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Chemotherapy Side-Effects: Not All DNA Damage Is Equal
Winnie M.C. van den Boogaard
,
Daphne S.J. Komninos
,
Wilbert P. Vermeij
Group Hoeijmakers
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Keyphrases
Chemotherapy
100%
DNA Damage
100%
Accelerated Aging
100%
Chemotherapy Side Effects
100%
Pediatric
50%
Microenvironment
50%
Therapeutic Agents
50%
Recent Advances
50%
Pediatric Cancer
50%
Survival Rate
50%
RNA Transcription
50%
Cancer Treatment
50%
Aging
50%
Biodistribution
50%
Life-sustaining Treatment
50%
Clearance Mechanism
50%
Degree of Exposure
50%
Improved Survival
50%
DNA Replication
50%
DNA Metabolism
50%
DNA Lesions
50%
Detoxification Mechanism
50%
Quality of Life
50%
State Activity
50%
Metabolic State
50%
Ment
50%
Anticancer Therapy
50%
Differentiation Status
50%
Exposure Outcome
50%
Negative Side Effects
50%
Cancer Patients
50%
Biological Fate
50%
Organ System
50%
Medicine and Dentistry
Malignant Neoplasm
100%
Side Effect
100%
DNA Damage
100%
Chemotherapy
100%
Cancer Treatment
66%
Accelerated Aging
66%
Pediatrics
33%
Pediatric Cancer
33%
Cell Differentiation
33%
Survival Rate
33%
RNA Transcription
33%
Biodistribution
33%
DNA RNA Hybridization
33%
Antiinfective Agent
33%
Detoxication
33%
Microenvironment
33%
DNA Metabolism
33%
Cell Cycle
33%
Organ Systems
33%
Metabolism
33%
Quality of Life
33%
DNA Synthesis
33%
Biochemistry, Genetics and Molecular Biology
DNA Damage
100%
Cellular Differentiation
33%
Cell Cycle
33%
RNA Transcription
33%
DNA RNA Hybridization
33%
Metabolic Pathway
33%
Biodistribution
33%
Survival Rate
33%
DNA Metabolism
33%
DNA Synthesis
33%
Immunology and Microbiology
DNA Damage
100%
Cell Differentiation
33%
RNA Transcription
33%
Organ Systems
33%
Cell Cycle
33%
DNA Metabolism
33%
DNA RNA Hybridization
33%
Metabolism
33%
Survival Rate
33%
DNA Synthesis
33%
Pharmacology, Toxicology and Pharmaceutical Science
Malignant Neoplasm
100%
Chemotherapy
100%
Side Effect
100%
Survival Rate
16%
Detoxication
16%
Antiinfective Agent
16%
Biodistribution
16%