Preparation and characterization of PEG-coated silica nanoparticles for oral insulin delivery

Tatiana Andreani; Ana L.uiza R. de Souza; Charlene P. Kiill; Esteban N. Lorenzón; Joana F. Fangueiro; Ana C.ristina Calpena; Marco V. Chaud; Maria L. Garcia; Maria P.almira D. Gremião; Amélia M. Silva; Eliana B. Souto

doi:10.1016/j.ijpharm.2014.07.049

Preparation and characterization of PEG-coated silica nanoparticles for oral insulin delivery

Tatiana Andreani, Ana L.uiza R. de Souza, Charlene P. Kiill, Esteban N. Lorenzón, Joana F. Fangueiro, Ana C.ristina Calpena, Marco V. Chaud, Maria L. Garcia, Maria P.almira D. Gremião, Amélia M. Silva, Eliana B. Souto

Centre for Biotechnology and Fine Chemistry (CBQF)

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

94 Citations (Scopus)

Abstract

The present study reports the production and characterization of PEG-coated silica nanoparticles (SiNP-PEG) containing insulin for oral administration. High (PEG 20,000) and low (PEG 6000) PEG molecular weights were used in the preparations. SiNP were produced by sol-gel technology followed by PEG adsorption and characterized for in vitro release by Franz diffusion cells. In vitro permeation profile was assessed using everted rat intestine. HPLC method has been validated for the determination of insulin released and permeated. Insulin secondary structure was performed by circular dichroism (CD). Uncoated SiNP allowed slower insulin release in comparison to SiNP-PEG. The coating with high molecular weight PEG did not significantly (p> 0.05) alter insulin release. The slow insulin release is attributed to the affinity of insulin for silanol groups at silica surface. Drug release followed second order kinetics for uncoated and SiNP-PEG at pH 2.0. On the other hand, at pH 6.8, the best fitting was first-order for SiNP-PEG, except for SiNP which showed a Boltzmann behavior. Comparing the values of half-live, SiNP-PEG 20,000 showed a faster diffusion followed by Si-PEG 6000 and SiNP. CD studies showed no conformational changes occurring after protein release from the nanoparticles under gastrointestinal simulated conditions.

Original language	English
Pages (from-to)	627-635
Number of pages	9
Journal	International Journal of Pharmaceutics
Volume	473
Issue number	1-2
DOIs	https://doi.org/10.1016/j.ijpharm.2014.07.049
Publication status	Published - 1 Oct 2014

Keywords

HPLC validation
Insulin
Mathematic modeling
Oral delivery
PEG adsorption
Silica nanoparticles

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10.1016/j.ijpharm.2014.07.049

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Andreani, T., de Souza, A. L. U. R., Kiill, C. P., Lorenzón, E. N., Fangueiro, J. F., Calpena, A. C. R., Chaud, M. V., Garcia, M. L., Gremião, M. P. A. D., Silva, A. M., & Souto, E. B. (2014). Preparation and characterization of PEG-coated silica nanoparticles for oral insulin delivery. International Journal of Pharmaceutics, 473(1-2), 627-635. https://doi.org/10.1016/j.ijpharm.2014.07.049

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title = "Preparation and characterization of PEG-coated silica nanoparticles for oral insulin delivery",

abstract = "The present study reports the production and characterization of PEG-coated silica nanoparticles (SiNP-PEG) containing insulin for oral administration. High (PEG 20,000) and low (PEG 6000) PEG molecular weights were used in the preparations. SiNP were produced by sol-gel technology followed by PEG adsorption and characterized for in vitro release by Franz diffusion cells. In vitro permeation profile was assessed using everted rat intestine. HPLC method has been validated for the determination of insulin released and permeated. Insulin secondary structure was performed by circular dichroism (CD). Uncoated SiNP allowed slower insulin release in comparison to SiNP-PEG. The coating with high molecular weight PEG did not significantly (p> 0.05) alter insulin release. The slow insulin release is attributed to the affinity of insulin for silanol groups at silica surface. Drug release followed second order kinetics for uncoated and SiNP-PEG at pH 2.0. On the other hand, at pH 6.8, the best fitting was first-order for SiNP-PEG, except for SiNP which showed a Boltzmann behavior. Comparing the values of half-live, SiNP-PEG 20,000 showed a faster diffusion followed by Si-PEG 6000 and SiNP. CD studies showed no conformational changes occurring after protein release from the nanoparticles under gastrointestinal simulated conditions.",

keywords = "HPLC validation, Insulin, Mathematic modeling, Oral delivery, PEG adsorption, Silica nanoparticles",

author = "Tatiana Andreani and {de Souza}, {Ana L.uiza R.} and Kiill, {Charlene P.} and Lorenz{\'o}n, {Esteban N.} and Fangueiro, {Joana F.} and Calpena, {Ana C.ristina} and Chaud, {Marco V.} and Garcia, {Maria L.} and Gremi{\~a}o, {Maria P.almira D.} and Silva, {Am{\'e}lia M.} and Souto, {Eliana B.}",

note = "Funding Information: The work was partially supported by Funda{\c c}{\~a}o para a Ci{\^e}ncia e Tecnologia (FCT, Portugal), namely, the PhD scholarships SFRH/BD/60640/2009 for T. Andreani and SFRH/BD/80335/2011 for J.F. Fangueiro. FCT is also acknowledged under the reference PTDC/SAU-FAR/113100/2009 and PEst-C/AGR/UI4033/2011. The authors acknowledge the support by Funda{\c c}{\~a}o de Amparo {\`a} Pesquisa do Estado de S{\~a}o Paulo (FAPESP) for the Ph.D. scholarship for C.P. Kiill under the reference 2012/10174-3 and for E.N. Lorenz{\'o}n under the reference 140758/2011-9. Publisher Copyright: Copyright {\textcopyright} 2014 Elsevier B.V. All rights reserved.",

year = "2014",

month = oct,

day = "1",

doi = "10.1016/j.ijpharm.2014.07.049",

language = "English",

volume = "473",

pages = "627--635",

journal = "International Journal of Pharmaceutics",

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TY - JOUR

T1 - Preparation and characterization of PEG-coated silica nanoparticles for oral insulin delivery

AU - Andreani, Tatiana

AU - de Souza, Ana L.uiza R.

AU - Kiill, Charlene P.

AU - Lorenzón, Esteban N.

AU - Fangueiro, Joana F.

AU - Calpena, Ana C.ristina

AU - Chaud, Marco V.

AU - Garcia, Maria L.

AU - Gremião, Maria P.almira D.

AU - Silva, Amélia M.

AU - Souto, Eliana B.

N1 - Funding Information: The work was partially supported by Fundação para a Ciência e Tecnologia (FCT, Portugal), namely, the PhD scholarships SFRH/BD/60640/2009 for T. Andreani and SFRH/BD/80335/2011 for J.F. Fangueiro. FCT is also acknowledged under the reference PTDC/SAU-FAR/113100/2009 and PEst-C/AGR/UI4033/2011. The authors acknowledge the support by Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) for the Ph.D. scholarship for C.P. Kiill under the reference 2012/10174-3 and for E.N. Lorenzón under the reference 140758/2011-9. Publisher Copyright: Copyright © 2014 Elsevier B.V. All rights reserved.

PY - 2014/10/1

Y1 - 2014/10/1

N2 - The present study reports the production and characterization of PEG-coated silica nanoparticles (SiNP-PEG) containing insulin for oral administration. High (PEG 20,000) and low (PEG 6000) PEG molecular weights were used in the preparations. SiNP were produced by sol-gel technology followed by PEG adsorption and characterized for in vitro release by Franz diffusion cells. In vitro permeation profile was assessed using everted rat intestine. HPLC method has been validated for the determination of insulin released and permeated. Insulin secondary structure was performed by circular dichroism (CD). Uncoated SiNP allowed slower insulin release in comparison to SiNP-PEG. The coating with high molecular weight PEG did not significantly (p> 0.05) alter insulin release. The slow insulin release is attributed to the affinity of insulin for silanol groups at silica surface. Drug release followed second order kinetics for uncoated and SiNP-PEG at pH 2.0. On the other hand, at pH 6.8, the best fitting was first-order for SiNP-PEG, except for SiNP which showed a Boltzmann behavior. Comparing the values of half-live, SiNP-PEG 20,000 showed a faster diffusion followed by Si-PEG 6000 and SiNP. CD studies showed no conformational changes occurring after protein release from the nanoparticles under gastrointestinal simulated conditions.

AB - The present study reports the production and characterization of PEG-coated silica nanoparticles (SiNP-PEG) containing insulin for oral administration. High (PEG 20,000) and low (PEG 6000) PEG molecular weights were used in the preparations. SiNP were produced by sol-gel technology followed by PEG adsorption and characterized for in vitro release by Franz diffusion cells. In vitro permeation profile was assessed using everted rat intestine. HPLC method has been validated for the determination of insulin released and permeated. Insulin secondary structure was performed by circular dichroism (CD). Uncoated SiNP allowed slower insulin release in comparison to SiNP-PEG. The coating with high molecular weight PEG did not significantly (p> 0.05) alter insulin release. The slow insulin release is attributed to the affinity of insulin for silanol groups at silica surface. Drug release followed second order kinetics for uncoated and SiNP-PEG at pH 2.0. On the other hand, at pH 6.8, the best fitting was first-order for SiNP-PEG, except for SiNP which showed a Boltzmann behavior. Comparing the values of half-live, SiNP-PEG 20,000 showed a faster diffusion followed by Si-PEG 6000 and SiNP. CD studies showed no conformational changes occurring after protein release from the nanoparticles under gastrointestinal simulated conditions.

KW - HPLC validation

KW - Insulin

KW - Mathematic modeling

KW - Oral delivery

KW - PEG adsorption

KW - Silica nanoparticles

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DO - 10.1016/j.ijpharm.2014.07.049

M3 - Article

C2 - 25089510

AN - SCOPUS:85027923100

SN - 0378-5173

VL - 473

SP - 627

EP - 635

JO - International Journal of Pharmaceutics

JF - International Journal of Pharmaceutics

IS - 1-2

ER -

Preparation and characterization of PEG-coated silica nanoparticles for oral insulin delivery

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Keywords

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