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Exploring hypoxic biology to improve radiotherapy outcomes
Chun Li
, Lucy Wiseman
, Ene Okoh
, Michael Lind
, Rajarshi Roy
, Andrew W Beavis
, Isabel M Pires
*
*
Corresponding author for this work
Cancer and Genomic Sciences
Research output
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Contribution to journal
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Review article
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peer-review
Overview
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Keyphrases
Patient Outcomes
100%
Hypoxia
100%
Tumor Hypoxia
100%
Radiotherapy Outcome
100%
Signaling Pathway
50%
Ionizing Radiation
50%
Treatment Outcome
50%
Solid Tumors
50%
Poor Prognosis
50%
Cancer Treatment
50%
Radiobiology
50%
Normoxic
50%
Mode of Delivery
50%
Treatment Modalities
50%
Tumor Biology
50%
Tumor Mass
50%
Therapeutic Window
50%
Targeted Tumor
50%
Tumor Microenvironment
50%
Therapy Resistance
50%
Oxygen Availability
50%
Radioresistance
50%
Hypoxia-activated Prodrug
50%
Radiotherapy Resistance
50%
Precision Radiotherapy
50%
Ionizing Radiotherapy
50%
Radiotherapy Sensitization
50%
High-LET Radiotherapy
50%
Medicine and Dentistry
Radiation Therapy
100%
Hypoxia
60%
Tumor Hypoxia
40%
Neoplasm
20%
Prodrug
20%
Ionizing Radiation
20%
Solid Malignant Neoplasm
20%
Cell Signaling Pathway
20%
Tumor Biology
20%
Radiosensitivity
20%
Cancer Therapy
20%
Radiation Biology
20%
Therapeutic Window
20%
Tumor Microenvironment
20%
Radiosensitization
20%
Therapy Resistance
20%