INIS
in vitro
100%
drugs
100%
humans
100%
metabolism
100%
colon
100%
metabolites
83%
suspensions
50%
comparative evaluations
16%
control
16%
data
16%
buffers
16%
production
16%
biology
16%
food
16%
lactic acid
16%
oxidation
16%
populations
16%
liver
16%
host
16%
mass spectrometry
16%
gas chromatography
16%
cleavage
16%
time-of-flight method
16%
fragmentation
16%
cyclization
16%
epithelium
16%
body temperature
16%
hydroxylation
16%
heptanoic acid
16%
Keyphrases
Metabolomics
100%
Human Gut Microbiota
100%
Simvastatin
100%
In Vitro Colon Model
42%
Metabolism
42%
Drug Metabolites
42%
Lactic Acid
14%
Food Components
14%
Liver
14%
Microbial Metabolism
14%
Time-of-flight Mass Spectrometry
14%
Genome Analysis
14%
Systems Biology
14%
Methyl
14%
Microbial Population
14%
Colon
14%
GC-TOF-MS
14%
Intestinal Epithelium
14%
Colonic Metabolism
14%
Esterified
14%
Demethylation
14%
Body Temperature
14%
Drug Response
14%
Human Colon
14%
Comprehensive Two-dimensional Gas Chromatography
14%
Dehydroxylation
14%
Response Profiles
14%
Drug Metabolism
14%
Cyclization
14%
Hydrolytic Cleavage
14%
2-hydroxypropanoic Acid
14%
Heptanoic Acid
14%
Hydroxylation
14%
Cyclohexanecarboxylic Acid
14%
Active Suspension
14%
Chemistry
Simvastatin
100%
Drug Metabolite
42%
Metabolite
28%
Lactic Acid
14%
Two-Dimensional Gas Chromatography
14%
Buffer Solution
14%
Demethylation
14%
2-Hydroxypropanoic Acid
14%
3-Hydroxyisovaleric Acid
14%
Food Component
14%
Time-of-Flight Mass Spectra (TOFMS)
14%
Cyclohexanecarboxylic Acid
14%
Time of Flight Mass Spectroscopy
14%
Dehydroxylation
14%
Heptanoic Acid
14%
hydrolytic
14%
hydroxylation
14%
Pharmacology, Toxicology and Pharmaceutical Science
Intestine Flora
100%
Simvastatin
100%
Drug Metabolite
42%
Lactic Acid
28%
3 Hydroxybutyric Acid
14%
Buffer
14%
Heptanoic Acid Derivative
14%
Cyclohexanecarboxylic Acid Derivative
14%
Food Ingredient
14%
Drug Metabolism
14%