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Keyphrases
Trophoblast
100%
On chip
77%
Chip Model
66%
Human iPSC
66%
Placental Barrier
66%
Induced Pluripotent Stem Cells (iPSCs)
66%
Stem Cell-derived
50%
Placenta
50%
Redox Switch
33%
Pluripotent Stem Cells
33%
Physiologically Relevant
33%
Barrier Model
33%
Blood Perfusion
33%
Laser Speckle Contrast Imaging
33%
Glutathionylation
33%
Endothelial Cells
33%
On-a-chip
33%
S-glutathionylation
33%
Cysteine
33%
Oxidative Post-translational Modification
25%
Therapeutic Evaluation
16%
Fusogenic Activity
16%
Mechanosensing
16%
Collagen Matrix
16%
Cell Surface Receptor
16%
Gene Expression
16%
Structural Integrity
16%
3D Structure
16%
High-throughput Study
16%
Syncytium
16%
RNA-seq Analysis
16%
Microfluidics
16%
Receptor Signaling
16%
Research Evaluation
16%
Endocrine Function
16%
System-on-chip
16%
Reactive Nitrogen Species
16%
Reactive Oxygen Species
16%
Vascular Homeostasis
16%
Multi-chip
11%
Functional Barrier
11%
Extracellular Matrix
11%
Human Organs
11%
Immunostaining
11%
Barrier Integrity
11%
OrganoPlate
11%
Promising Strategies
11%
Molecular Analysis
11%
Stem Cells
11%
Channel Factors
8%
Placental Transporters
8%
Multi-well
8%
Ion Channels
8%
Cardiac Remodeling
8%
Cell Response
8%
Pathological Process
8%
Cell Signaling
8%
Reactive Cysteines
8%
Redox Environment
8%
Tissue Perfusion
8%
Redox Signaling
8%
Cell Behavior
8%
Cardiovascular Disease
8%
Physiological Response
8%
Oxidative Stress
8%
Invasive Behavior
8%
Embryogenesis
8%
Functional Consequences
8%
Anticancer Immune Response
8%
Endothelial Cell Function
8%
Cell Signaling Pathways
8%
Angiogenesis
8%
Dual Role
8%
Neurodegeneration
8%
Microfluidic Device
8%
Vascular Pathology
8%
Inflammatory Response
8%
Behavioral Activity
8%
Microfluidic Platform
8%
Transcription Factor
8%
Disease Response
8%
3D Environment
8%
Biochemistry, Genetics and Molecular Biology
Trophoblast
100%
Induced Pluripotent Stem Cell
66%
Blood Placenta Barrier
66%
Human Induced Pluripotent Stem Cell
66%
Stem Cell
44%
Glutathionylation
33%
Posttranslational Modification
33%
S-Glutathionylation
33%
Perfusion
33%
Cysteine
33%
Homeostasis
22%
Cell Function
22%
Syncytium
16%
Endocrine Function
16%
Cell Surface Receptor
16%
Tissue Perfusion
13%
RNA
11%
Signal Transduction
11%
Angiogenesis
11%
Embryogenesis
11%
Transcription Factors
11%
Oxidative Stress
11%
Enzyme
11%
Immunostaining
11%
Ion Channel
11%
Fluo-4
11%
RNA Sequencing
8%
Placenta Perfusion
6%
Blood Flow
6%
Animal Model
6%
Human Study
6%
Medicine and Dentistry
Ion Channel
41%
Cysteine
33%
Endothelial Cell
33%
Intracellular Calcium
33%
Calcium Ion
33%
Left Ventricular Hypertrophy
33%
Post-Translational Modification
25%
Homeostasis
19%
Reactive Oxygen Species
16%
Reactive Nitrogen Species
16%
Cell Function
16%
Sarcoplasmic reticulum
15%
Pathophysiology
8%
Redox Signalling
8%
Physiological Response
8%
Pathological Process
8%
Cardiovascular Disease
8%
Neurodegeneration
8%
Transcription Factors
8%
Serositis
8%
Embryo Development
8%
Angiogenesis
8%
Heart Ventricle Remodeling
8%
Malignant Neoplasm
8%
Oxidative Stress
8%
Signal Transduction
8%
Receptor
8%
Cardiac Muscle Cell
7%
Infusion
5%
Fibrosis
5%
Knockout Mouse
5%