Biochemistry, Genetics and Molecular Biology
Adaptation
45%
Aging
45%
Aptitude
29%
Association
90%
Biomimetics
90%
Blood Flow
29%
Cell Suspension
19%
Cell Volume
90%
Circulation
9%
Comprehension
9%
Disease Modeling
45%
Dynamics
100%
Exercise
90%
Flow
59%
Heavy Chain
45%
Hematocrit
90%
Human
9%
Hydrodynamics
9%
Isoform
45%
Maturation
45%
Mouse
29%
Muscle Contractility
90%
Myosin
45%
Optogenetics
90%
Perfusion
29%
Phase Separation
9%
Phenotype
45%
Receptor Gene
45%
Shear Stress
60%
Skeletal Muscle
45%
Skeletal Muscle
45%
Sprouting Angiogenesis
60%
Upregulation
90%
Vascularization
60%
Zebra Fish
29%
Engineering
Agent-Based Modeling
90%
Biomimetics
90%
Cell Concentration
9%
Cell Suspension
19%
Demonstrates
9%
Early Stage
60%
Emergence
9%
Erythrocyte
60%
Experiments
70%
Flow Condition
9%
Free Layer
90%
Highlight
9%
Human Body
9%
Image Analysis
29%
Images
60%
Lattice-Boltzmann Method
29%
Microchannel
9%
Microfluidic Device
9%
Models
29%
Networks
90%
Optimization
100%
Phase Separation
9%
Prediction
9%
Simulation
9%
Spatial Distribution
29%
Medicine and Dentistry
Aging
18%
Assay
90%
Fatigue
18%
Heavy Meromyosin
18%
In Vitro
90%
Maturation
18%
Muscle Contractility
90%
Muscle Disease
18%
Muscle Modeling
18%
Myotube
90%
Neuron
18%
Optogenetics
90%
Oxygen-Induced Retinopathy
22%
Particle Image Velocimetry
18%
Phenotype
18%
Photostimulation
18%
Receptor Gene
18%
Skeletal Muscle
18%
Tissues
18%
Upregulation
36%