curcumin and curdlan

curcumin has been researched along with curdlan* in 2 studies

Other Studies

2 other study(ies) available for curcumin and curdlan

Article	Year
Polysaccharide-based nanoparticles fabricated from oppositely charged curdlan derivatives for curcumin encapsulation. International journal of biological macromolecules, 2022, Jul-31, Volume: 213 In this study, carboxylic curdlan (Cur-48) and negatively charged ferulic acid (FA)-grafted carboxylic curdlan (Cur-48-g-FA) were separately used to fabricate polyelectrolyte nanoparticles (PNPs: PNPs-CQ and PNPs-CFQ) with positively charged quaternized curdlan (Qcurd) for curcumin delivery. Results showed that curcumin-loaded PNPs-CQ and PNPs-CFQ had particle sizes of 338.1 and 301.3 nm, zeta potentials of -19.07 and -24.10 mV, and encapsulation efficiencies of 76.32% and 83.54%, respectively. Curcumin was properly encapsulated inside the two PNPs through electrostatic interactions and hydrogen bonds. Compared with free curcumin, entrapped curcumin in the two PNPs exhibited better redispersion performance, thermo- and photostability, and sustained release property. Furthermore, FA molecules surrounding the surface of PNPs-CFQ were conductive to the entrapped curcumin's particulate characteristics, stability, release behavior, and antioxidant potentials. Therefore, our findings indicated that PNPs formulated via Cur-48-g-FA and Qcurd can provide a novel delivery platform for encapsulation of hydrophobic nutrients, including curcumin, in functional foods. Topics: beta-Glucans; Curcumin; Drug Carriers; Drug Delivery Systems; Nanoparticles; Particle Size; Polysaccharides	2022
Quaternized curdlan/pectin polyelectrolyte complexes as biocompatible nanovehicles for curcumin. Food chemistry, 2019, Sep-01, Volume: 291 In this study, a positively charged quaternized curdlan (Qcurd) was used to fabricate polyelectrolyte complex nanoparticles (PEC NPs) with a negatively charged pectin via electrostatic complexation. Results showed that the Qcurd/pectin PEC NPs prepared with 0.5 mg/mL Qcurd and pectin solutions, 1:2 pectin/Qcurd mass ratio, and pH 4.0 in the absence of NaCl were characterized by a spherical morphology in nanoscale, an average particle size of 68 nm, and good dispersibility in aqueous solutions. Curcumin was encapsulated in the Qcurd/pectin PEC NPs through hydrogen bonding with an encapsulation efficiency of ∼82%, a loading content of 13%, and a pH-dependent controlled release. Curcumin-loaded PEC NPs exhibited a significantly enhanced water solubility, excellent free radical scavenging ability and antioxidant capacity in vitro as compared with those of free curcumin. Topics: beta-Glucans; Biocompatible Materials; Curcumin; Drug Carriers; Nanoparticles; Particle Size; Pectins; Polyelectrolytes; Solubility	2019

Article

Year

Polysaccharide-based nanoparticles fabricated from oppositely charged curdlan derivatives for curcumin encapsulation.

International journal of biological macromolecules, 2022, Jul-31, Volume: 213

In this study, carboxylic curdlan (Cur-48) and negatively charged ferulic acid (FA)-grafted carboxylic curdlan (Cur-48-g-FA) were separately used to fabricate polyelectrolyte nanoparticles (PNPs: PNPs-CQ and PNPs-CFQ) with positively charged quaternized curdlan (Qcurd) for curcumin delivery. Results showed that curcumin-loaded PNPs-CQ and PNPs-CFQ had particle sizes of 338.1 and 301.3 nm, zeta potentials of -19.07 and -24.10 mV, and encapsulation efficiencies of 76.32% and 83.54%, respectively. Curcumin was properly encapsulated inside the two PNPs through electrostatic interactions and hydrogen bonds. Compared with free curcumin, entrapped curcumin in the two PNPs exhibited better redispersion performance, thermo- and photostability, and sustained release property. Furthermore, FA molecules surrounding the surface of PNPs-CFQ were conductive to the entrapped curcumin's particulate characteristics, stability, release behavior, and antioxidant potentials. Therefore, our findings indicated that PNPs formulated via Cur-48-g-FA and Qcurd can provide a novel delivery platform for encapsulation of hydrophobic nutrients, including curcumin, in functional foods.

Topics: beta-Glucans; Curcumin; Drug Carriers; Drug Delivery Systems; Nanoparticles; Particle Size; Polysaccharides

2022

Quaternized curdlan/pectin polyelectrolyte complexes as biocompatible nanovehicles for curcumin.

Food chemistry, 2019, Sep-01, Volume: 291

In this study, a positively charged quaternized curdlan (Qcurd) was used to fabricate polyelectrolyte complex nanoparticles (PEC NPs) with a negatively charged pectin via electrostatic complexation. Results showed that the Qcurd/pectin PEC NPs prepared with 0.5 mg/mL Qcurd and pectin solutions, 1:2 pectin/Qcurd mass ratio, and pH 4.0 in the absence of NaCl were characterized by a spherical morphology in nanoscale, an average particle size of 68 nm, and good dispersibility in aqueous solutions. Curcumin was encapsulated in the Qcurd/pectin PEC NPs through hydrogen bonding with an encapsulation efficiency of ∼82%, a loading content of 13%, and a pH-dependent controlled release. Curcumin-loaded PEC NPs exhibited a significantly enhanced water solubility, excellent free radical scavenging ability and antioxidant capacity in vitro as compared with those of free curcumin.

Topics: beta-Glucans; Biocompatible Materials; Curcumin; Drug Carriers; Nanoparticles; Particle Size; Pectins; Polyelectrolytes; Solubility

2019