Keyphrases
Omics Technologies
100%
Intestinal Injury
100%
Intestinal Ischemia
100%
Molecular Complexity
100%
Unveiling
100%
Clinical Application
33%
Clinical Translation
33%
Clinical Conditions
33%
Molecular Mechanism
33%
Clinical Samples
33%
Intestinal Barrier
33%
Therapeutic Strategies
33%
Novel Therapeutic Targets
33%
Molecular Events
33%
Intestinal Epithelium
33%
Exosomes
33%
Human Model
33%
Omics Techniques
33%
Organoids
33%
Metagenomics
33%
Proteomics Metabolomics
33%
Cell Shedding
33%
Single-cell Omics
33%
Multi-omics Data Integration
33%
Computational Proteomics
33%
Human Organoid Models
33%
Pharmacology, Toxicology and Pharmaceutical Science
Reperfusion Injury
100%
Intestine Ischemia
100%
Tamsulosin
100%
Injury
60%
Intestine Injury
60%
Immunology and Microbiology
Reperfusion
100%
Organoid
100%
Transcriptomics
50%
Metagenomics
50%
Exosome
50%
Multi-Omics
50%
INIS
injuries
100%
ischemia
100%
humans
25%
organoids
25%
data
12%
applications
12%
damage
12%
reviews
12%
animals
12%
losses
12%
barriers
12%
in vivo
12%
in vitro
12%
epithelium
12%
Biochemistry, Genetics and Molecular Biology
Reperfusion
100%
Tamsulosin
100%
Transcriptomics
20%
Proteomics
20%
Metabolomics
20%
Intestinal Mucosal Barrier
20%
Hope
20%
Metagenomics
20%