Keyphrases
Computed Tomography
100%
Whole-body
100%
Deep Learning Methods
100%
Deep Learning Algorithm
100%
Orthotopic Lung Cancer Model
100%
Lung Tumor Segmentation
100%
Tumor Volume
75%
Lung Cancer
75%
Tumor
50%
Therapeutic Effect
50%
Tumor Growth
50%
Orthotopic Model
50%
Automatic Quantification
25%
Manual Procedures
25%
Annotator
25%
Comorbidity
25%
Tumor Detection
25%
Non-invasive Analysis
25%
Cachexia
25%
Manual Segmentation
25%
Muscle Mass
25%
Dice Similarity Coefficient
25%
Non-invasive Detection
25%
Lung Tumor
25%
Highly Accurate
25%
Tumor Development
25%
Cancer Mortality
25%
Tumor Mass
25%
Automatic Delineation
25%
Novel Therapies
25%
Volume Analysis
25%
Processing Time
25%
Cancer Causes
25%
Growth Effect
25%
Performance Metrics
25%
Quantitative Performance
25%
Difficult Times
25%
Human Interpretation
25%
Tumor Therapeutics
25%
Mass Quantification
25%
Fully Automatic Segmentation
25%
Minimal Operator
25%
Tumor Quantification
25%
Subcutaneous Tumor Model
25%
INIS
lungs
100%
tumors
100%
computed tomography
100%
learning
100%
mice
100%
algorithms
41%
cancer
41%
volume
25%
detection
16%
comparative evaluations
16%
animals
16%
growth
16%
diseases
8%
validation
8%
therapy
8%
humans
8%
tools
8%
solutions
8%
metrics
8%
efficiency
8%
design
8%
death
8%
muscles
8%
accuracy
8%
processing
8%
performance
8%
data analysis
8%
Pharmacology, Toxicology and Pharmaceutical Science
Neoplasm
100%
Lung Tumor
100%
Lung Cancer
66%
Tumor Growth
33%
Therapeutic Effect
33%
Malignant Neoplasm
16%
Cachexia
16%
Mouse Model
16%
Cross-Validation
16%
Preclinical Study
16%
Tumor Model
16%
Cancer Model
16%
Comorbidity
16%
Diseases
16%
Biochemistry, Genetics and Molecular Biology
Computer Assisted Tomography
100%
Tumor Volume
100%
Tumor Progression
66%
Solution and Solubility
33%
Mouse Model
33%
Preclinical Study
33%
Comorbidity
33%
Cancer Model
33%
Immunology and Microbiology
Computer Assisted Tomography
100%
Tumor Volume
100%
Mouse Model
33%
Solution and Solubility
33%
Preclinical Study
33%
Comorbidity
33%
Muscle
33%