The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines

Braet, Helena; Andretto, Valentina; Mariën, Remco; Yücesan, Beyza; van der Vegte, Stefan; Haegebaert, Ragna; Lollo, Giovanna; De Smedt, Stefaan; Remaut, Katrien

The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines

Helena Braet, Valentina Andretto, Remco Mariën, Beyza Yücesan (UGent) , Stefan van der Vegte, Ragna Haegebaert (UGent) , Giovanna Lollo, Stefaan De Smedt (UGent) and Katrien Remaut (UGent)

(2023) ACTA BIOMATERIALIA. 170. p.318-329

Author

Helena Braet, Valentina Andretto, Remco Mariën, Beyza Yücesan (UGent) , Stefan van der Vegte, Ragna Haegebaert (UGent) , Giovanna Lollo, Stefaan De Smedt (UGent) and Katrien Remaut (UGent)

Organization

Department of Pharmaceutics

Project

Intraperitoneal nebulization of thermosensitive hydrogels for the controlled release of chemotherapeutics and biopharmaceuticals to treat peritoneal carcinomatosis
DeLNAM (Strengthening the Research Area of Delivery of Nucleic acid mimics (NAMS) into bacteria to fight the antibiotic crisis)
High pressure intraperitoneal aerosolization of chemotherapeutics, nanoparticles and hydrogels to treat peritoneal carcinomatosis: effect on tumor penetration, biodistribution and anti-cancer activity.

Keywords

Molecular Biology, Biomedical Engineering, Biochemistry, Biomaterials, General Medicine, Biotechnology, ePIPAC, Nebulization, Lipid nanoparticles, Polymeric nanoparticles, Intraperitoneal, Drug delivery, INTRAPERITONEAL AEROSOL CHEMOTHERAPY, PERITONEAL CARCINOMATOSIS, LAPAROSCOPIC SURGERY, TECHNICAL DESCRIPTION, CELLULAR UPTAKE, OVARIAN-CANCER, DELIVERY, THERAPY, PIPAC, SIRNA

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01HHM5SCDDA55B9Z90QGHSE5KR

MLA: Braet, Helena, et al. “The Effect of Electrostatic High Pressure Nebulization on the Stability, Activity and Ex Vivo Distribution of Ionic Self-Assembled Nanomedicines.” ACTA BIOMATERIALIA, vol. 170, 2023, pp. 318–29, doi:10.1016/j.actbio.2023.08.027.
APA: Braet, H., Andretto, V., Mariën, R., Yücesan, B., van der Vegte, S., Haegebaert, R., … Remaut, K. (2023). The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines. ACTA BIOMATERIALIA, 170, 318–329. https://doi.org/10.1016/j.actbio.2023.08.027
Chicago author-date: Braet, Helena, Valentina Andretto, Remco Mariën, Beyza Yücesan, Stefan van der Vegte, Ragna Haegebaert, Giovanna Lollo, Stefaan De Smedt, and Katrien Remaut. 2023. “The Effect of Electrostatic High Pressure Nebulization on the Stability, Activity and Ex Vivo Distribution of Ionic Self-Assembled Nanomedicines.” ACTA BIOMATERIALIA 170: 318–29. https://doi.org/10.1016/j.actbio.2023.08.027.
Chicago author-date (all authors): Braet, Helena, Valentina Andretto, Remco Mariën, Beyza Yücesan, Stefan van der Vegte, Ragna Haegebaert, Giovanna Lollo, Stefaan De Smedt, and Katrien Remaut. 2023. “The Effect of Electrostatic High Pressure Nebulization on the Stability, Activity and Ex Vivo Distribution of Ionic Self-Assembled Nanomedicines.” ACTA BIOMATERIALIA 170: 318–329. doi:10.1016/j.actbio.2023.08.027.
Vancouver: 1.
Braet H, Andretto V, Mariën R, Yücesan B, van der Vegte S, Haegebaert R, et al. The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines. ACTA BIOMATERIALIA. 2023;170:318–29.
IEEE: [1]
H. Braet et al., “The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines,” ACTA BIOMATERIALIA, vol. 170, pp. 318–329, 2023.

@article{01HHM5SCDDA55B9Z90QGHSE5KR,
  author       = {{Braet, Helena and Andretto, Valentina and Mariën, Remco and Yücesan, Beyza and van der Vegte, Stefan and Haegebaert, Ragna and Lollo, Giovanna and De Smedt, Stefaan and Remaut, Katrien}},
  issn         = {{1742-7061}},
  journal      = {{ACTA BIOMATERIALIA}},
  keywords     = {{Molecular Biology,Biomedical Engineering,Biochemistry,Biomaterials,General Medicine,Biotechnology,ePIPAC,Nebulization,Lipid nanoparticles,Polymeric nanoparticles,Intraperitoneal,Drug delivery,INTRAPERITONEAL AEROSOL CHEMOTHERAPY,PERITONEAL CARCINOMATOSIS,LAPAROSCOPIC SURGERY,TECHNICAL DESCRIPTION,CELLULAR UPTAKE,OVARIAN-CANCER,DELIVERY,THERAPY,PIPAC,SIRNA}},
  language     = {{eng}},
  pages        = {{318--329}},
  title        = {{The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines}},
  url          = {{http://doi.org/10.1016/j.actbio.2023.08.027}},
  volume       = {{170}},
  year         = {{2023}},
}

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The effect of electrostatic high pressure nebulization on the stability, activity and ex vivo distribution of ionic self-assembled nanomedicines

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