Engineering vascular self‐assembly by controlled 3D‐Printed cell placement

I Orellano, A Thomas, A Herrera… - Advanced Functional …, 2022 - Wiley Online Library
Nutrient supply via a functional vasculature is essential during regenerative processes,
tissue growth, and homeostasis. 3D bioprinting offers the opportunity to engineer …
被引用次数:27 相关文章

Engineering Vascular Self‐Assembly by Controlled 3D‐Printed Cell Placement.

I Orellano, A Thomas, A Herrera… - Advanced …, 2022 - search.ebscohost.com
Nutrient supply via a functional vasculature is essential during regenerative processes,
tissue growth, and homeostasis. 3D bioprinting offers the opportunity to engineer …
[PDF] tu-berlin.de

[PDF][PDF] Engineering Vascular Self-Assembly by Controlled 3D-Printed Cell Placement

I Orellano, A Thomas, A Herrera, E Brauer… - Adv. Funct …, 2022 - depositonce.tu-berlin.de
Engineering Vascular Self‐Assembly by Controlled 3D‐Printed Cell
Placement Page 1 www.afm-journal.de 2208325 (1 of 15) © 2022 The Authors. Advanced …
[PDF] researchgate.net

[PDF][PDF] Engineering Vascular Self-Assembly by Controlled 3D-Printed Cell Placement

I Orellano, A Thomas, A Herrera, E Brauer… - Adv. Funct …, 2022 - researchgate.net
Engineering Vascular Self-Assembly by Controlled 3D-Printed Cell Placement Page 1 www.afm-journal.de
2208325 (1 of 15) © 2022 The Authors. Advanced Functional Materials published by Wiley-VCH …

Engineering Vascular Self‐Assembly by Controlled 3D‐Printed Cell Placement

I Orellano, A Thomas, A Herrera, E Brauer, D Wulsten… - 2022 - depositonce.tu-berlin.de
Nutrient supply via a functional vasculature is essential during regenerative processes,
tissue growth, and homeostasis. 3D bioprinting offers the opportunity to engineer …