Titlebook: Biomaterials- and Microfluidics-Based Tissue Engineered 3D Models; J. Miguel Oliveira,Rui L. Reis Book 2020 Springer Nature Switzerland AG

flimsy

脱水

Microfluidic Devices and Three Dimensional-Printing Strategies for , Models of Bone,gineered tissues in a single step. The ability to print spatially controlled structures composed of different biomaterials, growth factors and cells caught the attention of scientists for the development of more efficient . models. Additionally, it allows obtaining microfluidic devices and/or engine

眨眼

Organs-on-a-Chip,past decade, and some of the opportunities offered by MPS technology that are not available through current standard two-dimensional cell cultures, or three-dimensional organoid systems. This chapter will outline future avenues of research in the MPS field, how cutting-edge biotechnology advances ar

不给啤

Engineering Patient-on-a-Chip Models for Personalized Cancer Medicine,metic and personalized . platforms. The individualized models provide a more accurate and physiological environment to predict tumor progression on patients and their response to drugs. In this chapter, we describe the latest advances in the field of cancer patient-on-a-chip, and discuss about their