DSpace Repository :: Browsing by Author "Kankanit Jongrattanavit"

Browsing by Author "Kankanit Jongrattanavit"

Now showing 1 - 10 of 10

Effects of Anaerobic Germination and Enzymatic Saccharification on Chemical Compositions of Functional Drink from Riceberry Rice
(Journal of Current Science and Technology Vol. 14 No. 1 (2024): January - April, 2023-12-06) Pitchaya Pothinuch; Kankanit Jongrattanavit; Kingamol Leelajaluwan; Nattapong Prichapan
Anaerobic germination and enzymatic saccharification significantly affected the chemical compositions of riceberry rice-based functional drink. Anaerobic germination significantly affected the moisture and carbohydrate contents in germinated riceberry rice (GRR), whereas the contents of crude protein, crude fat, ash and crude fiber were not changed significantly. During anaerobic germination, production of ATP was limited; therefore, the enzyme activity in the seed could be delayed in order to conserve the nutrients. With increasing germination time, gamma-aminobutyric acid (GABA) increased, reaching a maximum percentage of 58.6% in 96-hour GRR but total phenolics and total anthocyanins significantly decreased with a loss percentage of 26.5% and 44.4%, respectively. Enzymatic saccharification using a-amylase and a-glucoamylase significantly increased sugar (total sugar, reducing sugar and glucose) contents in GRR extract, depending on incubation duration of both enzymes. The 0.5 hour-incubation with a-amylase in combination with the 12 hours-incubation with a-glucoamylase was the condition under which the extract contained the highest amount of reducing sugar (22.5 g/L), glucose (11.1 g/L) and total phenolics (22.5 g gallic acid equivalent/L). As the result, anaerobic germination in combination with enzymatic saccharification might be applied as a green process for the production of a functional drink from riceberry rice.
Effects of Anaerobic Germination and Enzymatic Saccharification on Chemical Compositions of Functional Drink from Riceberry Rice
(Rangsit University, 2024) Pitchaya Pothinuch; Kankanit Jongrattanavit; Kingkamol Leelajaruwan; Nattapong Prichapan; P. Pothinuch; Faculty of Food Technology, Rangsit University, Pathum Thani, 12000, Thailand; email: pitchaya.p@rsu.ac.th
Anaerobic germination and enzymatic saccharification significantly affected the chemical compositions of riceberry rice-based functional drink. Anaerobic germination significantly affected the moisture and carbohydrate contents in germinated riceberry rice (GRR), whereas the contents of crude protein, crude fat, ash and crude fiber were not changed significantly. During anaerobic germination, production of ATP was limited; therefore, the enzyme activity in the seed could be delayed in order to conserve the nutrients. With increasing germination time, gamma-aminobutyric acid (GABA) increased, reaching a maximum percentage of 58.6% in 96-hour GRR but total phenolics and total anthocyanins significantly decreased with a loss percentage of 26.5% and 44.4%, respectively. Enzymatic saccharification using _-amylase and _-glucoamylase significantly increased sugar (total sugar, reducing sugar and glucose) contents in GRR extract, depending on incubation duration of both enzymes. The 0.5 hour-incubation with _-amylase in combination with the 12 hours-incubation with _-glucoamylase was the condition under which the extract contained the highest amount of reducing sugar (22.5 g/L), glucose (11.1 g/L) and total phenolics (22.5 g gallic acid equivalent/L). As the result, anaerobic germination in combination with enzymatic saccharification might be applied as a green process for the production of a functional drink from riceberry rice. © 2018-2024, Rangsit University.
From Parental Preferences to Product Design: Factors Shaping Nutritional Finger Foods for Early Childhood
(Journal of Heath and Biotechnology 17(3): 8-18, 2024-11-13) Natchanok Nukit; Kankanit Jongrattanavit; Panyapathk Pinkaew
This study explores the decision-making process of parents when purchasing healthy snacks for early childhood, emphasizing the need for snacks with complete nutritional benefits tailored to age, gender, and developmental stage. Insights from 371 parents at La-or Utis Demonstration and Wat Intharam Schools in Bangkok, Thailand, revealed that the three main factors influencing their snack-purchasing decisions were nutrition, taste, and safety. In response, high-nutritional-value finger food (snack) formulations were developed, including: 1) a high-calcium formula, 2) an Omega-3 formula, and 3) a probiotic formula, using nutrient-dense ingredients such as brown rice flour (Aromatic Suphanburi), high-calcium milk powder, cheese powder, canola oil (for Omega-3), and Bacillus coagulans (for probiotics). The physico-chemical properties of all extruded snack samples were evaluated and compared to a control. Results indicated no significant differences in color (L*, a*, b*), expansion ratio, and water activity (aw) among the fortified formulas and the control (p>0.05). However, significant differences were observed in inner and outer diameters, hardness, fracturability, moisture content, crude fat, protein, fiber, ash, total carbohydrates, and calcium levels (p≤0.05). Notably, the calcium-enriched formula could be labeled as a “good source of calcium,” while the Omega-3 and probiotic formulas showed enhanced levels of Omega-3 (5.03 g) and Bacillus coagulans viability (1.7 x 108 CFU/g), respectively.
From Parental Preferences to Product Design: Factors Shaping Nutritional Finger Foods for Early Childhood
(Research and Development Institute Suan Dusit University, 2024) Natchanok Nukit; Kankanit Jongrattanavit; Panyapathk Pinkeaw; P. Pinkeaw; School of Culinary Arts, Suan Dusit University, Bangkok, 10300, Thailand; email: panyapathk_pin@dusit.ac.th
This study explores the decision-making process of parents when purchasing healthy snacks for early childhood, emphasizing the need for snacks with complete nutritional benefits tailored to age, gender, and developmental stage. Insights from 371 parents at La-orutis Demonstration and Wat Amarindraram Schools in Bangkok, Thailand, revealed that the three main factors influencing their snack-purchasing decisions were nutrition, taste, and safety. In response, high-nutritional-value finger food (snack) formulations were developed, including: 1) a high-calcium formula, 2) an Omega-3 formula, and 3) a probiotic formula, using nutrient-dense ingredients such as brown rice flour (Aromatic Suphanburi), high-calcium milk powder, cheese powder, canola oil (for Omega-3), and Bacillus coagulans (for probiotics). The physico-chemical properties of all extruded snack samples were evaluated and compared to a control. Results indicated no significant differences in color (L*, a*, b*), expansion ratio, and water activity (aw) among the fortified formulas and the control (p>0.05). However, significant differences were observed in inner and outer diameters, hardness, fracturability, moisture content, crude fat, protein, fiber, ash, total carbohydrates, and calcium levels (p²0.05). Notably, the calcium-enriched formula could be labeled as a Ògood source of calcium,Ó while the Omega-3 and probiotic formulas showed enhanced levels of Omega-3 (5.03 g) and Bacillus coagulans viability (1.7 x 108 CFU/g), respectively. © 2024, Research and Development Institute Suan Dusit University. All rights reserved.
From Parental Preferences to Product Design: Factors Shaping Nutritional Finger Foods for Early Childhood
(Graphicsite, 2024-11-13) Natchanok Nukit; Kankanit Jongrattanavit; Panyapathk Pinkaew
This study explores the decision-making process of parents when purchasing healthy snacks for early childhood, emphasizing the need for snacks with complete nutritional benefits tailored to age, gender, and developmental stage. Insights from 371 parents at La-or Utis Demonstration and Wat Intharam Schools in Bangkok, Thailand, revealed that the three main factors influencing their snack-purchasing decisions were nutrition, taste, and safety. In response, high-nutritional-value finger food (snack) formulations were developed, including: 1) a high-calcium formula, 2) an Omega-3 formula, and 3) a probiotic formula, using nutrient-dense ingredients such as brown rice flour (Aromatic Suphanburi), high-calcium milk powder, cheese powder, canola oil (for Omega-3), and Bacillus coagulans (for probiotics). The physico-chemical properties of all extruded snack samples were evaluated and compared to a control. Results indicated no significant differences in color (L*, a*, b*), expansion ratio, and water activity (aw) among the fortified formulas and the control (p>0.05). However, significant differences were observed in inner and outer diameters, hardness, fracturability, moisture content, crude fat, protein, fiber, ash, total carbohydrates, and calcium levels (p≤0.05). Notably, the calcium-enriched formula could be labeled as a “good source of calcium,” while the Omega-3 and probiotic formulas showed enhanced levels of Omega-3 (5.03 g) and Bacillus coagulans viability (1.7 x 108 CFU/g), respectively.
Product Development of Germinated Black Glutinous Rice Drink in a Sachet as Affected by Roasting and Brewing Time
(Research and Development Institute Suan Dusit University, 2021) Kankanit Jongrattanavit; Pitchaya Pothinuch; Suwanna Pichaiyongvongdee; Natchanok Nukit; Naraet Bangsiri; K. Jongrattanavit; School of Culinary Art, Suan Dusit University, Bangkok, 10300, Thailand; email: Kankanit_jon@dusit.ac.th
Germinated black glutinous rice (GBGR) drink in a sachet was developed. The effects of roasting time (0, 5, 10 and 15 min) and brewing time (3, 5, 7, 10 and 15 min) on color, chemical compositions and antioxidant capacity were investigated. Prolonged roasting time increased L*, positive b*, C* and h¡ values, whereas decreased positive a* value, resulting in lighter color. Ash and carbohydrate contents were higher when longer roasting time was applied; however, aw, moisture and protein contents were lower. GABA contents (61.04 mg/kg) retained in GBGR with 5 min-roasting time. Fat, crude fibers, total phenolic (TPC), total anthocyanin (TAC) contents and DPPH scavenging capacity did not significant change according to roasting time. Regarding brewing time with water at 98¡C, L* and h¡ values of GBGR drink decreased. Higher TPC, TAC and DPPH scavenging capacity of GBGR drink were induced by using short brewing time 3-5 min). Therefore, roasting and brewing time of 5 and 3 min, respectively, were recommended for healthy drink production from GBGR. GABA concentration of 0.17 mg/150 mL was detected in finished product. For consumer acceptability test, GBGR drink was liked moderately and 77% of consumers would like to buy the product. Physical, chemical and microbial changes of the product prototype during storage time of 98 days were accepted following the Thai agricultural standard TAS 4404-2012 Good manufacturing practices for germinated brown rice standard. © 2021, Research and Development Institute Suan Dusit University. All rights reserved.
Product Development of Germinated Black Glutinous Rice Drink in a Sachet as Affected by Roasting and Brewing Time
(Graphicsite, 2023-09-26) Kankanit Jongrattanavit; Pitchaya Pothinuch; Suwanna Pichaiyongvongdee; Natchanok Nukit; Naraet Bangsiri
Germinated black glutinous rice (GBGR) drink in a sachet was developed. The effects of roasting time (0, 5, 10 and 15 min) and brewing time (3, 5, 7, 10 and 15 min) on color, chemical compositions and antioxidant capacity were investigated. Prolonged roasting time increased L*, positive b*, C* and h° values, whereas decreased positive a* value, resulting in lighter color. Ash and carbohydrate contents were higher when longer roasting time was applied; however, aw, moisture and protein contents were lower. GABA contents (61.04 mg/kg) retained in GBGR with 5 min-roasting time. Fat, crude fibers, total phenolic (TPC), total anthocyanin (TAC) contents and DPPH scavenging capacity did not significant change according to roasting time. Regarding brewing time with water at 98°C, L* and h° values of GBGR drink decreased. Higher TPC, TAC and DPPH scavenging capacity of GBGR drink were induced by using short brewing time 3-5 min). Therefore, roasting and brewing time of 5 and 3 min, respectively, were recommended for healthy drink production from GBGR. GABA concentration of 0.17 mg/150 mL was detected in finished product. For consumer acceptability test, GBGR drink was liked moderately and 77% of consumers would like to buy the product. Physical, chemical and microbial changes of the product prototype during storage time of 98 days were accepted following the Thai agricultural standard TAS 4404-2012 Good manufacturing practices for germinated brown rice standard.
Utilization of Banana Blossom Sheaths with Different Skin Colors as Raw Materials for Healthy Pasteurized Banana Blossom Juice Production
(Journal of Food Health and Bioenvironmental Science (May - August 2024), 17(2): 1-9, 2024-06-24) Kankanit Jongrattanavit; Pattrathip Rodsamran; Panyapathk Pinkaew
This research aimed to investigate the physical properties and chemical compositions of banana blossom sheaths, as well as the physicochemical and microbial properties of their juices. Banana blossom sheaths come in two varieties: the light-yellow inner (inner) and the pink-red outer (outer). Chemical analyses of both outer and inner sheaths, including moisture, protein, lipid, ash, total carbohydrate and crude fiber, revealed ranges of 90.83–93.41%, 1.22–1.71%, 0.29–0.34%, 0.97–1.01%, 3.62–6.60% and 0.96–2.14%, respectively. The healthy pasteurized banana blossom juices (HPBJ) derived from both sources were rich in phenolic compounds (254±0.12 and 124±0.38 mg GAE/100 mL), total anthocyanin contents (0.19±0.23 and 15.0 ±0.35 mg cyanidin-3-glucoside equivalent (CGE)/100 mL) and exhibited antioxidant properties using the DPPH method (2,280.49±0.45 and 2,156.53±0.78 μmol of Trolox equivalents/100 mL), respectively. Microbial analysis of HPBJ, including total plate counts (TPC), yeast and mold, Escherichia coli, Coliform, Salmonella spp., Staphylococcus aureus, Bacillus cereus, and Clostridium perfringens, indicated levels within acceptable limits, confirming their safety for consumption.
Utilization of Banana Blossom Sheaths with Different Skin Colors as Raw Materials for Healthy Pasteurized Banana Blossom Juice Production
(Research and Development Institute Suan Dusit University, 2024) Kankanit Jongrattanavit; Pattrathip Rodsamran; Panyapathk Pinkaew; P. Pinkaew; School of Culinary Arts, Suan Dusit University, Bangkok, 10300, Thailand; email: panyapathk_pin@dusit.ac.th
This research aimed to investigate the physical properties and chemical compositions of banana blossom sheaths, as well as the physicochemical and microbial properties of their juices. Banana blossom sheaths come in two varieties: the light-yellow inner (inner) and the pink-red outer (outer). Chemical analyses of both inner and outer sheaths, including moisture, protein, lipid, ash, total carbohydrate and crude fiber, revealed ranges of 90.83Ð93.41%, 1.22Ð1.71%, 0.29Ð0.34%, 0.97Ð1.01%, 3.62Ð6.60% and 0.96Ð2.14%, respectively. The healthy pasteurized banana blossom juices (HPBJ) derived from both sources were rich in phenolic compounds (254±0.12 and 124±0.38 mg GAE/100 mL), total anthocyanin contents (0.19±0.23 and 15.0 ±0.35 mg cyanidin-3-glucoside equivalent (CGE)/100 mL) and exhibited antioxidant properties using the DPPH method (2,280.49±0.45 and 2,156.53±0.78 _mol of Trolox equivalents/100 mL), respectively. Microbial analysis of HPBJ, including total plate counts (TPC), yeast and mold, Escherichia coli, Coliform, Salmonella spp., Staphylococcus aureus, Bacillus cereus, and Clostridium perfringens, indicated levels within acceptable limits, confirming their safety for consumption. © 2024, Research and Development Institute Suan Dusit University. All rights reserved.
Utilization of Banana Blossom Sheaths with Different Skin Colors as Raw Materials for Healthy Pasteurized Banana Blossom Juice Production
(Graphicsite, 2024-06-28) Kankanit Jongrattanavit; Pattrathip Rodsamran; Panyapathk Pinkaew
This research aimed to investigate the physical properties and chemical compositions of banana blossom sheaths, as well as the physicochemical and microbial properties of their juices. Banana blossom sheaths come in two varieties: the light-yellow inner (inner) and the pink-red outer (outer). Chemical analyses of both outer and inner sheaths, including moisture, protein, lipid, ash, total carbohydrate and crude fiber, revealed ranges of 90.83–93.41%, 1.22–1.71%, 0.29–0.34%, 0.97–1.01%, 3.62–6.60% and 0.96–2.14%, respectively. The healthy pasteurized banana blossom juices (HPBJ) derived from both sources were rich in phenolic compounds (254±0.12 and 124±0.38 mg GAE/100 mL), total anthocyanin contents (0.19±0.23 and 15.0 ±0.35 mg cyanidin-3-glucoside equivalent (CGE)/100 mL) and exhibited antioxidant properties using the DPPH method (2,280.49±0.45 and 2,156.53±0.78 μmol of Trolox equivalents/100 mL), respectively. Microbial analysis of HPBJ, including total plate counts (TPC), yeast and mold, Escherichia coli, Coliform, Salmonella spp., Staphylococcus aureus, Bacillus cereus, and Clostridium perfringens, indicated levels within acceptable limits, confirming their safety for consumption.

Browsing by Author "Kankanit Jongrattanavit"

Results Per Page

Sort Options