Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization

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Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization. / Fonte, Pedro; Andrade, Fernanda; Azevedo, Cláudia; Pinto, João; Seabra, Vítor; van de Weert, Marco; Reis, Salette; Sarmento, Bruno.

In: Pharmaceutical Research, Vol. 33, No. 11, 2016, p. 2777–2793.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Fonte, P, Andrade, F, Azevedo, C, Pinto, J, Seabra, V, van de Weert, M, Reis, S & Sarmento, B 2016, 'Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization', Pharmaceutical Research, vol. 33, no. 11, pp. 2777–2793. https://doi.org/10.1007/s11095-016-2004-3

APA

Fonte, P., Andrade, F., Azevedo, C., Pinto, J., Seabra, V., van de Weert, M., Reis, S., & Sarmento, B. (2016). Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization. Pharmaceutical Research, 33(11), 2777–2793. https://doi.org/10.1007/s11095-016-2004-3

Vancouver

Fonte P, Andrade F, Azevedo C, Pinto J, Seabra V, van de Weert M et al. Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization. Pharmaceutical Research. 2016;33(11):2777–2793. https://doi.org/10.1007/s11095-016-2004-3

Author

Fonte, Pedro ; Andrade, Fernanda ; Azevedo, Cláudia ; Pinto, João ; Seabra, Vítor ; van de Weert, Marco ; Reis, Salette ; Sarmento, Bruno. / Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization. In: Pharmaceutical Research. 2016 ; Vol. 33, No. 11. pp. 2777–2793.

Bibtex

@article{88d77e169d4c429297a8d52d75e39c6b,
title = "Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization",
abstract = "PURPOSE: The freezing step in lyophilization is the most determinant for the quality of biopharmaceutics. Using insulin as model of therapeutic protein, our aim was to evaluate the freezing effect in the stability and bioactivity of insulin-loaded PLGA nanoparticles. The performance of trehalose, sucrose and sorbitol as cryoprotectants was evaluated.METHODS: Cryoprotectants were co-encapsulated with insulin into PLGA nanoparticles and lyophilized using an optimized cycle with freezing at -80°C, in liquid nitrogen, or ramped cooling at -40°C. Upon lyophilization, the stability of protein structure and in vivo bioactivity were assessed.RESULTS: Insulin was co-encapsulated with cryoprotectants resulting in particles of 243-394 nm, zeta potential of -32 to -35 mV, and an association efficiency above 90%. The cryoprotectants were crucial to mitigate the freezing stresses and better stabilize the protein. The insulin structure maintenance was evident and close to 90%. Trehalose co-encapsulated insulin-loaded PLGA nanoparticles demonstrated enhanced hypoglycemic effect, comparatively to nanoparticles without cryoprotectant and added with trehalose, due to a superior insulin stabilization and bioactivity.CONCLUSIONS: The freezing process may be detrimental to the structure of protein loaded into nanoparticles, with negative consequences to bioactivity. The co-encapsulation of cryoprotectants mitigated the freezing stresses with benefits to protein bioactivity.",
author = "Pedro Fonte and Fernanda Andrade and Cl{\'a}udia Azevedo and Jo{\~a}o Pinto and V{\'i}tor Seabra and {van de Weert}, Marco and Salette Reis and Bruno Sarmento",
year = "2016",
doi = "10.1007/s11095-016-2004-3",
language = "English",
volume = "33",
pages = "2777–2793",
journal = "Pharmaceutical Research",
issn = "0724-8741",
publisher = "Springer",
number = "11",

}

RIS

TY - JOUR

T1 - Effect of the Freezing Step in the Stability and Bioactivity of Protein-Loaded PLGA Nanoparticles Upon Lyophilization

AU - Fonte, Pedro

AU - Andrade, Fernanda

AU - Azevedo, Cláudia

AU - Pinto, João

AU - Seabra, Vítor

AU - van de Weert, Marco

AU - Reis, Salette

AU - Sarmento, Bruno

PY - 2016

Y1 - 2016

N2 - PURPOSE: The freezing step in lyophilization is the most determinant for the quality of biopharmaceutics. Using insulin as model of therapeutic protein, our aim was to evaluate the freezing effect in the stability and bioactivity of insulin-loaded PLGA nanoparticles. The performance of trehalose, sucrose and sorbitol as cryoprotectants was evaluated.METHODS: Cryoprotectants were co-encapsulated with insulin into PLGA nanoparticles and lyophilized using an optimized cycle with freezing at -80°C, in liquid nitrogen, or ramped cooling at -40°C. Upon lyophilization, the stability of protein structure and in vivo bioactivity were assessed.RESULTS: Insulin was co-encapsulated with cryoprotectants resulting in particles of 243-394 nm, zeta potential of -32 to -35 mV, and an association efficiency above 90%. The cryoprotectants were crucial to mitigate the freezing stresses and better stabilize the protein. The insulin structure maintenance was evident and close to 90%. Trehalose co-encapsulated insulin-loaded PLGA nanoparticles demonstrated enhanced hypoglycemic effect, comparatively to nanoparticles without cryoprotectant and added with trehalose, due to a superior insulin stabilization and bioactivity.CONCLUSIONS: The freezing process may be detrimental to the structure of protein loaded into nanoparticles, with negative consequences to bioactivity. The co-encapsulation of cryoprotectants mitigated the freezing stresses with benefits to protein bioactivity.

AB - PURPOSE: The freezing step in lyophilization is the most determinant for the quality of biopharmaceutics. Using insulin as model of therapeutic protein, our aim was to evaluate the freezing effect in the stability and bioactivity of insulin-loaded PLGA nanoparticles. The performance of trehalose, sucrose and sorbitol as cryoprotectants was evaluated.METHODS: Cryoprotectants were co-encapsulated with insulin into PLGA nanoparticles and lyophilized using an optimized cycle with freezing at -80°C, in liquid nitrogen, or ramped cooling at -40°C. Upon lyophilization, the stability of protein structure and in vivo bioactivity were assessed.RESULTS: Insulin was co-encapsulated with cryoprotectants resulting in particles of 243-394 nm, zeta potential of -32 to -35 mV, and an association efficiency above 90%. The cryoprotectants were crucial to mitigate the freezing stresses and better stabilize the protein. The insulin structure maintenance was evident and close to 90%. Trehalose co-encapsulated insulin-loaded PLGA nanoparticles demonstrated enhanced hypoglycemic effect, comparatively to nanoparticles without cryoprotectant and added with trehalose, due to a superior insulin stabilization and bioactivity.CONCLUSIONS: The freezing process may be detrimental to the structure of protein loaded into nanoparticles, with negative consequences to bioactivity. The co-encapsulation of cryoprotectants mitigated the freezing stresses with benefits to protein bioactivity.

U2 - 10.1007/s11095-016-2004-3

DO - 10.1007/s11095-016-2004-3

M3 - Journal article

C2 - 27444681

VL - 33

SP - 2777

EP - 2793

JO - Pharmaceutical Research

JF - Pharmaceutical Research

SN - 0724-8741

IS - 11

ER -

ID: 164467134