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

Research output: Contribution to journal › Original Article › peer-review

23 Scopus citations

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.

Original language	American English
Article number	4961
Journal	Molecules
Volume	28
Issue number	13
DOIs	https://doi.org/10.3390/molecules28134961
State	Indexed - Jul 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 by the authors.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

antioxidant capacity
bioactive compounds
central composite rotatable design
optimization
response surface

Access to Document

10.3390/molecules28134961

Cite this

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), Article 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, no. 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

Abstract

Bibliographical note

UN SDGs

Keywords

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