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W4313898484 endingPage "675" @default.
W4313898484 startingPage "675" @default.
W4313898484 abstract "Apple pomace (AP) from the food industry is a mixture of different fractions containing bioactive polyphenolic compounds. This study provides a systematic approach toward the recovery and evaluation of the physiochemical and biological properties of polyphenolic compounds from AP. We studied subcritical water extraction (SCW) and solvent extraction with ethanol from four different AP fractions of pulp, peel, seed, core, and stem (A), peel (B), seed and core (C), and pulp and peel (D). The subcritical water method at the optimum condition resulted in total polyphenolic compounds (TPC) of 39.08 ± 1.10 mg GAE per g of AP on a dry basis compared to the ethanol extraction with TPC content of 10.78 ± 0.94 mg GAE/g db. Phloridzin, chlorogenic acid, and quercetin were the main identified polyphenolics in the AP fractions using HPLC. DPPH radical scavenging activity of fraction B and subcritical water (SW) extracts showed comparable activity to ascorbic acid while all ethanolic extracts were cytocompatible toward human fibroblast (3T3-L1) and salivary gland acinar cells (NS-SV-AC). Our results indicated that AP is a rich source of polyphenolics with the potential for biomedical applications." @default.
W4313898484 created "2023-01-10" @default.
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W4313898484 date "2023-01-09" @default.
W4313898484 modified "2023-10-17" @default.
W4313898484 title "Chemical Composition, Antioxidant Activity and Cytocompatibility of Polyphenolic Compounds Extracted from Food Industry Apple Waste: Potential in Biomedical Application" @default.
W4313898484 cites W1122560328 @default.
W4313898484 cites W1878438595 @default.
W4313898484 cites W1950767525 @default.
W4313898484 cites W1964050239 @default.
W4313898484 cites W1974478653 @default.
W4313898484 cites W1981561990 @default.
W4313898484 cites W1996548916 @default.
W4313898484 cites W1998061626 @default.
W4313898484 cites W2001285466 @default.
W4313898484 cites W2002356277 @default.
W4313898484 cites W2011353743 @default.
W4313898484 cites W2021785721 @default.
W4313898484 cites W2024652957 @default.
W4313898484 cites W2031806007 @default.
W4313898484 cites W2040876388 @default.
W4313898484 cites W2045618599 @default.
W4313898484 cites W2060915124 @default.
W4313898484 cites W2061422059 @default.
W4313898484 cites W2072348601 @default.
W4313898484 cites W2087853826 @default.
W4313898484 cites W2089303268 @default.
W4313898484 cites W2092184500 @default.
W4313898484 cites W2092865098 @default.
W4313898484 cites W2121793916 @default.
W4313898484 cites W2125352792 @default.
W4313898484 cites W2128115608 @default.
W4313898484 cites W2132615515 @default.
W4313898484 cites W2133084792 @default.
W4313898484 cites W2139408780 @default.
W4313898484 cites W2146646741 @default.
W4313898484 cites W2149022945 @default.
W4313898484 cites W2150988063 @default.
W4313898484 cites W2171756788 @default.
W4313898484 cites W2334263870 @default.
W4313898484 cites W2339118478 @default.
W4313898484 cites W2475301593 @default.
W4313898484 cites W2495280310 @default.
W4313898484 cites W2612533170 @default.
W4313898484 cites W2742664237 @default.
W4313898484 cites W2780937154 @default.
W4313898484 cites W2789085375 @default.
W4313898484 cites W2793863514 @default.
W4313898484 cites W2900632077 @default.
W4313898484 cites W2916323988 @default.
W4313898484 cites W2921768579 @default.
W4313898484 cites W2924688203 @default.
W4313898484 cites W2945088347 @default.
W4313898484 cites W2947194998 @default.
W4313898484 cites W2979426333 @default.
W4313898484 cites W2990582675 @default.
W4313898484 cites W3008256258 @default.
W4313898484 cites W3014295143 @default.
W4313898484 cites W3022271054 @default.
W4313898484 cites W3085642389 @default.
W4313898484 cites W3089253199 @default.
W4313898484 cites W3096601833 @default.
W4313898484 cites W3128784325 @default.
W4313898484 cites W3138090299 @default.
W4313898484 cites W3166017133 @default.
W4313898484 cites W3178617647 @default.
W4313898484 cites W3180650059 @default.
W4313898484 cites W3194013741 @default.
W4313898484 cites W3195696018 @default.
W4313898484 cites W3203679648 @default.
W4313898484 cites W3208505536 @default.
W4313898484 cites W3211718349 @default.
W4313898484 cites W3217367295 @default.
W4313898484 cites W4200606558 @default.
W4313898484 cites W4206188113 @default.
W4313898484 cites W4248974579 @default.
W4313898484 cites W4297073018 @default.
W4313898484 cites W614047139 @default.
W4313898484 cites W79884753 @default.
W4313898484 doi "https://doi.org/10.3390/molecules28020675" @default.
W4313898484 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36677733" @default.
W4313898484 hasPublicationYear "2023" @default.
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