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Browsing by Author "Nujira Rasamipaiboon"

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Effects of different particle size distribution and insoluble dietary fiber content from pomelo by-products on the quality characteristics of rice noodle product
(Journal of Food Health and Bioenvironmental Science, 15(2), 19-25., 2023-09-26) Suwanna Pichaiyongvongdee; Tita Foophow; Nujira Rasamipaiboon; Piyawan Youdee
Rice noodles are a widely consumed food in Asia, including in Thailand. Nevertheless, this popular food is high in carbohydrates, but low in dietary fiber. Pomelo by-products (PBP) are a highly insoluble dietary fiber (IDF) source that has been investigated for fiber-fortified rice noodles with health benefits. This study was conducted to prove the effects of IDF in PBP at different levels (10 and 12.5%) of the rice flour and different particle size distributions (180 and 150 μm) on the moisture content, water activity, cooking weight, cooking loss, textural and sensory evaluation. The addition of IDF-PBP to rice noodles was found to have significant (p<0.05) effects on the colors of a*, b*, while cooking weights were increased in all samples. Cooking loss and tensile strength also decreased as compared to the control. The moisture content and water activity of rice noodles were between 8.66-9.14% and 0.32-0.36, respectively. When considering the addition of IDF-PBP at 10 and 12.5%, the findings revealed that the sample was not significantly different (p>0.05) in the cooking weight. However, when the particle size was reduced, the cooking weight increased. Cooking loss decreased when IDF-PBP was increased, and the particle size was reduced. The texture of the particle size distribution was 180 and 150 μm at levels 10% in tensile strength and showed not significant difference (p>0.05) as compared to the control rice noodles. Rice noodles with 10% IDF-PBP particle size distribution 150 μm showed the highest overall acceptability in sensory evaluation. The results revealed that adding IDF-PBP to rice noodles increased the total dietary fiber content at 9.44% and the insoluble dietary fiber content at 8.71% as compared to the control rice noodles. Based on the results, the addition of IDF-PBP to rice noodles can lead consumers to conclude that the product is healthy.
Effects of Different Particle Size Distribution and Insoluble Dietary Fiber Content from Pomelo by-Products on the Quality Characteristics of Rice Noodle Products
(Research and Development Institute Suan Dusit University, 2022) Suwanna Pichaiyongvongdee; Tita Foophow; Nujira Rasamipaiboon; Piyawan Youdee; S. Pichaiyongvongdee; School of Culinary Arts, Suan Dusit University, Bangkok, 10700, Thailand; email: suwanna_pic@dusit.ac.th
Rice noodles are a widely consumed food in Asia, including in Thailand. Nevertheless, this popular food is high in carbohydrates, but low in dietary fiber. Pomelo by-products (PBP) are a highly insoluble dietary fiber (IDF) source that has been investigated for fiber-fortified rice noodles with health benefits. This study was conducted to prove the effects of IDF in PBP at different levels (10 and 12.5%) of the rice flour and different particle size distributions (180 and 150 _m) on the moisture content, water activity, cooking weight, cooking loss, textural and sensory evaluation. The addition of IDF-PBP to rice noodles was found to have significant (p<0.05) effects on the colors of a*, b*, while cooking weights were increased in all samples. Cooking loss and tensile strength also decreased as compared to the control. The moisture content and water activity of rice noodles were between 8.66-9.14% and 0.32-0.36, respectively. When considering the addition of IDF-PBP at 10 and 12.5%, the findings revealed that the sample was not significantly different (p>0.05) in the cooking weight. However, when the particle size was reduced, the cooking weight increased. Cooking loss decreased when IDF-PBP was increased, and the particle size was reduced. The texture of the particle size distribution was 180 and 150 _m at levels 10% in tensile strength and showed not significant difference (p>0.05) as compared to the control rice noodles. Rice noodles with 10% IDF-PBP particle size distribution 150 _m showed the highest overall acceptability in sensory evaluation. The results revealed that adding IDF-PBP to rice noodles increased the total dietary fiber content at 9.44% and the insoluble dietary fiber content at 8.71% as compared to the control rice noodles. Based on the results, the addition of IDF-PBP to rice noodles can lead consumers to conclude that the product is healthy. © 2022, Research and Development Institute Suan Dusit University. All rights reserved.
Effects of Different Particle Size Distribution and Insoluble Dietary Fiber Content from Pomelo by-Products on the Quality Characteristics of Rice Noodle Products
(Graphicsite, 2023-09-26) Suwanna Pichaiyongvongdee; Tita Foophow; Nujira Rasamipaiboon; Piyawan Youdee
Rice noodles are a widely consumed food in Asia, including in Thailand. Nevertheless, this popular food is high in carbohydrates, but low in dietary fiber. Pomelo by-products (PBP) are a highly insoluble dietary fiber (IDF) source that has been investigated for fiber-fortified rice noodles with health benefits. This study was conducted to prove the effects of IDF in PBP at different levels (10 and 12.5%) of the rice flour and different particle size distributions (180 and 150 μm) on the moisture content, water activity, cooking weight, cooking loss, textural and sensory evaluation. The addition of IDF-PBP to rice noodles was found to have significant (p<0.05) effects on the colors of a*, b*, while cooking weights were increased in all samples. Cooking loss and tensile strength also decreased as compared to the control. The moisture content and water activity of rice noodles were between 8.66-9.14% and 0.32-0.36, respectively. When considering the addition of IDF-PBP at 10 and 12.5%, the findings revealed that the sample was not significantly different (p>0.05) in the cooking weight. However, when the particle size was reduced, the cooking weight increased. Cooking loss decreased when IDF-PBP was increased, and the particle size was reduced. The texture of the particle size distribution was 180 and 150 μm at levels 10% in tensile strength and showed not significant difference (p>0.05) as compared to the control rice noodles. Rice noodles with 10% IDF-PBP particle size distribution 150 μm showed the highest overall acceptability in sensory evaluation. The results revealed that adding IDF-PBP to rice noodles increased the total dietary fiber content at 9.44% and the insoluble dietary fiber content at 8.71% as compared to the control rice noodles. Based on the results, the addition of IDF-PBP to rice noodles can lead consumers to conclude that the product is healthy.
Evaluation of Extraction Methods of Dietary Fiber from Pomelo Juice Byproducts and Particle Size Distribution on the Physicochemical and Functional Properties
(Research and Development Institute Suan Dusit University, 2021) Suwanna Pichaiyongvongdee; Tita Foophow; Piyawan Yoodee; Nujira Rasamipaiboon; S. Pichaiyongvongdee; School of Culinary Arts, Suan Dusit University, Bangkok, 10700, Thailand; email: suwanna_pic@dusit.ac.th
Pomelo (Citrus grandis (L.) Osbeck) is the largest citrus fruit in Thailand, which pomelo juice is commercially produced during the pomelo juice extraction process. After extraction of the juice, the number of by-products that was produced could be a potential source of functional dietary fiber.The objective of this study was to evaluate extraction methods of dietary fiber from pomelo juice byproducts for functional foods and particle size distribution (150, 180, 250 and 425 _m) by pomelo pulp powder (PPP) that was prepared by simply air drying, milling, sieving and grinding. For pomelo pulp dietary fiber powder (PPDFP), the PPP was treated with NaOH and ethanol to remove protein and fat, respectively. After that, analysis of physicochemical and functional properties of PPP and PPDFP found that the PPDFP was richer in total dietary fiber (92.04%), especially insoluble dietary fiber (91.93%). Water holding capacity (WHC) and oil holding capacity (OHC) of PPDFP were higher than those of PPP. Components that can contribute to the bitter flavor of the powders, limonin, naringin and naringenin were considerably reduced in PPDFP, particularly limonin was totally eliminated. Also, the porous structure of PPDFP may facilitate its use in food processing compared to the more sheet-like structure of PPP. The optimum particle size was 150 _m that resulted in powders with increased WHC and OHC. From the above data, it was concluded that the PPDFP was a good source for food dietary fibers that could be used as a functional ingredient in fiber rich food products. © 2021, Research and Development Institute Suan Dusit University. All rights reserved.
Evaluation of Extraction Methods of Dietary Fiber from Pomelo Juice Byproducts and Particle Size Distribution on the Physicochemical and Functional Properties
(Journal of Food Health and Bioenvironmental Science, 14(2), 20-27., 2023-09-26) Suwanna Pichaiyongvongdee; Tita Foophow; Piyawan Yoodee; Nujira Rasamipaiboon
Pomelo (Citrus grandis (L.) Osbeck) is the largest citrus fruit in Thailand, which pomelo juice is commercially produced during the pomelo juice extraction process. After extraction of the juice, the number of by-products that was produced could be a potential source of functional dietary fiber.The objective of this study was to evaluate extraction methods of dietary fiber from pomelo juice byproducts for functional foods and particle size distribution (150, 180, 250 and 425 μm) by pomelo pulp powder (PPP) that was prepared by simply air drying, milling, sieving and grinding. For pomelo pulp dietary fiber powder (PPDFP), the PPP was treated with NaOH and ethanol to remove protein and fat, respectively. After that, analysis of physicochemical and functional properties of PPP and PPDFP found that the PPDFP was richer in total dietary fiber (92.04%), especially insoluble dietary fiber (91.93%). Water holding capacity (WHC) and oil holding capacity (OHC) of PPDFP were higher than those of PPP. Components that can contribute to the bitter flavor of the powders, limonin, naringin and naringenin were considerably reduced in PPDFP, particularly limonin was totally eliminated. Also, the porous structure of PPDFP may facilitate its use in food processing compared to the more sheet-like structure of PPP. The optimum particle size was 150 μm that resulted in powders with increased WHC and OHC. From the above data, it was concluded that the PPDFP was a good source for food dietary fibers that could be used as a functional ingredient in fiber rich food products.
Evaluation of Extraction Methods of Dietary Fiber from Pomelo Juice Byproducts and Particle Size Distribution on the Physicochemical and Functional Properties
(Graphicsite, 2023-09-26) Suwanna Pichaiyongvongdee; Tita Foophow; Piyawan Yoodee; Nujira Rasamipaiboon
Pomelo (Citrus grandis (L.) Osbeck) is the largest citrus fruit in Thailand, which pomelo juice is commercially produced during the pomelo juice extraction process. After extraction of the juice, the number of by-products that was produced could be a potential source of functional dietary fiber.The objective of this study was to evaluate extraction methods of dietary fiber from pomelo juice byproducts for functional foods and particle size distribution (150, 180, 250 and 425 μm) by pomelo pulp powder (PPP) that was prepared by simply air drying, milling, sieving and grinding. For pomelo pulp dietary fiber powder (PPDFP), the PPP was treated with NaOH and ethanol to remove protein and fat, respectively. After that, analysis of physicochemical and functional properties of PPP and PPDFP found that the PPDFP was richer in total dietary fiber (92.04%), especially insoluble dietary fiber (91.93%). Water holding capacity (WHC) and oil holding capacity (OHC) of PPDFP were higher than those of PPP. Components that can contribute to the bitter flavor of the powders, limonin, naringin and naringenin were considerably reduced in PPDFP, particularly limonin was totally eliminated. Also, the porous structure of PPDFP may facilitate its use in food processing compared to the more sheet-like structure of PPP. The optimum particle size was 150 μm that resulted in powders with increased WHC and OHC. From the above data, it was concluded that the PPDFP was a good source for food dietary fibers that could be used as a functional ingredient in fiber rich food products.
PRE-TREATMENT OF VEGETABLES AND FORMULA DEVELOPMENT OF CALCIUM-FORTIFIED VEGETABLE CRISPY WAFFLES WITH RICEBERRY USING A MIXTURE DESIGN
(Slovak University of Agriculture, 2023) Suwanna Pichaiyongvongdee; Boonyakrit Rattanapun; Piyawon Youdee; Nujira Rasamipaiboon; Tanikan Nubwande; S. Pichaiyongvongdee; Suan Dusit University, School of Culinary, Department of Food Technology, Bangkok, Nakhon Ratchasima Rd, Dusit District, 10300, Thailand; email: suwanna_pic@dusit.ac.th
Crispy waffles are popular snacks typically containing wheat flour, sugar, and oil. Excessive consumption may be unhealthy. This study aimed to produce healthier crispy waffles using vegetables, specifically Chinese kale (CK), False Pak Choi (FPC), and Thai basil (TB), as sources of calcium. These vegetables underwent three pre-treatments: blanching, steaming, and stir-frying. The study then focused on the formulation of calcium-fortified crispy vegetable waffles with riceberry (CVWR) using a mixture design experiment. Calcium content in TB, FPC, and CK was found to be 313.96, 309.88, and 246.15 mg/100g, respectively. Pre-treatment results revealed that steaming resulted in the least reduction of calcium content, while stir-frying caused the least reduction of total chlorophyll and total polyphenol contents. The proportions of the crispy waffles components were 0-30%CK, 0-30% FPC, 0-30%TB, and 70% riceberry. The physical quality of CVWR, considering crispness and calcium content, was determined using a linear regression equation. The analysis showed that CVWR with TB as the primary component had the highest calcium content and crispness, followed by FPC and CK, respectively. In terms of sensory characteristics, FPC had the highest fracture coefficient, followed by TB and CK, respectively. The optimal formulation, determined by overlapping diagrams, consisted of 14.88% FPC, 13.11% TB, 2.01% CK, and 70% riceberry. The resulting CVWR contained 286.19 mg/100g calcium and was a source of total dietary fiber and anthocyanin. Consequently, CVWR offers a healthier, high-nutritional-value snack option suitable for health-conscious consumers. © (2023), (Slovak University of Agriculture). All Rights Reserved.
Pre-Treatment of vegetables and formula development of calcium-fortified vegetable crispy waffles with riceberry using a mixture design. Journal of Microbiology
(Journal of Microbiology, Biotechnology and Food Sciences, 13(2)e9825., 2023-06-14) Boonyakrit Rattanapun; Piyawon Youdee; Nujira Rasamipaiboon; Tanikan Nubwande
Crispy waffles are popular snacks typically containing wheat flour, sugar, and oil. Excessive consumption may be unhealthy. This study aimed to produce healthier crispy waffles using vegetables, specifically Chinese kale (CK), False Pak Choi (FPC), and Thai basil (TB), as sources of calcium. These vegetables underwent three pre-treatments: blanching, steaming, and stir-frying. The study then focused on the formulation of calcium-fortified crispy vegetable waffles with riceberry (CVWR) using a mixture design experiment. Calcium content in TB, FPC, and CK was found to be 313.96, 309.88, and 246.15 mg/100g, respectively. Pre-treatment results revealed that steaming resulted in the least reduction of calcium content, while stir-frying caused the least reduction of total chlorophyll and total polyphenol contents. The proportions of the crispy waffles components were 0-30%CK, 0-30% FPC, 0-30%TB, and 70% riceberry. The physical quality of CVWR, considering crispness and calcium content, was determined using a linear regression equation. The analysis showed that CVWR with TB as the primary component had the highest calcium content and crispness, followed by FPC and CK, respectively. In terms of sensory characteristics, FPC had the highest fracture coefficient, followed by TB and CK, respectively. The optimal formulation, determined by overlapping diagrams, consisted of 14.88% FPC, 13.11% TB, 2.01% CK, and 70% riceberry. The resulting CVWR contained 286.19 mg/100g calcium and was a source of total dietary fiber and anthocyanin. Consequently, CVWR offers a healthier, high-nutritional-value snack option suitable for health-conscious consumers.

Browsing by Author "Nujira Rasamipaiboon"

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