3D printing of solid liquid composites for cell-like based artificial skin model

Cabral, Kianna; Thiriot, Laureline; Röhrnbauer, Barbara; Bonmarin, Mathias; Spano, Fabrizio

doi:10.21256/zhaw-30588

Please use this identifier to cite or link to this item: https://doi.org/10.21256/zhaw-30588

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DC Field	Value	Language
dc.contributor.author	Cabral, Kianna	-
dc.contributor.author	Thiriot, Laureline	-
dc.contributor.author	Röhrnbauer, Barbara	-
dc.contributor.author	Bonmarin, Mathias	-
dc.contributor.author	Spano, Fabrizio	-
dc.date.accessioned	2024-05-02T12:59:50Z	-
dc.date.available	2024-05-02T12:59:50Z	-
dc.date.issued	2023-09-04	-
dc.identifier.uri	https://digitalcollection.zhaw.ch/handle/11475/30588	-
dc.description.abstract	Artificial skin models have become increasingly important in biomedical research. In recent years, 3D printing technology has emerged as a powerful tool for the fabrication of complex, biomimetic skin models. To address this challenge, researchers are exploring the use of solid-liquid composites in 3D printing to create more realistic and functional skin models. Therefore, the development of a skin model using a solid-liquid composite is an attractive approach to bridge the gap between the two types of models. This work presents a 3D printing-based approach to create a cell-like based artificial skin model using a solid-liquid composite material. The composite material is composed of a flexible polymeric matrix (polydimethylsiloxane) and a liquid substance (glycerol with blue dye). The flexible matrix provides structural support and stability, while the liquid substance mimics the presence of cells into the skin, providing an additional mechanical flexibility to the silicon-based material. Based on a previous development of the encapsulation of droplets into unpolymerized silicon-based material, here the 3D printing process allows for precise control over the architecture and composition of the skin model, enabling the creation of multilayered complex structures with cell-like arrangements (Figure 1). The printing process also allows for the incorporation of different substances, different sizes and densities of droplets and droplet arrangements. In a next step, even the incorporation of multiple cell types, such as keratinocytes and fibroblasts, to create a more realistic and functional skin model would be considered. We expect for the resulting skin model to exhibit characteristics like human skin, including mechanical flexibility. Overall, the 3D printing of solid-liquid composites for a cell-like based artificial skin model provides a promising platform for the development of a realistic and functional skin model that can be used for a range of applications, including tissue engineering and durotaxis. The approach described in this work provides a foundation for further optimization and development of skin models using solid-liquid composites. While there are still challenges associated with achieving optimal printing parameters, the potential benefits of these models make them an exciting area of research for the future. In parallel to the development of these 3D printed cell-like based skin models, additional experimental and computational works have been realized elsewhere to characterize the influence of the encapsulated droplets on the local mechanical properties of the obtained material.	de_CH
dc.language.iso	en	de_CH
dc.publisher	ZHAW Zürcher Hochschule für Angewandte Wissenschaften	de_CH
dc.rights	Not specified	de_CH
dc.subject	Skin model	de_CH
dc.subject	3D bioprinting	de_CH
dc.subject	Solid liquid composites	de_CH
dc.subject.ddc	610.28: Biomedizin, Biomedizinische Technik	de_CH
dc.title	3D printing of solid liquid composites for cell-like based artificial skin model	de_CH
dc.type	Konferenz: Poster	de_CH
dcterms.type	Text	de_CH
zhaw.departement	School of Engineering	de_CH
zhaw.organisationalunit	Institut für Mechanische Systeme (IMES)	de_CH
zhaw.organisationalunit	Institute of Computational Physics (ICP)	de_CH
dc.identifier.doi	10.21256/zhaw-30588	-
zhaw.conference.details	33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023	de_CH
zhaw.funding.eu	No	de_CH
zhaw.originated.zhaw	Yes	de_CH
zhaw.publication.status	publishedVersion	de_CH
zhaw.publication.review	Peer review (Abstract)	de_CH
zhaw.webfeed	BME Biomechanical Engineering - Soft Tissue Biomechanics	de_CH
zhaw.webfeed	Sensors and Measuring Systems	de_CH
zhaw.author.additional	No	de_CH
zhaw.display.portrait	Yes	de_CH
Appears in collections:	Publikationen School of Engineering

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Cabral, K., Thiriot, L., Röhrnbauer, B., Bonmarin, M., & Spano, F. (2023, September 4). 3D printing of solid liquid composites for cell-like based artificial skin model. 33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023. https://doi.org/10.21256/zhaw-30588

Cabral, K. et al. (2023) ‘3D printing of solid liquid composites for cell-like based artificial skin model’, in 33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023. ZHAW Zürcher Hochschule für Angewandte Wissenschaften. Available at: https://doi.org/10.21256/zhaw-30588.

K. Cabral, L. Thiriot, B. Röhrnbauer, M. Bonmarin, and F. Spano, “3D printing of solid liquid composites for cell-like based artificial skin model,” in 33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023, Sep. 2023. doi: 10.21256/zhaw-30588.

CABRAL, Kianna, Laureline THIRIOT, Barbara RÖHRNBAUER, Mathias BONMARIN und Fabrizio SPANO, 2023. 3D printing of solid liquid composites for cell-like based artificial skin model. In: 33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023. Conference poster. ZHAW Zürcher Hochschule für Angewandte Wissenschaften. 4 September 2023

Cabral, Kianna, Laureline Thiriot, Barbara Röhrnbauer, Mathias Bonmarin, and Fabrizio Spano. 2023. “3D Printing of Solid Liquid Composites for Cell-like Based Artificial Skin Model.” Conference poster. In 33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023. ZHAW Zürcher Hochschule für Angewandte Wissenschaften. https://doi.org/10.21256/zhaw-30588.

Cabral, Kianna, et al. “3D Printing of Solid Liquid Composites for Cell-like Based Artificial Skin Model.” 33rd Annual Conference of the European Society for Biomaterials (ESB), Davos, Switzerland, 4-8 September 2023, ZHAW Zürcher Hochschule für Angewandte Wissenschaften, 2023, https://doi.org/10.21256/zhaw-30588.