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1.
Food Chem ; 407: 135117, 2023 May 01.
Artigo em Inglês | MEDLINE | ID: mdl-36512911

RESUMO

Due to the complex characteristics and variable composition of apple pomace, sample preparation for chromatographic analysis is a great challenge. To solve this problem, we proposed using a solvent gradient using Pressurized Liquid Extraction (PLE), where the solvent gradually changes from water to ethanol during the extraction. Different dynamic gradients, static time, and temperatures were evaluated and showed relevant effects on the yields of target analytes. It was possible to improve extraction yields of compounds with different characteristics using the extraction solvent gradient. By coupling solid-phase extraction in-line, it was possible to separate compounds into fractions, where furfural, HMF, and chlorogenic acid gradually eluted from the adsorbent. At the same time, flavonoids were retained and eluted in the later fractions. On-line analysis by HPLC provided real-time information about the process and permitted the creation of a 3D chromatogram of the sample.


Assuntos
Malus , Cromatografia Líquida de Alta Pressão/métodos , Malus/química , Fenóis/análise , Solventes/química , Extração em Fase Sólida
2.
Food Res Int ; 157: 111252, 2022 07.
Artigo em Inglês | MEDLINE | ID: mdl-35761564

RESUMO

This work aimed to develop an integrated method to extract and fractionate phenolic compounds from lemon (Citrus limon L.) peel by in-line coupling pressurized liquid extraction and solid-phase extraction (PLE-SPE). The effect of the adsorbent used in the SPE (Sepra™ C18-E, Sepra™ NH2, and PoraPak Rxn), the combination of organic extraction-elution solvents (water-ethanol and water-ethyl lactate), extraction temperature (40-80 °C), and extraction water pH (4.0, 6.0, and 7.0) were the investigated variables. The highest yield and separation degree were observed using Sepra™ C18-E and the water-ethanol combination as the extraction solvent-eluent. Higher temperatures led to higher yields but negatively affected the retention of less polar compounds, hesperidin, and narirutin during the extraction step. The lower pH improved the yield of most evaluated compounds; however, it did not improve the adsorbent retention at high temperatures. Thus, the developed PLE-SPE method resulted in higher extraction yields from lemon peel, especially total less polar compounds (20.2100 ± 0,0050 mg/g) and hesperidin (12.8120 ± 0.0006 mg/g) and allowed the separation of polar compounds and less polar compounds in distinct extract fractions. Besides, PLE-SPE resulted in higher yields compared to other extraction methods. The integrated approach allowed obtaining extract fractions with different chemical composition through an environmentally friendly procedure. The research outcomes may be helpful for natural products chemistry, and industrial processes.


Assuntos
Citrus , Hesperidina , Etanol , Fenóis/química , Extração em Fase Sólida , Solventes/química , Água
3.
Food Chem X ; 12: 100133, 2021 Dec 30.
Artigo em Inglês | MEDLINE | ID: mdl-34632369

RESUMO

Apple is one of the most consumed fruits worldwide and has recognized nutritional properties. Besides being consumed fresh, it is the raw material for several food products, whose production chain generates a considerable amount of by-products that currently have an underestimated use. These by-products are a rich source of chemical compounds with several potential applications. Therefore, new ambitious platforms focused on reusing are needed, targeting a process chain that achieves well-defined products and mitigates waste generation. This review covers an essential part of the apple by-products reuse chain. The apple composition regarding phenolic compounds subclasses is addressed and related to biological activities. The extraction processes to recover apple biocompounds have been revised, and an up-to-date overview of the scientific literature on conventional and emerging extraction techniques adopted over the past decade is reported. Finally, gaps and future trends related to the management of apple by-products are critically presented.

4.
Anal Chim Acta ; 1178: 338845, 2021 Sep 15.
Artigo em Inglês | MEDLINE | ID: mdl-34482871

RESUMO

The comprehensive analysis of phenolic compounds from natural products comprises critical steps, including quantitative extraction, extract preparation, and chromatographic procedure. Performing these steps off-line requires a long time to obtain results, besides being laborious and more error-prone. This work discusses the concept and presents the details of assembling and validating a new system to comprehensively analyze phenolic compounds in natural products. The system is based on a bidimensional separation through the combination of pressurized liquid extraction with in-line solid-phase extraction coupled online with HPLC-PDA. The system proved to be able to perform a bidimensional separation to characterize the sample and ensure quantitative extraction of all detected components using the most appropriate extraction solvent gradient depending on the raw sample analyzed. The 1st dimension separation is achieved by PLE-SPE with a solvent gradient and differential interactions of extracted compounds with the adsorbent. The 2nd dimension presents the HPLC-PDA separation. The extraction/separation process can be monitored in real-time, and kinetic extraction curves for individual compounds can also be obtained to ensure quantitative extraction. Thus, the 2D PLE-SPE × HPLC-PDA may provide fast and precise comprehensive analyses of a large plethora of phenolic compounds, finding relevant applications in the chemical, food, pharmaceutical, and agricultural fields.


Assuntos
Produtos Biológicos , Cromatografia Líquida de Alta Pressão , Fenóis/análise , Extração em Fase Sólida , Solventes
5.
Food Chem ; 318: 126450, 2020 Jul 15.
Artigo em Inglês | MEDLINE | ID: mdl-32151921

RESUMO

The objective of this work was the development of an on-line extraction/fractionation method based on the coupling of pressurized liquid extraction and solid-phase extraction for the separation of phenolic compounds from apple pomace. Several variables of the process were evaluated, including the amount of water of the first stage (0-120 mL), temperature (60-80 °C), solid-phase extraction adsorbent (Sepra, Isolute, Strata X and Oasis) and activation/elution solvent (methanol and ethanol). The best results were observed with the adsorbent Sepra. The temperature had a small effect on recovery, but significant differences were observed for phlorizin and a quercetin derivative. Results indicate that ethanol can be used to replace methanol as an activation, extraction/elution solvent. While using mostly green solvents (water, ethanol, and a small amount of methanol that could be reused), the developed method produced higher or similar yields of acids (2.85 ± 0.19 mg/g) and flavonoids (0.97 ± 0.11 mg/g) than conventional methods.


Assuntos
Flavonoides/isolamento & purificação , Malus/química , Extração em Fase Sólida/métodos , Cromatografia Líquida de Alta Pressão , Flavonoides/análise , Ácido Gálico/análise , Ácido Gálico/isolamento & purificação , Malus/metabolismo , Fenóis/análise , Fenóis/isolamento & purificação , Florizina/análise , Florizina/isolamento & purificação , Extratos Vegetais/química , Pressão , Quercetina/análise , Quercetina/isolamento & purificação , Solventes/química , Espectrometria de Massas em Tandem , Temperatura
6.
Ultrason Sonochem ; 54: 11-17, 2019 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-30827900

RESUMO

In this study it is proposed the introduction of an expansion gas in high pressure water to maximize the cavitation caused by the application of ultrasound to improve the extraction of phenolic compounds from pomegranate peel. Different combinations of ultrasound power (US-Pwr), expansion gas initial pressure (N2-Pi), system pressure (SP) and particle size of sample were evaluated using water as solvent. The use of US-Pwr and N2-Pi individually or combined improved the extraction process proving higher yields. SP was an important parameter affecting extraction yield, showing an inverse relation between its increase and extraction yield. Although higher yields were produced with samples with smaller particles, the combination of ultrasound and expansion gas had a positive effect on the process independently of particle size, promoting an increase of 20-26% in yield. These results suggest an enormous potential to be explored with the introduction of an expansion gas in pressurized liquids in processes assisted by ultrasound for the extraction of phenolic compounds from natural products using green solvents.


Assuntos
Fracionamento Químico/métodos , Gases/química , Lythraceae/química , Fenóis/isolamento & purificação , Pressão , Sonicação
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