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Thermoresponsive and biocompatible poly(N-isopropylacrylamide)–cellulose nanocrystals hydrogel for cell growth

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posted on 2023-12-07, 10:53 authored by Anna TrubetskayaAnna Trubetskaya, Jenni Leppiniemi, Sami Lipponen, Salvatore Lombardo, Wim Thielemans, Thaddeus Maloney, Timo Pääkkönen, Kavindra Kumar Kesari, Janne Ruokolainen, Vesa P Hytönen, Eero Kontturi

We describe herein a poly(N-isopropylacrylamide) (PNIPAAm)–cellulose nanocrystals (CNC) hydrogel as thermoresponsive and biocompatible material. The hydrogel was generated with simple and robust mixing without need for complicated derivatization. The composition of the hydrogel was optimized for good stiffening and its biocompatibility was verified with fibroblast cells. The hydrogel was prepared using an osmotic dehydration method by tuning its water content and porosity without the incorporation of additional cross-linkers. The interaction of PNIPAAm and CNC was supported by the formation of a small endotherm at 30.5–33.5 1C observed with differential scanning calorimetry and a negative value for the enthalpy during the adsorption of both compounds by the isothermal titration calorimeter. The resulting PNIPAAm–CNC hydrogel (0.25 wt%; 0.5 wt%) showed better compatibility with fibroblasts than 0.5 wt% CNC alone. Our preliminary data indicates that it is possible to use the thermoresponsive characteristics of the material to influence cell behavior by temperature changes. PNIPAAm–CNC hydrogel offer a platform for the development of versatile and affordable plant-based materials for controllable 3D cell culture and the thermoresponsive nature of the material may help to develop novel applications for example in 3D-printing.

Funding

Nanocellulose scaffolds for preclinical organoid models

Academy of Finland

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History

Publication

Materials Advances, 2023

Publisher

Royal Society of Chemistry

Other Funding information

The authors would like to acknowledge the Academy of Finland for the financial support by project NanOrganoid (project 337580). Prof. Hytönen and Dr Leppiniemi acknowledge the Biocenter Finland and Tampere Imaging Facility for the service, and thank Niklas Kähkönen and Janne Kärnä (Tampere University) for excellent technical support. Prof. Thielemans and Dr Lombardo thank KU Leuven for funding through SL's PostDoctoral Mandate (grant PDMT 1/21/017) and project C14/18/061. Dr Trubetskaya acknowledges Nansenfondet Oslo Norway for the financial support (project 1051)

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  • Chemical Sciences

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