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Microphysiological Systems: Design, Fabrication, and Applications
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Dive into the research topics of 'Microphysiological Systems: Design, Fabrication, and Applications'. Together they form a unique fingerprint.
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Engineering
Fabrication Technique
100%
Physiological Condition
100%
Stem Cell Biology
100%
Past Decade
100%
Organoid
100%
Primary Function
100%
Human Disease
100%
Design System
100%
Systematic Approach
100%
Keyphrases
Microphysiological Systems
100%
System Design
100%
System Application
100%
Drug Discovery
22%
In Vitro Model
22%
Biomaterials
22%
Human Organs
22%
Organ-on-a-chip
22%
On-a-chip
22%
Human Disease
11%
Physiological Condition
11%
Lung
11%
Microenvironment
11%
Disease Pathology
11%
Fabrication Methods
11%
Organ Development
11%
Stem Cell Biology
11%
Preclinical Investigation
11%
Physiologically Relevant
11%
Precision Control
11%
Primary Function
11%
Design Principles
11%
Organ Function
11%
Tissue Constructs
11%
Organoids
11%
Explosive Growth
11%
Tissue Culture Plastic
11%
Micro-nanotechnology
11%
Matrix Properties
11%
Single Platform
11%
Multi-organ
11%
Microvasculature
11%
Interaction between Cells
11%
Organ Diseases
11%
Medicine and Dentistry
Biocompatible Material
100%
Disease
100%
In Vitro
100%
Stem Cell
50%
Anatomy
50%
Cytotechnology
50%
Microvessel
50%
Organ Systems
50%
Organoid
50%
Organogenesis
50%
Organ-on-a-Chip
50%
Agricultural and Biological Sciences
Biocompatible Material
100%
Progenitor Cell
50%
Cell Biology
50%
Organoid
50%
Organogenesis
50%
Organ-on-a-Chip
50%
Tissue Culture
50%
Material Science
Biomaterial
100%
Stem Cell
50%
Design Principle
50%