Keyphrases
Rat Model
100%
Perfusion
100%
Dynamic Contrast-enhanced
100%
Duty Cycle
100%
Anterior Tibialis
72%
Blood Flow
54%
Contrast-enhanced CT
54%
Tissue Blood Flow
45%
Tissue Blood Volume
36%
Blood Flow Rate
27%
Muscle Stimulation
27%
Small Animal Model
18%
Adult Male
18%
Sprague-Dawley Rats
18%
Three-level
18%
Computational Imaging
18%
Flow Value
18%
True Blood
18%
Increasing Differences
18%
Muscle Healing
18%
Vasculature
9%
Large Volume
9%
Intra-arterial
9%
Clinical Utility
9%
Blood Samples
9%
Capillary
9%
Metabolic Demand
9%
CT Images
9%
Comparative Analysis
9%
Two-tailed
9%
Student's T-test
9%
Commercial Software
9%
Blood Supply
9%
Blood Tissue
9%
Muscle Regeneration
9%
Tissue Volume
9%
Image Processing
9%
Blood Volume
9%
Particle number
9%
Bench to Bedside
9%
Particle Counting
9%
Incremental Change
9%
Perfusion Parameters
9%
Nerve Electrodes
9%
Clinical Scanner
9%
CT Scanner
9%
Clinical CT
9%
CT Acquisition
9%
Vascular Outcomes
9%
Ct Value
9%
Count Rate
9%
Flow Difference
9%
Absolute Flow
9%
Perfusion Measurement
9%
Blood Flow Volume
9%
Muscle Model
9%
Immunology and Microbiology
Blood Flow
100%
Perfusion
100%
Rat Model
100%
Tibialis Anterior Muscle
88%
Tissue Blood Flow
55%
Flow Rate
44%
Microsphere
44%
Vascularization
22%
Leg
22%
Sprague Dawley Rat
22%
Capillary
11%
Blood Sampling
11%
Muscle Regeneration
11%
Nursing and Health Professions
Perfusion
100%
Blood Flow
87%
Blood Volume
62%
Tissue Blood Flow
62%
Microsphere
50%
Blood Flow Velocity
37%
Muscle Excitation
37%
Imaging
25%
Analysis of Variance
25%
Injury
12%
Blood Sampling
12%
Muscle Mass
12%
Flow Rate
12%
Capillary
12%
Student T Test
12%
Computed Tomography Scanner
12%
CT Value
12%
Medicine and Dentistry
Blood Flow
100%
Tibialis Anterior Muscle
88%
Tissue Blood Flow
55%
Contralateral
44%
Microsphere
44%
Muscle Excitation
33%
Vascularity
22%
Leg
22%
Analysis of Variance
22%
Injury
11%
Capillary
11%
Blood Sampling
11%
Student T Test
11%
Muscle Regeneration
11%
Pharmacology, Toxicology and Pharmaceutical Science
Rat Model
100%
Microsphere
100%
Sprague Dawley Rat
50%
Injury
25%
Neuroscience
Microsphere
100%
Image Processing
25%