Direct photoacoustic measurement of silicon nanoparticle degradation promoted by a polymer coating

Ivan V. Zelepukin; Evgeny A. Mashkovich; Nikolay A. Lipey; Anton A. Popov; Victoria O. Shipunova; Olga Yu. Griaznova; Mikhail S. Deryabin; Vasily V. Kurin; Petr I. Nikitin; Andrei V. Kabashin; Michael I. Bakunov; Sergey M. Deyev; Andrei V. Zvyagin

doi:10.1016/j.cej.2021.132860

Direct photoacoustic measurement of silicon nanoparticle degradation promoted by a polymer coating

Ivan V. Zelepukin, Evgeny A. Mashkovich, Nikolay A. Lipey, Anton A. Popov, Victoria O. Shipunova, Olga Yu. Griaznova, Mikhail S. Deryabin, Vasily V. Kurin, Petr I. Nikitin, Andrei V. Kabashin, Michael I. Bakunov, Sergey M. Deyev^*, Andrei V. Zvyagin

^*Corresponding author for this work

MQ Photonics Research Centre

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

22 Citations (Scopus)

Abstract

Nanomaterials with controllable biodegradation properties respond to the main challenge of cancer nanomedicine to minimise side effects and maximise the delivery efficacy to tumours. These biodegradation properties vary from clear aqueous solutions to protein-abundant biological fluids. A photoacoustic method suitable for in vitro quantification of highly scattering colloids with optical absorption properties is introduced and demonstrated by determination of the degradation rate of laser-synthesized silicon nanoparticles (Si NPs) in turbid serum solutions. In vitro screening of a variety of polymer surface-coatings of Si NPs revealed a stand-alone property of polyallylamine (PAA) to accelerate the Si NP dissolution. PAA-coated Si NP half-life was measured ∼ 100-min in aqueous solutions and slowed down to ∼ 24 h in serum. As-produced PAA-coated Si NPs appeared suitable for blockade of the mononuclear phagocyte system. Pre-treatment with PAA-Si NPs caused 1.4-times reduced uptake of magnetic particles by human THP-1 cells in vitro and a 13-fold increase of the magnetic particle delivery to the B16-F1 xenograft tumours in vivo. The demonstrated photoacoustic method is believed to facilitate design and screening of biodegradable materials suitable for in vivo applications such as controlled drug release.

Original language	English
Article number	132860
Pages (from-to)	1-12
Number of pages	12
Journal	Chemical Engineering Journal
Volume	430
Issue number	Part 2
DOIs	https://doi.org/10.1016/j.cej.2021.132860
Publication status	Published - 15 Feb 2022

Keywords

Degradable materials
Macrophage blockade
Nanoparticle detection
Photoacoustic
Silicon nanoparticles

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10.1016/j.cej.2021.132860

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Zelepukin, I. V., Mashkovich, E. A., Lipey, N. A., Popov, A. A., Shipunova, V. O., Yu. Griaznova, O., Deryabin, M. S., Kurin, V. V., Nikitin, P. I., Kabashin, A. V., Bakunov, M. I., Deyev, S. M., & Zvyagin, A. V. (2022). Direct photoacoustic measurement of silicon nanoparticle degradation promoted by a polymer coating. Chemical Engineering Journal, 430(Part 2), 1-12. Article 132860. https://doi.org/10.1016/j.cej.2021.132860

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title = "Direct photoacoustic measurement of silicon nanoparticle degradation promoted by a polymer coating",

abstract = "Nanomaterials with controllable biodegradation properties respond to the main challenge of cancer nanomedicine to minimise side effects and maximise the delivery efficacy to tumours. These biodegradation properties vary from clear aqueous solutions to protein-abundant biological fluids. A photoacoustic method suitable for in vitro quantification of highly scattering colloids with optical absorption properties is introduced and demonstrated by determination of the degradation rate of laser-synthesized silicon nanoparticles (Si NPs) in turbid serum solutions. In vitro screening of a variety of polymer surface-coatings of Si NPs revealed a stand-alone property of polyallylamine (PAA) to accelerate the Si NP dissolution. PAA-coated Si NP half-life was measured ∼ 100-min in aqueous solutions and slowed down to ∼ 24 h in serum. As-produced PAA-coated Si NPs appeared suitable for blockade of the mononuclear phagocyte system. Pre-treatment with PAA-Si NPs caused 1.4-times reduced uptake of magnetic particles by human THP-1 cells in vitro and a 13-fold increase of the magnetic particle delivery to the B16-F1 xenograft tumours in vivo. The demonstrated photoacoustic method is believed to facilitate design and screening of biodegradable materials suitable for in vivo applications such as controlled drug release.",

keywords = "Degradable materials, Macrophage blockade, Nanoparticle detection, Photoacoustic, Silicon nanoparticles",

author = "Zelepukin, {Ivan V.} and Mashkovich, {Evgeny A.} and Lipey, {Nikolay A.} and Popov, {Anton A.} and Shipunova, {Victoria O.} and {Yu. Griaznova}, Olga and Deryabin, {Mikhail S.} and Kurin, {Vasily V.} and Nikitin, {Petr I.} and Kabashin, {Andrei V.} and Bakunov, {Michael I.} and Deyev, {Sergey M.} and Zvyagin, {Andrei V.}",

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doi = "10.1016/j.cej.2021.132860",

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Zelepukin, IV, Mashkovich, EA, Lipey, NA, Popov, AA, Shipunova, VO, Yu. Griaznova, O, Deryabin, MS, Kurin, VV, Nikitin, PI, Kabashin, AV, Bakunov, MI, Deyev, SM & Zvyagin, AV 2022, 'Direct photoacoustic measurement of silicon nanoparticle degradation promoted by a polymer coating', Chemical Engineering Journal, vol. 430, no. Part 2, 132860, pp. 1-12. https://doi.org/10.1016/j.cej.2021.132860

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AU - Zelepukin, Ivan V.

AU - Mashkovich, Evgeny A.

AU - Lipey, Nikolay A.

AU - Popov, Anton A.

AU - Shipunova, Victoria O.

AU - Yu. Griaznova, Olga

AU - Deryabin, Mikhail S.

AU - Kurin, Vasily V.

AU - Nikitin, Petr I.

AU - Kabashin, Andrei V.

AU - Bakunov, Michael I.

AU - Deyev, Sergey M.

AU - Zvyagin, Andrei V.

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N2 - Nanomaterials with controllable biodegradation properties respond to the main challenge of cancer nanomedicine to minimise side effects and maximise the delivery efficacy to tumours. These biodegradation properties vary from clear aqueous solutions to protein-abundant biological fluids. A photoacoustic method suitable for in vitro quantification of highly scattering colloids with optical absorption properties is introduced and demonstrated by determination of the degradation rate of laser-synthesized silicon nanoparticles (Si NPs) in turbid serum solutions. In vitro screening of a variety of polymer surface-coatings of Si NPs revealed a stand-alone property of polyallylamine (PAA) to accelerate the Si NP dissolution. PAA-coated Si NP half-life was measured ∼ 100-min in aqueous solutions and slowed down to ∼ 24 h in serum. As-produced PAA-coated Si NPs appeared suitable for blockade of the mononuclear phagocyte system. Pre-treatment with PAA-Si NPs caused 1.4-times reduced uptake of magnetic particles by human THP-1 cells in vitro and a 13-fold increase of the magnetic particle delivery to the B16-F1 xenograft tumours in vivo. The demonstrated photoacoustic method is believed to facilitate design and screening of biodegradable materials suitable for in vivo applications such as controlled drug release.

AB - Nanomaterials with controllable biodegradation properties respond to the main challenge of cancer nanomedicine to minimise side effects and maximise the delivery efficacy to tumours. These biodegradation properties vary from clear aqueous solutions to protein-abundant biological fluids. A photoacoustic method suitable for in vitro quantification of highly scattering colloids with optical absorption properties is introduced and demonstrated by determination of the degradation rate of laser-synthesized silicon nanoparticles (Si NPs) in turbid serum solutions. In vitro screening of a variety of polymer surface-coatings of Si NPs revealed a stand-alone property of polyallylamine (PAA) to accelerate the Si NP dissolution. PAA-coated Si NP half-life was measured ∼ 100-min in aqueous solutions and slowed down to ∼ 24 h in serum. As-produced PAA-coated Si NPs appeared suitable for blockade of the mononuclear phagocyte system. Pre-treatment with PAA-Si NPs caused 1.4-times reduced uptake of magnetic particles by human THP-1 cells in vitro and a 13-fold increase of the magnetic particle delivery to the B16-F1 xenograft tumours in vivo. The demonstrated photoacoustic method is believed to facilitate design and screening of biodegradable materials suitable for in vivo applications such as controlled drug release.

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KW - Macrophage blockade

KW - Nanoparticle detection

KW - Photoacoustic

KW - Silicon nanoparticles

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DO - 10.1016/j.cej.2021.132860

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VL - 430

SP - 1

EP - 12

JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

IS - Part 2

M1 - 132860

ER -

Direct photoacoustic measurement of silicon nanoparticle degradation promoted by a polymer coating

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Keywords

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