Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying

Carlos A. Ligarda-Samanez; David Choque-Quispe; Elibet Moscoso-Moscoso; Henry Palomino-Rincón; Fredy Taipe-Pardo; John Peter Aguirre Landa; José C. Arévalo-Quijano; Jenny C. Muñoz-Saenz; Uriel R. Quispe-Quezada; Mary L. Huamán-Carrión; Edgar Gutiérrez-Gómez; Reynaldo Sucari-León; Rober Luciano-Alipio; Judy M. Muñoz-Saenz; Rodrigo J. Guzmán Gutiérrez

doi:10.3390/molecules28134961

Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying

Carlos A. Ligarda-Samanez
, David Choque-Quispe
, Elibet Moscoso-Moscoso
, Henry Palomino-Rincón
, Fredy Taipe-Pardo
, John Peter Aguirre Landa
, José C. Arévalo-Quijano
, Jenny C. Muñoz-Saenz
, Uriel R. Quispe-Quezada
, Mary L. Huamán-Carrión
, Edgar Gutiérrez-Gómez
, Reynaldo Sucari-León
, Rober Luciano-Alipio
, Judy M. Muñoz-Saenz
, Rodrigo J. Guzmán Gutiérrez

Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

22 Citas (Scopus)

Resumen

Native potato clones grown in Peru contain bioactive compounds beneficial to human health. This study aimed to optimize the spray-drying nanoencapsulation of native potato phenolic extracts utilizing a central composite design and response surface methodology, obtaining the optimal treatment to an inlet temperature of 120 °C and an airflow of 141 L/h in the nano spray dryer B-90, which allowed maximizing the yield of encapsulation, antioxidant capacity (DPPH), encapsulation efficiency (EE), total phenolic compounds, and total flavonoids; on the other hand, it allowed minimizing hygroscopicity, water activity (Aw), and moisture. Instrumental characterization of the nanocapsules was also carried out, observing a gain in lightness, reddening of the color, and spherical nanoparticles of heterogeneous size (133.09–165.13 nm) with a negative ζ potential. Thermal, infrared, and morphological analyses confirmed the encapsulation of the core in the wall materials. Furthermore, an in vitro release study of phenolic compounds in an aqueous solution achieved a maximum value of 9.86 mg GAE/g after 12 h. Finally, the obtained nanocapsules could be used in the food and pharmaceutical industry.

Idioma original	Inglés estadounidense
-	4961
Publicación	Molecules
Volumen	28
N.º	13
DOI	https://doi.org/10.3390/molecules28134961
Estado	Indizado - jul. 2023
Publicado de forma externa	Sí

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© 2023 by the authors.

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Ligarda-Samanez, C. A., Choque-Quispe, D., Moscoso-Moscoso, E., Palomino-Rincón, H., Taipe-Pardo, F., Landa, J. P. A., Arévalo-Quijano, J. C., Muñoz-Saenz, J. C., Quispe-Quezada, U. R., Huamán-Carrión, M. L., Gutiérrez-Gómez, E., Sucari-León, R., Luciano-Alipio, R., Muñoz-Saenz, J. M., & Guzmán Gutiérrez, R. J. (2023). Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying. Molecules, 28(13), Artículo 4961. https://doi.org/10.3390/molecules28134961

@article{5398bd8cc89e4011b685ebb81589c724,

title = "Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying",

abstract = "Native potato clones grown in Peru contain bioactive compounds beneficial to human health. This study aimed to optimize the spray-drying nanoencapsulation of native potato phenolic extracts utilizing a central composite design and response surface methodology, obtaining the optimal treatment to an inlet temperature of 120 °C and an airflow of 141 L/h in the nano spray dryer B-90, which allowed maximizing the yield of encapsulation, antioxidant capacity (DPPH), encapsulation efficiency (EE), total phenolic compounds, and total flavonoids; on the other hand, it allowed minimizing hygroscopicity, water activity (Aw), and moisture. Instrumental characterization of the nanocapsules was also carried out, observing a gain in lightness, reddening of the color, and spherical nanoparticles of heterogeneous size (133.09–165.13 nm) with a negative ζ potential. Thermal, infrared, and morphological analyses confirmed the encapsulation of the core in the wall materials. Furthermore, an in vitro release study of phenolic compounds in an aqueous solution achieved a maximum value of 9.86 mg GAE/g after 12 h. Finally, the obtained nanocapsules could be used in the food and pharmaceutical industry.",

keywords = "antioxidant capacity, bioactive compounds, central composite rotatable design, optimization, response surface",

author = "Ligarda-Samanez, \{Carlos A.\} and David Choque-Quispe and Elibet Moscoso-Moscoso and Henry Palomino-Rinc{\'o}n and Fredy Taipe-Pardo and Landa, \{John Peter Aguirre\} and Ar{\'e}valo-Quijano, \{Jos{\'e} C.\} and Mu{\~n}oz-Saenz, \{Jenny C.\} and Quispe-Quezada, \{Uriel R.\} and Huam{\'a}n-Carri{\'o}n, \{Mary L.\} and Edgar Guti{\'e}rrez-G{\'o}mez and Reynaldo Sucari-Le{\'o}n and Rober Luciano-Alipio and Mu{\~n}oz-Saenz, \{Judy M.\} and \{Guzm{\'a}n Guti{\'e}rrez\}, \{Rodrigo J.\}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = jul,

doi = "10.3390/molecules28134961",

language = "American English",

volume = "28",

journal = "Molecules",

issn = "1420-3049",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "13",

}

Ligarda-Samanez, CA, Choque-Quispe, D, Moscoso-Moscoso, E, Palomino-Rincón, H, Taipe-Pardo, F, Landa, JPA, Arévalo-Quijano, JC, Muñoz-Saenz, JC, Quispe-Quezada, UR, Huamán-Carrión, ML, Gutiérrez-Gómez, E, Sucari-León, R, Luciano-Alipio, R, Muñoz-Saenz, JM & Guzmán Gutiérrez, RJ 2023, 'Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying', Molecules, vol. 28, n.º 13, 4961. https://doi.org/10.3390/molecules28134961

TY - JOUR

T1 - Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying

AU - Ligarda-Samanez, Carlos A.

AU - Choque-Quispe, David

AU - Moscoso-Moscoso, Elibet

AU - Palomino-Rincón, Henry

AU - Taipe-Pardo, Fredy

AU - Landa, John Peter Aguirre

AU - Arévalo-Quijano, José C.

AU - Muñoz-Saenz, Jenny C.

AU - Quispe-Quezada, Uriel R.

AU - Huamán-Carrión, Mary L.

AU - Gutiérrez-Gómez, Edgar

AU - Sucari-León, Reynaldo

AU - Luciano-Alipio, Rober

AU - Muñoz-Saenz, Judy M.

AU - Guzmán Gutiérrez, Rodrigo J.

PY - 2023/7

Y1 - 2023/7

N2 - Native potato clones grown in Peru contain bioactive compounds beneficial to human health. This study aimed to optimize the spray-drying nanoencapsulation of native potato phenolic extracts utilizing a central composite design and response surface methodology, obtaining the optimal treatment to an inlet temperature of 120 °C and an airflow of 141 L/h in the nano spray dryer B-90, which allowed maximizing the yield of encapsulation, antioxidant capacity (DPPH), encapsulation efficiency (EE), total phenolic compounds, and total flavonoids; on the other hand, it allowed minimizing hygroscopicity, water activity (Aw), and moisture. Instrumental characterization of the nanocapsules was also carried out, observing a gain in lightness, reddening of the color, and spherical nanoparticles of heterogeneous size (133.09–165.13 nm) with a negative ζ potential. Thermal, infrared, and morphological analyses confirmed the encapsulation of the core in the wall materials. Furthermore, an in vitro release study of phenolic compounds in an aqueous solution achieved a maximum value of 9.86 mg GAE/g after 12 h. Finally, the obtained nanocapsules could be used in the food and pharmaceutical industry.

AB - Native potato clones grown in Peru contain bioactive compounds beneficial to human health. This study aimed to optimize the spray-drying nanoencapsulation of native potato phenolic extracts utilizing a central composite design and response surface methodology, obtaining the optimal treatment to an inlet temperature of 120 °C and an airflow of 141 L/h in the nano spray dryer B-90, which allowed maximizing the yield of encapsulation, antioxidant capacity (DPPH), encapsulation efficiency (EE), total phenolic compounds, and total flavonoids; on the other hand, it allowed minimizing hygroscopicity, water activity (Aw), and moisture. Instrumental characterization of the nanocapsules was also carried out, observing a gain in lightness, reddening of the color, and spherical nanoparticles of heterogeneous size (133.09–165.13 nm) with a negative ζ potential. Thermal, infrared, and morphological analyses confirmed the encapsulation of the core in the wall materials. Furthermore, an in vitro release study of phenolic compounds in an aqueous solution achieved a maximum value of 9.86 mg GAE/g after 12 h. Finally, the obtained nanocapsules could be used in the food and pharmaceutical industry.

KW - antioxidant capacity

KW - bioactive compounds

KW - central composite rotatable design

KW - optimization

KW - response surface

UR - https://www.scopus.com/pages/publications/85164844673

U2 - 10.3390/molecules28134961

DO - 10.3390/molecules28134961

M3 - Original Article

C2 - 37446623

AN - SCOPUS:85164844673

SN - 1420-3049

VL - 28

JO - Molecules

JF - Molecules

IS - 13

M1 - 4961

ER -

Nanoencapsulation of Phenolic Extracts from Native Potato Clones (Solanum tuberosum spp. andigena) by Spray Drying

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