Laser-Assisted Fabrication of Injectable Nanofibrous Cell Carriers

Paweł Nakielski¹, Chiara Rinoldi¹, Michał Pruchniewski^{1

2}, Sylwia Pawłowska¹, Małgorzata Gazińska³, Barbara Strojny², Daniel Rybak¹, Katarzyna Jezierska-Woźniak⁴, Olga Urbanek⁵, Piotr Denis⁵, Emilia Sinderewicz⁴, Wioleta Czelejewska⁴, Joanna Staszkiewicz-Chodor⁴, Marta Grodzik², Yasamin Ziai¹, Monika Barczewska⁴, Wojciech Maksymowicz⁴, Filippo Pierini¹

Affiliations

¹ Department of Biosystems and Soft Matter, Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, 02-106, Poland.
² Department of Nanobiotechnology, Institute of Biology, Warsaw University of Life Sciences, Warsaw, 02-787, Poland.
³ Department of Engineering and Technology of Polymers, Wrocław University of Science and Technology, Wrocław, 50-370, Poland.
⁴ Laboratory for Regenerative Medicine, Department of Neurosurgery, School of Medicine, University of Warmia and Mazury in Olsztyn, Olsztyn, 10-082, Poland.
⁵ Laboratory of Polymers and Biomaterials, Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, 02-106, Poland.

PMID: 34802179
DOI: 10.1002/smll.202104971

Laser-Assisted Fabrication of Injectable Nanofibrous Cell Carriers

Paweł Nakielski et al. Small. 2022 Jan.

. 2022 Jan;18(2):e2104971.

doi: 10.1002/smll.202104971. Epub 2021 Nov 21.

Authors

Affiliations

¹ Department of Biosystems and Soft Matter, Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, 02-106, Poland.
² Department of Nanobiotechnology, Institute of Biology, Warsaw University of Life Sciences, Warsaw, 02-787, Poland.
³ Department of Engineering and Technology of Polymers, Wrocław University of Science and Technology, Wrocław, 50-370, Poland.
⁴ Laboratory for Regenerative Medicine, Department of Neurosurgery, School of Medicine, University of Warmia and Mazury in Olsztyn, Olsztyn, 10-082, Poland.
⁵ Laboratory of Polymers and Biomaterials, Institute of Fundamental Technological Research, Polish Academy of Sciences, Warsaw, 02-106, Poland.

PMID: 34802179
DOI: 10.1002/smll.202104971

Abstract

The use of injectable biomaterials for cell delivery is a rapidly expanding field which may revolutionize the medical treatments by making them less invasive. However, creating desirable cell carriers poses significant challenges to the clinical implementation of cell-based therapeutics. At the same time, no method has been developed to produce injectable microscaffolds (MSs) from electrospun materials. Here the fabrication of injectable electrospun nanofibers is reported on, which retain their fibrous structure to mimic the extracellular matrix. The laser-assisted micro-scaffold fabrication has produced tens of thousands of MSs in a short time. An efficient attachment of cells to the surface and their proliferation is observed, creating cell-populated MSs. The cytocompatibility assays proved their biocompatibility, safety, and potential as cell carriers. Ex vivo results with the use of bone and cartilage tissues proved that NaOH hydrolyzed and chitosan functionalized MSs are compatible with living tissues and readily populated with cells. Injectability studies of MSs showed a high injectability rate, while at the same time, the force needed to eject the load is no higher than 25 N. In the future, the produced MSs may be studied more in-depth as cell carriers in minimally invasive cell therapies and 3D bioprinting applications.

Keywords: cell carriers; electrospun fibers; injectable biomaterials; laser-assisted microfabrication; microscaffolds.

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References

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Laser-Assisted Fabrication of Injectable Nanofibrous Cell Carriers

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Laser-Assisted Fabrication of Injectable Nanofibrous Cell Carriers

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