Titlebook: Bioprinting in Regenerative Medicine; Kursad Turksen Book 2015 Springer International Publishing Switzerland 2015 cell proliferation.laser

FLAK

书目名称Bioprinting in Regenerative Medicine影响因子(影响力)




书目名称Bioprinting in Regenerative Medicine影响因子(影响力)学科排名




书目名称Bioprinting in Regenerative Medicine网络公开度




书目名称Bioprinting in Regenerative Medicine网络公开度学科排名




书目名称Bioprinting in Regenerative Medicine被引频次




书目名称Bioprinting in Regenerative Medicine被引频次学科排名




书目名称Bioprinting in Regenerative Medicine年度引用




书目名称Bioprinting in Regenerative Medicine年度引用学科排名




书目名称Bioprinting in Regenerative Medicine读者反馈




书目名称Bioprinting in Regenerative Medicine读者反馈学科排名

Fantasy

3D Bioprinting and 3D Imaging for Stem Cell Engineering,te, cell-cell interactions, and structural features of an engineered tissue in real time. In this chapter, we review the usage of bio-printing technologies in stem cell and tissue engineering application, and the most recent development in the optical molecular imaging techniques for thick tissue im

Maximizer

Bioprinting with Live Cells,are termed as bioink used as building blocks that are placed by the bioprinter into precise architecture according to developed computer models. In this chapter, we focus on the scaffold-free, self-assembly based bioprinting approaches and some of the novel developments in this field. This chapter w

场所

Three-Dimensional Bioprinting in Regenerative Medicine,ement for tissue construction. With layer-by-layer assembly, three-dimensional tissues with complex structures can be printed using converted medical images. Therefore, bioprinting based on thermal inkjet is so far the most optimal solution to engineer vascular system to the thick and complex tissue

BOOM

Bioprinting of Dynamic Human Organs-on-Chips: Enabling Technologies for Rapid Drug Development and ns-on-chips. This review of the literature provides background on the clinical utility of dynamic human organs-on-chips. It lays out their design and fabrication requirements in the context of state of the art bioprinting technologies. It also proposes development pathways for bioprinted organs-on-c

现代

https://doi.org/10.1007/978-3-540-73926-5te, cell-cell interactions, and structural features of an engineered tissue in real time. In this chapter, we review the usage of bio-printing technologies in stem cell and tissue engineering application, and the most recent development in the optical molecular imaging techniques for thick tissue im

CYN

绝缘

https://doi.org/10.1007/978-3-540-73926-5ement for tissue construction. With layer-by-layer assembly, three-dimensional tissues with complex structures can be printed using converted medical images. Therefore, bioprinting based on thermal inkjet is so far the most optimal solution to engineer vascular system to the thick and complex tissue

ACTIN

率直