Keyphrases
Quantitative Determination
100%
Isothiocyanates
100%
Dithiocarbamate
100%
Erythrocytes
100%
Human Plasma
100%
Plasma Pharmacokinetics
100%
Human Urine
100%
Broccoli Sprouts
100%
Urine Pharmacokinetics
100%
Cyclocondensation Reaction
27%
High Concentration
9%
Pharmacokinetics
9%
Risk Reduction
9%
Protein Content
9%
Plant Material
9%
Sulforaphane
9%
Cancer Risk
9%
Urine Samples
9%
Ultrafiltration
9%
Vegetables
9%
Dosing Regimen
9%
Human Volunteers
9%
Glucosinolates
9%
Pesticides
9%
Thione
9%
Polyethylene Glycol
9%
Fungicide
9%
Cyclocondensation
9%
Peak Concentration
9%
Insecticide
9%
Solid-phase Extraction
9%
Human Erythrocytes
9%
Erucin
9%
Iberin
9%
Chemoprotector
9%
Tissue Pharmacokinetics
9%
Vulcanization Accelerator
9%
Benzenedithiol
9%
First-order Kinetics
9%
Rubber Vulcanization
9%
Renal Tubular Secretion
9%
Dithiocarbamate Metabolites
9%
Material Sample
9%
Biochemistry, Genetics and Molecular Biology
Pharmacokinetics
100%
Quantitative Technique
100%
Isothiocyanate
100%
Dithiocarbamate
100%
Blood Plasma
100%
Protein Content
9%
Metabolite
9%
Plant Material
9%
Sulforaphane
9%
Urine Sampling
9%
Single Drug Dose
9%
Glucosinolate
9%
Solid Phase Extraction
9%
Ultrafiltration
9%
Kidney Tubule Excretion
9%
Pharmacology, Toxicology and Pharmaceutical Science
Isothiocyanate
100%
Dithiocarbamate
100%
Broccoli
100%
Pharmacokinetics
100%
Malignant Neoplasm
18%
Sulforaphane
9%
Chemoprotective Agent
9%
Glucosinolate
9%
Thioketone
9%
Macrogol
9%
Erucin
9%
Fungicide
9%
Chemistry
Pharmacokinetics
100%
Isothiocyanate
100%
Dithiocarbamic Acid
100%
Cyclocondensation Reaction
27%
Kinetic Order
9%
Sulforaphane
9%
Metabolite
9%
Glucosinolate
9%
Solid-Phase Extraction
9%
Poly(ethylene Glycol)
9%
Fungicide
9%
Vulcanization
9%
Ultrafiltration
9%