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3D Cell Culture Systems for the Development of Neural Interfaces

  • Published:2020 Issue: Volume: Page:201-236
  • ISSN:
  • Container-title:Neural Interface Engineering
  • language:
  • Short-container-title:

Author:

Syed Omaer,Chapman Chris,Vallejo-Giraldo Catalina,Genta Martina,Goding Josef,Kanelos Emmanuel,Green Rylie

Publisher

Springer International Publishing

Reference151 articles.

1. Alessandri, K., Feyeux, M., Gurchenkov, B., Delgado, C., Trushko, A., Krause, K. H., Vignjevic, D., Nassoy, P., & Roux, A. (2016). A 3D printed microfluidic device for production of functionalized hydrogel microcapsules for culture and differentiation of human neuronal stem cells (hNSC). Lab on a Chip, 16(9), 1593–1604. https://doi.org/10.1039/c6lc00133e .

2. Antman-Passig, M., & Shefi, O. (2016). Remote magnetic orientation of 3D collagen hydrogels for directed neuronal regeneration. Nano Letters, 16(4), 2567–2573. https://doi.org/10.1021/acs.nanolett.6b00131 .

3. Aregueta-Robles, U. A., Woolley, A. J., Poole-Warren, L. A., Lovell, N. H., & Green, R. A. (2014). Organic electrode coatings for next-generation neural interfaces. Frontiers in Neuroengineering, 7, 421. https://doi.org/10.3389/fneng.2014.00015 .

4. Ayuso, J. M., Virumbrales-Muñoz, M., Lacueva, A., Lanuza, P. M., Checa-Chavarria, E., Botella, P., Fernández, E., Doblare, M., Allison, S. J., Phillips, R. M., Pardo, J., Fernandez, L. J., & Ochoa, I. (2016). Development and characterization of a microfluidic model of the tumour microenvironment. Scientific Reports, 6, 36086. https://doi.org/10.1038/srep36086 , https://www.nature.com/articles/srep36086#supplementary-information .

5. Banerjee, A., Arha, M., Choudhary, S., Ashton, R. S., Bhatia, S. R., Schaffer, D. V., & Kane, R. S. (2009). The influence of hydrogel modulus on the proliferation and differentiation of encapsulated neural stem cells. Biomaterials, 30(27), 4695–4699. https://doi.org/10.1016/j.biomaterials.2009.05.050 .

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