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W2919442180 endingPage "882" @default.
W2919442180 startingPage "882" @default.
W2919442180 abstract "The bioactive compounds in myrtle berries, such as phenolic compounds and anthocyanins, have shown a potentially positive effect on human health. Efficient extraction methods are to be used to obtain maximum amounts of such beneficial compounds from myrtle. For that reason, this study evaluates the effectiveness of a rapid ultrasound-assisted method (UAE) to extract anthocyanins and phenolic compounds from myrtle berries. The influence of solvent composition, as well as pH, temperature, ultrasound amplitude, cycle and solvent-sample ratio on the total phenolic compounds and anthocyanins content in the extracts obtained were evaluated. The response variables were optimized by means of a Box-Behnken design. It was found that the double interaction of the methanol composition and the cycle, the interaction between methanol composition and temperature, and the interaction between the cycle and solvent-sample ratio were the most influential variables on the extraction of total phenolic compounds (92.8% methanol in water, 0.2 s of cycle, 60 °C and 10:0.5 mL:g). The methanol composition and the interaction between methanol composition and pH were the most influential variables on the extraction of anthocyanins (74.1% methanol in water at pH 7). The methods that have been developed presented high repeatability and intermediate precision (RSD < 5%) and the bioactive compounds show a high recovery with short extraction times. Both methods were used to analyze the composition of the bioactive compounds in myrtle berries collected from different locations in the province of Cadiz (Spain). The results obtained by UAE were compared to those achieved in a previous study where microwave-assisted extraction (MAE) methods were employed. Similar extraction yields were obtained for phenolic compounds and anthocyanins by MAE and UAE under optimal conditions. However, UAE presents the advantage of using milder conditions for the extraction of anthocyanins from myrtle, which makes of this a more suitable method for the extraction of these degradable compounds." @default.
W2919442180 created "2019-03-11" @default.
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W2919442180 date "2019-03-02" @default.
W2919442180 modified "2023-10-18" @default.
W2919442180 title "Alternative Ultrasound-Assisted Method for the Extraction of the Bioactive Compounds Present in Myrtle (Myrtus communis L.)" @default.
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W2919442180 cites W1899006385 @default.
W2919442180 cites W1963486405 @default.
W2919442180 cites W1967012309 @default.
W2919442180 cites W1968527696 @default.
W2919442180 cites W1970293245 @default.
W2919442180 cites W1974221425 @default.
W2919442180 cites W1975031905 @default.
W2919442180 cites W1981806015 @default.
W2919442180 cites W1987893967 @default.
W2919442180 cites W1988530842 @default.
W2919442180 cites W1990465251 @default.
W2919442180 cites W1991827096 @default.
W2919442180 cites W2001057155 @default.
W2919442180 cites W2006249598 @default.
W2919442180 cites W2007159268 @default.
W2919442180 cites W2009259316 @default.
W2919442180 cites W2021420283 @default.
W2919442180 cites W2026282951 @default.
W2919442180 cites W2039923267 @default.
W2919442180 cites W2044927249 @default.
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W2919442180 cites W2275362428 @default.
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W2919442180 cites W2416927250 @default.
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W2919442180 cites W2497929648 @default.
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W2919442180 doi "https://doi.org/10.3390/molecules24050882" @default.
W2919442180 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6429515" @default.
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