Zaine Teixeira scite author profile

The FTIR, Raman, UV‐Vis, 31P MAS‐NMR, DTA, and refractive index measurements have been combined to investigate a series of glasses with the general formula 20Na2O–5Al2O3−xTiO2–(45−x)Nb2O5–30P2O5, 15≤x≤45. The glass structure, as well as thermal, optical, and chemical durability properties, were then described as functions of the fNb/fTi ratio. An increase of the fNb/fTi ratio correlates with a decrease in length of the average phosphate chains linked through Nb–O–P and Ti–O–P bonds, with an increase in the glass stability and with increase in the linear refractive indices at 632.8 nm from 1.79 to 1.89. Furthermore, niobium is more effective than titanium in improving chemical durability.

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Retinyl palmitate flexible polymeric nanocapsules: Characterization and permeation studies

Teixeira

Zanchetta

Melo

et al. 2010

Colloids and Surfaces B: Biointerfaces

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State of the Art of Nanobiotechnology Applications in Neglected Diseases

Marcato¹,

Teixeira²,

Durán³

et al. 2009

CNANO

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Insulin-Loaded Poly(ε-Caprolactone) Nanoparticles: Efficient, Sustained and Safe Insulin Delivery System

Araújo¹,

Teixeira²,

Barbosa-Sampaio³

et al. 2013

Journal of Biomedical Nanotechnology

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The aim of this work was to develop an efficient, biodegradable, biocompatible and safe controlled release system using insulin-loaded poly(epsilon-caprolactone) (PCL) nanoparticles. The insulin-loaded PCL nanoparticles were prepared by double emulsion method (water-in-oil-in-water) using Pluronic F68 as emulsifier. Using the double emulsion method a high insulin encapsulation efficiency (90.6 +/-1.6%) with a zeta potential of -29 +/-2.7 mV and average particle size of 796 +/-10.5 nm was obtained. Insulin-loaded PCL nanoparticles showed no toxicity to MIN6 cells. Insulin nanoparticles administered subcutaneously and intraperitoneally in rats reduced glycaemia of basal levels after 15 minutes, and presented a sustainable hypoglycemic effect on insulin-dependent type 1 diabetic rats, showing to be more efficient than unencapsulated insulin. Furthermore, these nanoparticles were not hepatotoxic, as evaluated by the effect over liver cell-death and oxidative stress scavenger system in rats. These results suggest that insulin-loaded PCL nanoparticles prepared by water-in-oil-in-water emulsion method are biocompatible, efficient and safe insulin-delivering system with controlled insulin release, which indicates that it may be a powerful tool for insulin-dependent patients care.

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Zaine Teixeira

Structure, Thermal Behavior, Chemical Durability, and Optical Properties of the Na₂O–Al₂O₃–TiO₂–Nb₂O₅–P₂O₅ Glass System

Retinyl palmitate flexible polymeric nanocapsules: Characterization and permeation studies

State of the Art of Nanobiotechnology Applications in Neglected Diseases

Insulin-Loaded Poly(ε-Caprolactone) Nanoparticles: Efficient, Sustained and Safe Insulin Delivery System

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Zaine Teixeira

Structure, Thermal Behavior, Chemical Durability, and Optical Properties of the Na2O–Al2O3–TiO2–Nb2O5–P2O5 Glass System

Retinyl palmitate flexible polymeric nanocapsules: Characterization and permeation studies

State of the Art of Nanobiotechnology Applications in Neglected Diseases

Insulin-Loaded Poly(ε-Caprolactone) Nanoparticles: Efficient, Sustained and Safe Insulin Delivery System

Contact Info

Product

Resources

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Structure, Thermal Behavior, Chemical Durability, and Optical Properties of the Na₂O–Al₂O₃–TiO₂–Nb₂O₅–P₂O₅ Glass System