Supercritical CO2 Processing of a Functional Beverage Containing Apple Juice and Aqueous Extract of Pfaffia glomerata Roots: Fructooligosaccharides Chemical Stability after Non-Thermal and Thermal Treatments

Silva, Eric Keven; Bargas, Matheus Angelo; Arruda, Henrique Silvano; Vardanega, Renata; Pastore, Gláucia Maria; Meireles, M. Ângela A.

doi:10.3390/molecules25173911

Cited by 16 publications

(22 citation statements)

References 41 publications

(48 reference statements)

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“…® , São Bernardo do Campo, Brazil), cooled at −6 °C using a thermostatic bath (Marconi ® , model MA-184, Piracicaba, Brazil) and pressurized by using a pneumatic pump (Maximator ® , model M-111 L, Nordhausen, Germany), was pumped to the high-pressure reactor, promoting the homogenization of the sample until the operating pressure was reached. All experiments were carried out with a CO 2 volume ratio of 50% and a processing time of 10 min, according to previous works [ 22 , 27 , 28 ]. The processing time was counted only when the system reached the operating temperature and pressure according to each experimental condition studied.…”

Section: Methodsmentioning

confidence: 99%

“…However, the conventional thermal treatments currently used to stabilize fruit-based beverages can promote losses in their nutritional and bioactive properties due to the degradation of thermosensitive compounds (e.g., vitamins, ascorbic acid, phenolic compounds, antioxidants, proteins, and carbohydrates, among others). This can reduce their sensory quality through the formation of off-flavors, a “cooked taste”, and non-enzymatic browning [ 18 , 22 ]. Thus, one of the greatest challenges facing the food industry today is the development of technologies that ensure the safety of food products while preserving their sensory, nutritional, and functional attributes, similar to those of unprocessed products [ 23 ].…”

Section: Introductionmentioning

confidence: 99%

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Non-Thermal Supercritical Carbon Dioxide Processing Retains the Quality Parameters and Improves the Kinetic Stability of an Araticum Beverage Enriched with Inulin-Type Dietary Fibers

Arruda

Silva

Pastore

et al. 2023

Foods

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Fruit-based beverages have been considered excellent food vehicles for delivering prebiotics. However, the conventional thermal processes currently used to microbiologically and enzymatically stabilize these products may cause significant losses in their sensory, physicochemical, nutritional, and bioactive characteristics. Thus, in this study, we evaluate the effect of different levels of pressure (8, 15, and 21 MPa) and temperature (35 and 55 °C) on the characteristics of an inulin-enriched araticum beverage processed with non-thermal supercritical carbon dioxide (SC–CO2) technology. The temperature showed a significant effect on total soluble solids, pH, particle size distribution, and kinetic stability. In contrast, pressure affected only the particle size distribution. The interaction between pressure and temperature influenced the total soluble solids, pH, and particle size distribution. Color parameters, ζ-potential, and glucose and fructose contents were not modified after all SC–CO2 treatments. Moreover, the SC–CO2 treatments preserved the inulin molecular structure, thus maintaining its prebiotic functionality. Overall, the SC–CO2 treatment did not alter the sensory, nutritional, and functional quality of the beverage, while improving its physical stability during storage. Therefore, non-thermal SC–CO2 treatment can be an alternative to current conventional processes for stabilizing inulin-enriched fruit-based beverages.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Non-Thermal Supercritical Carbon Dioxide Processing Retains the Quality Parameters and Improves the Kinetic Stability of an Araticum Beverage Enriched with Inulin-Type Dietary Fibers

Arruda

Silva

Pastore

et al. 2023

Foods

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“…Beyond the biorefining approach to enhance the cannabis SFE extracts by integrating innovative green technologies, supercritical CO 2 -based manufacturing processes have been highlighted due to the slight impact of their application on different macronutrients, such as proteins, sugars, starches, dietary fibers, and others [98][99][100][101][102]. Cannabis sativa L. exhibits many industrial properties for application in different sectors depending on its plant fraction.…”

Section: Non-thermal Supercritical Co 2 Processing Of Cannabis Biomassmentioning

confidence: 99%

“…The key point that makes CO 2 an attractive solvent for food intents is the fact that it is a substance that is not chemically reactive [111]. Indeed, many studies reported the chemical stability of macronutrients after supercritical CO 2 processing such as sugars [99,102], dietary fibers [100], proteins [112,113], and others.…”

Section: Non-thermal Supercritical Co 2 Processing Of Cannabis Biomassmentioning

confidence: 99%

Supercritical Carbon Dioxide Technology for Recovering Valuable Phytochemicals from Cannabis sativa L. and Valorization of Its Biomass for Food Applications

et al. 2023

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Supercritical carbon dioxide (CO2) extraction techniques meet all-new consumer market demands for health-promoting phytochemical compound-rich extracts produced from green and sustainable technology. In this regard, this review is dedicated to discussing is the promise of integrating high-pressure CO2 technologies into the Cannabis sativa L. processing chain to valorize its valuable pharmaceutical properties and food biomass. To do this, the cannabis plant, cannabinoids, and endocannabinoid system were reviewed to understand their therapeutic and side effects. The supercritical fluid extraction (SFE) technique was presented as a smart alternative to producing cannabis bioproducts. The impact of SFE operating conditions on cannabis compound extraction was examined for aerial parts (inflorescences, stems, and leaves), seeds, and byproducts. Furthermore, the opportunities of using non-thermal supercritical CO2 processing on cannabis biomass were addressed for industrial hemp valorization, focusing on its biorefinery to simultaneously produce cannabidiol and new ingredients for food applications as plant-based products.

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“…Supercritical CO 2 can be used for removing ethanol from aqueous solutions and therefore has been proposed for developing a low-alcohol beverage from wine, maintaining the aroma and the antioxidant activity similar to that of the original wine [158]. The same technique has been also used for the stabilization of FOS-rich beverages, maintaining the prebiotic functionality [159].…”

Section: Supercritical Fluid Extraction (Sfe)mentioning

confidence: 99%

Strategies to Improve the Potential Functionality of Fruit-Based Fermented Beverages

Keșa

Pop

Mudura

et al. 2021

Plants

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It is only recently that fermentation has been facing a dynamic revival in the food industry. Fermented fruit-based beverages are among the most ancient products consumed worldwide, while in recent years special research attention has been granted to assess their functionality. This review highlights the functional potential of alcoholic and non-alcoholic fermented fruit beverages in terms of chemical and nutritional profiles that impact on human health, considering the natural occurrence and enrichment of fermented fruit-based beverages in phenolic compounds, vitamins and minerals, and pro/prebiotics. The health benefits of fruit-based beverages that resulted from lactic, acetic, alcoholic, or symbiotic fermentation and specific daily recommended doses of each claimed bioactive compound were also highlighted. The latest trends on pre-fermentative methods used to optimize the extraction of bioactive compounds (maceration, decoction, and extraction assisted by supercritical fluids, microwave, ultrasound, pulsed electric fields, high pressure homogenization, or enzymes) are critically assessed. As such, optimized fermentation processes and post-fermentative operations, reviewed in an industrial scale-up, can prolong the shelf life and the quality of fermented fruit beverages.

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Supercritical CO2 Processing of a Functional Beverage Containing Apple Juice and Aqueous Extract of Pfaffia glomerata Roots: Fructooligosaccharides Chemical Stability after Non-Thermal and Thermal Treatments

Cited by 16 publications

References 41 publications

Non-Thermal Supercritical Carbon Dioxide Processing Retains the Quality Parameters and Improves the Kinetic Stability of an Araticum Beverage Enriched with Inulin-Type Dietary Fibers

Non-Thermal Supercritical Carbon Dioxide Processing Retains the Quality Parameters and Improves the Kinetic Stability of an Araticum Beverage Enriched with Inulin-Type Dietary Fibers

Supercritical Carbon Dioxide Technology for Recovering Valuable Phytochemicals from Cannabis sativa L. and Valorization of Its Biomass for Food Applications

Strategies to Improve the Potential Functionality of Fruit-Based Fermented Beverages

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