2021
DOI: 10.3390/foods10091968
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Effect of Type and Concentration of Carrier Material on the Encapsulation of Pomegranate Peel Using Spray Drying Method

Abstract: This study aimed to establish a procedure for pomegranate peel (PP) valorization and attainment of stable extracts with preserved bioactive compounds. The technology applied was spray drying with carbohydrate-based (maltodextrin, MD) and protein-based (whey protein, WP) carrier materials in different concentrations (80, 100, and 120%). What was analyzed was the impact of the type and concentration of carrier material on the stability and quality of the final encapsulated powder. The best results were achieved … Show more

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Cited by 34 publications
(23 citation statements)
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“…These contrasting behaviours highlight the fact that the recovery and encapsulation efficiency of phenolic compounds is highly dependent and very specific to the nature of the encapsulated compounds and their interactions with the coating materials used (da Rosa et al ., 2014). Factors such as structure, molecular weight, and the number of hydroxyl groups on the polyphenols, are determinant in the phenolic–carbohydrate interactions (Šavikin et al ., 2021). Moreover, the distribution of the phenolic compounds in the shell of the encapsulated materials could be affected by the molecular dimensions and viscosity of the carrier agents, and finally variations in the grinding process, altogether, make the dependence of cargo‐carrier interactions very specific and variable in terms of its effect on encapsulation efficiency and recovery of bioactive compounds, even at the same drying conditions.…”
Section: Resultsmentioning
confidence: 99%
“…These contrasting behaviours highlight the fact that the recovery and encapsulation efficiency of phenolic compounds is highly dependent and very specific to the nature of the encapsulated compounds and their interactions with the coating materials used (da Rosa et al ., 2014). Factors such as structure, molecular weight, and the number of hydroxyl groups on the polyphenols, are determinant in the phenolic–carbohydrate interactions (Šavikin et al ., 2021). Moreover, the distribution of the phenolic compounds in the shell of the encapsulated materials could be affected by the molecular dimensions and viscosity of the carrier agents, and finally variations in the grinding process, altogether, make the dependence of cargo‐carrier interactions very specific and variable in terms of its effect on encapsulation efficiency and recovery of bioactive compounds, even at the same drying conditions.…”
Section: Resultsmentioning
confidence: 99%
“…This suggests that all the powder samples could be stable under appropriate storage conditions. The MC of the PFPP was higher than the MC of MT-encapsulated pomegranate peel powder (3.69–4.60%) [ 14 ]; GA-encapsulated grape skin phenolic extract powder (2.41–2.57%) [ 9 ]; GA-, and MT-developed eggplant peel extract powder (2.34–4.11%) [ 12 ]. The variation in MC could be due to the differences in the drying technique, carrier concentration, nature of the plant extracts, among others.…”
Section: Resultsmentioning
confidence: 99%
“…High retention of the core materials and their minimum concentration on the surface of powder particles are desired for a successful encapsulation method. A minimum of 50% EE is desired for potential industrial scale-up [ 14 ]. According to Figure 4 e, high EE ranging from 82.64 to 87.18% was obtained in the present study.…”
Section: Resultsmentioning
confidence: 99%
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“…In the paper published by Šavikin et al [ 6 ], the established procedure for pomegranate peel valorization and the attainment of stable extract with preserved bioactive compounds is given. The applied technology involved spray-drying with carbohydrate-based (maltodextrin) and protein-based (whey protein) carrier materials in different concentrations.…”
mentioning
confidence: 99%