Designing Antioxidant-Enriched Extracts from Erica carnea L.: Optimization, Kinetics, and Thermodynamic Insights
Violeta Jevtovic, Khulood Fahad Saud Alabbosh, Buthainah Ameen Al Shankiti, Tarfah Abdulrahman M. Alaskar, Reem Ali Alyami, Walaa I. El-Sofany, Vesna Stankov Jovanović, Jelena Nikolić, Vesna Veličković, Odeh A. O. Alshammari, Milan Mitić

TL;DR
This study optimizes the extraction of antioxidants from Erica carnea L., revealing efficient methods and validating their effectiveness through various assays.
Contribution
The study introduces a combined statistical and kinetic approach to optimize antioxidant extraction from Erica carnea L.
Findings
Optimal extraction conditions were 30% ethanol, 120 min, and 50 °C, yielding strong antioxidant activity.
Extraction kinetics followed an unsteady-state diffusion model with high predictive accuracy.
The process was found to be endothermic and irreversible, indicating energy-dependent phenolic release.
Abstract
Erica carnea L. has recently gained attention as a promising natural source of antioxidants suitable for food and beverage applications. This study aimed to obtain an antioxidant-enriched extract by optimizing the key extraction variables. A full factorial design was used to evaluate the effects of ethanol concentration, extraction time, and temperature, followed by validation through multiple antioxidant assays, including DPPH, ABTS, hydroxyl radical scavenging, lipid peroxidation inhibition, and metal chelation. The most efficient extraction was achieved at 30% ethanol, 120 min, and 50 °C, yielding IC50 values of 18.42 μg/mL (LP), 15.04 μg/mL (DPPH), 5.14 μg/mL (MC), 11.28 μg/mL (OH), and 10.06 μg/mL (ABTS), in agreement with the model predictions. Extraction kinetics were described using an unsteady-state diffusion model, supported by low root mean square (RMS) values and high…
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Taxonomy
TopicsPhytochemicals and Antioxidant Activities · Free Radicals and Antioxidants · Phytochemistry and biological activity of medicinal plants
