Effect of addition of pineapple peel powder on white finger millet vegan probiotic beverage

Byresh, T.S.; Malini, B.; Meena, Lokesh Kumar; Sunil, C. K.; Chidanand, D. V.; Vidyalakshmi, R.; Natarajan, Venkatachalapathy

doi:10.1111/jfpp.16905

Cited by 4 publications

(6 citation statements)

References 53 publications

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“…2 C showed the results of DPPH activity (ranging from 11.14 ± 3.56% to 37.05 ± 3.51%) of all the samples fermented by different LAB cultures at varying fermentation times. Our findings are corroborated by Byresh et al (2022) , who observed an increase in antioxidative capability (DPPH) in a probiotic beverage (pineapple peel powder and white finger millet) fermented with L. rhamnosus GG NCDC 347. These results can be linked to a rise in TFC levels.…”

Section: Resultssupporting

confidence: 87%

Effect of selective fermentation on nutritional parameters and techno-functional characteristics of fermented millet-based probiotic dairy product

Samtiya,

Badgujar,

Chandratre

et al. 2024

Food Chemistry: X

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Section: Resultssupporting

confidence: 87%

Effect of selective fermentation on nutritional parameters and techno-functional characteristics of fermented millet-based probiotic dairy product

Samtiya,

Badgujar,

Chandratre

et al. 2024

Food Chemistry: X

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“…The asymmetric stretching of the C‐H bond was observed in 2922 cm −1 in both CF and T3 but not visible in T6 and T8, instead of that, it was switched to O‐H stretching at 2980 cm −1 , which shows the significant functional group change during high power level MW treatment. In all samples, the peat at 1076 cm −1 , which represents the anhydrides are not changed, and the transmittance at 993 cm −1 (ester group) has significant changes in MW treated samples (Srinivasreddy et al, 2022). A deep characteristics band at 1000–990 cm −1 indicates the α‐1,4 glycosidic linkage and C‐O‐C stretch, in WFMF the transmittance at 1000–900 cm −1 decreased during high‐power MW treatment (Babu et al, 2018).…”

Section: Resultsmentioning

confidence: 98%

“…Fourier‐transform infrared spectra (FTIR) of WFMF were analyzed using the Perkin Elmer (PerkinElmer Spectrum; Model: Spectrum Two), with wavelengths ranging from 400 to 4000 cm −1 at a resolution of 4 cm −1 and 32 scans (Srinivasreddy et al, 2022).…”

Section: Methodsmentioning

confidence: 99%

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Microwave treatment effect on functional and pasting properties, and storage stability of white finger millet

Ananthu¹,

Buvaneswaran

Meena

et al. 2023

J Food Process Engineering

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Microwave (MW) treatment is a promising technique in cereal processing to improve nutritional quality. The present study investigated the effect of MW power level and exposure time on white finger millet flour (WFMF). Nine different MW treatment combinations were taken based on power level (720 W, 840 W, and 900 W), and exposure time (2 min, 4 min, and 6 min), after the MW treatment the flours are stored at 45 C for 15 days for storage study. The physicochemical, functional, pasting properties, and storage stability of the treated flours were analyzed. According to the results of the study, MW power level and exposure time significantly (p < 0.05) affected the color, swelling power, and water and oil absorption index. The MW treatment reduces the free fatty acid (FFA) and peak viscosity of the samples. The storage study for up to 15 days reveals the changes in color, FFA, and pasting properties of the sample. During storage, the change in FFA content was higher in control untreated flour (CF) than MW treated samples. Due to the structural changes in the starch molecules, the viscosity of MW treated samples was reduced drastically than the CF sample. Results denote that both MW power level and exposure time had a significant effect to alter the functionality and storage stability of WFMF. Practical ApplicationsWhite finger millet (WFM) is the major raw material used for numerous cereal-based products. Microwave (MW) treatments are a novel and promising technology used in cereal processing. A study on changes in finger millet properties under MW treatment helps to improve/alter the functional properties of millet flour, which can be used in new product development. Based on the study, MW treatment significantly improves storage stability by reducing the free fatty acid content, so MW treatment can be used to maintain the quality of the WFM during the storage period to minimize storage losses.

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“…TSS (°Brix), which denotes the % Brix of sugar in aqueous solutions, was measured using a hand‐held refractometer (0–32 °Brix) by sampling 250 μl of the millet beverage (Guney & Gungormusler, 2021) in every 1.5 h interval. Viscosity was determined as described by Byresh et al (2022) using a Brookfield viscometer with an SC4‐18 spindle, which has a viscosity range of 1500–30,000 cP. Initially, the viscometer with SC4‐18 spindle assembly was calibrated using Brookfield's Silicone Viscosity Standard fluids (viscosity values of 9.7 and 97 cP at 25°C).…”

Section: Methodsmentioning

confidence: 99%

Development of white finger millet probiotic beverage using Lactocaseibacillus rhamnosus (LGG): Process optimization and study of physicochemical and nutritional properties

Buvaneswaran

Sunil

et al. 2022

J Food Process Engineering

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White finger millet (WFM) is a repository of vital nutrients and minerals. This study aims to develop the white finger probiotic beverage, optimize the ingredients level for the formulation, and study the physiochemical and nutritional properties of the formulated vegan WFM probiotic beverage (WFMPB). The optimum condition for the development of WFMPB was obtained by Box–Behnken design. The independent variable like WFM flour (10–14% w/v), microbial inoculum (1–5% v/v), and sugar (5–15% w/v), and their impact on the response variables like total solid content (TSS), pH, microbial count, and viscosity were studied for optimization. Increment in the amounts of WFM flour and inoculum levels had a significant impact on the microbial load and pH. However, sugar levels affected viscosity and TSS. The combination of 14% WFM, 1% microbial inoculum, and 5% sugar showed maximum desirability of 0.975, with the highest sensory score (8.34), TSS of 15.4 °Brix, pH of 4.33, the microbial load of 9.45 log (cfu/ml) and viscosity of 43.32 cP. WFMPB consists of 11.91% carbohydrates, 1.46% protein, 0.89% fat, and 0.632% crude fiber. The rheological studies showed that WFMPB is a shear‐thinning fluid (n ˂ 0.1). The study revealed that WFM is the better carrier matrix for the LGG growth and can be an alternative for the strict vegan and lactose‐intolerant consumers.

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Effect of addition of pineapple peel powder on white finger millet vegan probiotic beverage

Cited by 4 publications

References 53 publications

Effect of selective fermentation on nutritional parameters and techno-functional characteristics of fermented millet-based probiotic dairy product

Effect of selective fermentation on nutritional parameters and techno-functional characteristics of fermented millet-based probiotic dairy product

Microwave treatment effect on functional and pasting properties, and storage stability of white finger millet

Development of white finger millet probiotic beverage using Lactocaseibacillus rhamnosus (LGG): Process optimization and study of physicochemical and nutritional properties

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