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Use of cell proliferation data in modeling urinary bladder carcinogenesis
S. M. Cohen
, L. B. Ellwein
Pathology & Microbiology
Pathology, Nebraska Medicine
Fred & Pamela Buffett Cancer Center
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Scopus citations
Overview
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Keyphrases
Cell Proliferation
100%
High Dose
100%
Upper Tract Urothelial Carcinoma
100%
Non-genotoxic
100%
Tumor
66%
Cell number
66%
Carcinogen
66%
Rodents
66%
Sodium Saccharin
66%
Bladder
66%
Mechanistic Considerations
66%
Physiologic
33%
Monkey
33%
Hamster
33%
Furyl
33%
Urinary Bladder
33%
Thiazolyl
33%
Carcinogenicity
33%
Formamide
33%
Nitro
33%
Cell Surface Receptor
33%
Carcinogenesis Models
33%
Cell-to-cell
33%
Lumen
33%
Bladder Cancer
33%
Detection Rate
33%
Pharmacokinetics
33%
Cell Division
33%
Silicate
33%
Urothelium
33%
Proliferative Effect
33%
DNA Replication
33%
DNA Adducts
33%
Exposure Level
33%
Cancer Risk
33%
Calculus
33%
At Birth
33%
Epidemiological Evidence
33%
Sodium Salt
33%
Qualitative Aspects
33%
Multiple Dose
33%
Rat Urine
33%
Effect Level
33%
Abrasion
33%
Cancer Effects
33%
Abrasive
33%
Dose Threshold
33%
Quantitative Aspects
33%
2-Acetylaminofluorene
33%
Extrapolation to Human
33%
Dose Extrapolation
33%
Biologically Inspired Model
33%
Susceptible Species
33%
Pharmacology, Toxicology and Pharmaceutical Science
Neoplasm
100%
Malignant Neoplasm
100%
N [4 (5 Nitro 2 Furyl) 2 Thiazolyl]formamide
100%
Carcinogen
100%
Saccharin Sodium
100%
Bladder Carcinogenesis
100%
Mouse
50%
Haplorhini
50%
Carcinogenicity
50%
Carcinogenesis
50%
Bladder Cancer
50%
Pharmacokinetics
50%
Sodium
50%
Stone Formation
50%
Cell Receptor
50%
2-Acetylaminofluorene
50%