soybean were procured and soy flour was prepared. Trypsin inhibitor contents and mineral contents of different flour and chapattis prepared were determined. Chapattis were prepared from different flour blends and whole wheat flour. To assess the quality and acceptability, the chapattis were presented to a panel of judges and the sensory evaluation was carried out for color, taste, aroma, chew ability, folding ability and overall acceptability characteristics. The data obtained for each parameter were subjected to statistical analysis to determine the level of significance.

The phytic acid and trypsin content were higher in un‐autoclaved soy flour supplement composite flour. The defattening of soy flour also increases the level of these anti‐nutrients in chapattis. The phytate and trypsin content of composite flour decreased as a result of baking. The protein, fiber and ash contents of composite flour increased while moisture content and nitrogen free extracts (NFE) decreased by the addition of soy flour. Mineral contents of chapattis except Mn increased by the incorporation of soy flour. The chapattis were found acceptable by the panel of judges at 10 percent replacement level of whole wheat flour by soy flour.

The results of the study indicate that 10 percent supplementation of soy flour in wheat flour was found acceptable by consumers as it did not affect the sensory attribute. For improved nutrition and to combat protein energy malnutrition, chapattis flour can be supplemented with soy flour.

The soy supplementation of wheat flour will improve the nutritional quality of the chapatti flour as soy flour is rich in high‐quality protein and mineral. The anti‐nutritional can be minimized or inactivated by autoclaving the soybean.

Brown flour was developed by incorporating different proportions of wheat bran, i.e. 0, 5, 10, 15 and 20 percent into the residual flour (milling by‐product of pizza flour). Each treatment of brown flour, wheat bran and whole wheat flour was subjected for proximate composition and iron content. The highest iron content was observed in wheat bran i.e. 64.6mg/kg whereas iron content in different treatments of brown flour ranged from 16.8 to 29.2mg/kg. Phytic acid content ranged from 0.72 to 1.09g/100g in different flour treatments. Chapatties prepared from the respective flour samples were further evaluated for various chemical and sensory attributes. The brown flour prepared by the addition of 10 percent bran showed better performance and was quite comparable with whole wheat flour regarding the proximate and sensory attributes like color, flavor, texture, taste, folding ability, chewing ability and appearance. Moreover, the same sample (T₃) had better iron content than whole wheat flour. Chapatties prepared with brown flour containing 10 percent followed by 15 percent bran were of best quality and quite comparable with chapatties prepared from whole wheat flour.

The unleavened bread called chapatis in vernacular language is the staple food of the majority of North Indians, which is generally prepared from wheat flour. However, wheat flour contains 8‐12 per cent protein and is limited in essential amino acid, so supplementation of partially defatted soy dhal, sorghum, rice, maize and pearl millet will help to improve the nutritional value of chapatis. This paper seeks to address this issue.

Wheat flour was supplemented with salt‐treated partially defatted soy dhal, sorghum, rice, maize and pearl millet (50:10:10:10:10:10). Different salt treatments were given to soy dhal so as to remove its typical beany flavour. Different flours were mixed with water to form dough followed by preparation of chapati on flat iron plates. These were further evaluated organoleptically by the panel of judges. On the basis of organoleptic evaluation the best combination was used for nutritional evaluation.

Organoleptic evaluation of developed chapatis indicated that they were acceptable in terms of various sensory parameters. Nutritional evaluation of unprocessed composite flour, wheat flour chapatis and composite flour chapatis revealed a significant increase in moisture and protein content and non‐significant difference in ash and crude fibre contents of composite flour chapatis when compared with unprocessed composite flour and wheat flour chapatis. Various processing methods, namely dough making and roasting involved in chapati making, significantly (p<0.05) reduced the phytic (11 per cent) and polyphenol (64 per cent) content of the developed chapati compared with unprocessed composite flour. As a result the protein and starch digestibility of the developed chapati was improved over the unprocessed composite flour.

Further research is needed regarding the amino acid profile of the developed chapati.

Wheat flour should be supplemented with different cereals so as to improve the nutritional value.

The paper has significance in terms of improving the nutritional quality of the chapati without any extra input of time and energy.

The purpose of this study is to determine the viability of Lacticaseibacillus rhamnosus GR-1 (L. rhamnosus GR-1) in five yogurt samples with or without quinoa, chickpea, soybean and rice flour over various fermentation periods and refrigerated storage durations, with a focus on exploring the potential of functional foods, which provide health benefits beyond nutritional value. Additionally, the study aimed to evaluate consumer acceptance of yogurt fortified with functional flour. Using a nine-point hedonic scale, from 1 (dislike extremely) to 9 (like extremely), participants rated appearance, flavour, texture and overall acceptability.

The samples were inoculated with the probiotic strain L. rhamnosus GR-1 and fermented for 0, 2, 4 and 6 h at 38°C, followed by refrigerated storage at 4°C for 1, 15 and 30 days, respectively. Microbial enumeration was performed throughout fermentation and storage to assess the viability of L. rhamnosus GR-1. A sensory evaluation involving 86 participants was conducted to assess the consumer acceptability of the yogurt samples.

Notably, L. rhamnosus GR-1 achieved viable counts of 108 colony-forming units per mL in all treatments at all fermentation time points. Over the 30-day storage period, no statistically significant differences (p < 0.05) in average pH values were observed among the five treatments, and within each treatment, pH levels remained stable, with an overall mean of 4.2 ± 0.64. Treatment 4, which featured rice flour fortification, received higher hedonic scores from sensory panellists in terms of appearance, flavour, texture and overall acceptability. These findings indicate that incorporating functional flours in conjunction with cow’s milk effectively promotes and preserves the viability of L. rhamnosus GR-1 in yogurt.

Exploring the potential of probiotic yogurt enriched with diverse functional flours to enhance nutritional content and health benefits as well as attract new consumers, this study addressed a critical gap in understanding consumer perceptions and generated insights for creating innovative and health-promoting dairy products.

The major objective of this research work was to evaluate various physico-chemical characteristics, such as, chemical composition, antioxidant capacity, objective color and texture profile analysis (TPA) of the wheat flour/chickpea flour (CF) blends, so that nutritious baked products could be consumed by the type-2 diabetic persons.

Wholegrain wheat flour (WGF) and white wheat flour (WWF) were substituted with CF at 0 to 40% levels. These wheat flour/CF blends were analyzed for proximate composition, the prepared dough and baked breads were tested for objective color, antioxidant capacity as trolox equivalent antioxidant capacity (TEAC), malondialdehyde (MDA) and total phenolic content (TPC) and TPA.

WGF had the highest TEAC (117.42 mM/100g) value, followed by WWF (73.98 mM/100g) and CF (60.67 mM/100g). TEAC, MDA and TPC values varied significantly among all the three flour samples.

Inclusion of whole chickpea (without dehulling) flour in such type of blends would be another interesting investigation during the future research studies.

These research findings have a great potential for the production of these baked products for human consumption on an industrial scale.

Production of breads using wheat flour and CF blends would benefits the consumers.

Production of Arabic and pan breads using wheat flour and CF blends would, therefore, combine the benefits of both the needed proteins of plant origin and the health-promoting bioactive compounds, in a most sustainable way for the consumers.

The purpose of this study is to evaluate the quality and sensory properties of cookies produced from wheat flour using avocado puree as fat substitute.

Cookies were produced from wheat flour using avocado puree as fat substitute in ratio 0%, 25%, 50%, 75% and 100%, respectively. The formulation of margarine and avocado puree blends was done by using D-Optimal Mixture Design. In all, 20 samples were produced from each substitution level and analyses were done in triplicates to obtain mean values using standard methods. Means were separated by Duncan’s multiple range test, and significances were accepted at less than 5% confidence level (p < 0.05). Proximate and functional analyses were conducted on the flour samples, while cookie samples were subjected to proximate and sensory analyses.

The results of this study revealed that the values of loose bulk density, packed bulk density, oil absorption density, water absorption capacity, swelling power, solubility and dispersibility of the flours at p < 0.05 are 0.3–0.4 g/ml, 0.5–0.7 g/ml, 16.9%–94.0%, 39.7%–80.6%, 461.2%–618.2%, 6.0%–29.8% and 69.0%–82.8%, respectively. The moisture, protein, fat, total dietary fiber, total ash and carbohydrate contents of the cookies at p < 0.05 are 3.6%–16.7%, 6.5%–9.9%, 2.5%–19.2%, 1.7%–1.9%, 1.1%–3.0% and 65.0%–70.7%, respectively. The taste, color, crispiness, texture and overall acceptability of the cookies at p < 0.05 are 7.4–7.8, 6.9–7.5, 7.2–7.9, 7.3–7.7 and 7.4–8.3, respectively. The sensory scores showed that panelists preferred the taste, crispiness and texture of the cookies produced from wheat flour using avocado puree as fat substitute at varying proportion. The sensory characteristics of sample WF⁴ (100% avocado puree) were rated overall best in all the parameters tested followed by sample WF³ (75% avocado puree). Hence, this study established the possibility of producing cookies from wheat flour using avocado puree as fat substitute without a negative impact on the sensory characteristics and the consumers’ acceptability.

The cookies produced from this study are not meant for vegetarians because eggs were added in the formulations and recipes but could be valuable to ovo-vegetarians that may take food with eggs without restriction. The major challenge of this study was that avocados are very expensive in much of the world, so this is only suitable and viable where there is an excess of the fruit.

This study examined the use of avocado puree as fat substitute in cookie production. Effects of avocado puree on proximate composition and functionality of cookies produced from wheat flour were also determined. This approach was novel, and it will encourage the use of avocado for value-added in industrial food production.