| scholarly article | Q13442814 |
| P2093 | author name string | David J Carlson | |
| Robert D Stewart | |||
| Vladimir A Semenenko | |||
| P2860 | cites work | Evidence for a lack of DNA double-strand break repair in human cells exposed to very low x-ray doses | Q24677973 |
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| A comparison of the chemical repair rates of free radical precursors of DNA damage and cell killing in Chinese hamster V79 cells | Q41622543 | ||
| Oxygen effect for DNA double-strand break induction determined by pulsed-field gel electrophoresis | Q41650113 | ||
| Biochemical and cytogenetical characterization of Chinese hamster ovary X-ray-sensitive mutant cells xrs 5 and xrs 6. V. The correlation of DNA strand breaks and base damage to chromosomal aberrations and sister-chromatid exchanges induced by X-irra | Q41740937 | ||
| The Effect of Oxygen on Impairment of the Proliferative Capacity of Human Cells in Culture by Ionizing Radiations of Different LET | Q43493712 | ||
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| Assessing tumor hypoxia in cervical cancer by positron emission tomography with 60Cu-ATSM: relationship to therapeutic response-a preliminary report | Q44374111 | ||
| Influence of overall treatment time and radiobiological parameters on biologically effective doses in cervical cancer patients treated with radiation therapy alone | Q45151605 | ||
| Primary production of oxygen from irradiated water as an explanation for decreased radiobiological oxygen enhancement at high LET | Q46944379 | ||
| Dose escalation in permanent brachytherapy for prostate cancer: dosimetric and biological considerations | Q47597880 | ||
| Impact of prolonged fraction delivery times on tumor control: a note of caution for intensity-modulated radiation therapy (IMRT). | Q47644709 | ||
| Incorporating clinical measurements of hypoxia into tumor local control modeling of prostate cancer: implications for the alpha/beta ratio. | Q47644737 | ||
| Repair kinetics of DNA-DSB induced by X-rays or carbon ions under oxic and hypoxic conditions | Q47714525 | ||
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| In regard to Nahum et al. (Int J Radiat Oncol Biol Phys 2003;57:391-401): Incorporating clinical measurements of hypoxia into tumor control modeling of prostate cancer: implications for the alpha/beta ratio | Q48000465 | ||
| Polarographic electrode study of tumor oxygenation in clinically localized prostate cancer. | Q48019142 | ||
| Hypoxic prostate/muscle pO2 ratio predicts for biochemical failure in patients with prostate cancer: preliminary findings | Q49028556 | ||
| Tumor hypoxia is important in radiotherapy, but how should we measure it? | Q51695755 | ||
| Tumor control probability for selective boosting of hypoxic subvolumes, including the effect of reoxygenation. | Q51701247 | ||
| Equivalence of the linear-quadratic and two-lesion kinetic models. | Q51842701 | ||
| Mathematical models of tumour and normal tissue response. | Q52132288 | ||
| A multiple-radical model for radiation action on DNA and the dependence of OER on LET. | Q52310071 | ||
| A model for calculating tumour control probability in radiotherapy including the effects of inhomogeneous distributions of dose and clonogenic cell density. | Q52395528 | ||
| Tumor hypoxia in pelvic recurrences of cervical cancer. | Q54128665 | ||
| Reduced oxygen enhancement ratio at low doses of ionizing radiation. | Q54403810 | ||
| Bootstrap Methods: Another Look at the Jackknife | Q55950786 | ||
| Compensation for changes in dose-rate in radical low-dose-rate brachytherapy: a radiobiological analysis of a randomised clinical trial | Q58376374 | ||
| Role of Oxygen in Modifying the Radiosensitivity of E. Coli B | Q59074413 | ||
| Life (and death) in a malignant tumour | Q59098941 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | hypoxia | Q105688 |
| P304 | page(s) | 3105-3115 | |
| P577 | publication date | 2006-09-01 | |
| P1433 | published in | Medical Physics | Q15764251 |
| P1476 | title | Effects of oxygen on intrinsic radiation sensitivity: A test of the relationship between aerobic and hypoxic linear-quadratic (LQ) model parameters | |
| P478 | volume | 33 |
| Q43880450 | A Monte Carlo based formalism to identify potential locations at high risk of tumor recurrence with a numerical model for glioblastoma multiforme |
| Q41650486 | A patient-specific computational model of hypoxia-modulated radiation resistance in glioblastoma using 18F-FMISO-PET. |
| Q53453719 | A radiobiological model of reoxygenation and fractionation effects. |
| Q33275537 | Assessment of potential advantages of relevant ions for particle therapy: a model based study. |
| Q40156602 | BGRT: biologically guided radiation therapy-the future is fast approaching! |
| Q44472236 | Correlation of a hypoxia based tumor control model with observed local control rates in nasopharyngeal carcinoma treated with chemoradiotherapy. |
| Q49616164 | Does fluid collection impact radiotherapy outcomes after wide excision of lower extremity soft tissue sarcoma? |
| Q35835147 | Effects of indirect actions and oxygen on relative biological effectiveness: estimate of DSB induction and conversion induced by gamma rays and helium ions |
| Q42672870 | Hypofractionation results in reduced tumor cell kill compared to conventional fractionation for tumors with regions of hypoxia. |
| Q51696197 | Hypoxia imaging with [18F]-FMISO-PET for guided dose escalation with intensity-modulated radiotherapy in head-and-neck cancers. |
| Q39421908 | Hypoxia imaging with [F-18] FMISO-PET in head and neck cancer: potential for guiding intensity modulated radiation therapy in overcoming hypoxia-induced treatment resistance |
| Q26767183 | Hypoxia, Epithelial-Mesenchymal Transition, and TET-Mediated Epigenetic Changes |
| Q38428112 | Hypoxia-targeted radiotherapy dose painting for head and neck cancer using (18)F-FMISO PET: a biological modeling study |
| Q36310285 | Kill-painting of hypoxic tumours in charged particle therapy. |
| Q46846640 | Modeling the Cellular Response of Lung Cancer to Radiation Therapy for a Broad Range of Fractionation Schedules |
| Q91693436 | Modeling the Effect of Hypoxia and DNA Repair Inhibition on Cell Survival After Photon Irradiation |
| Q39158692 | Modelling of cell killing due to sparsely ionizing radiation in normoxic and hypoxic conditions and an extension to high LET radiation |
| Q38871848 | Modelling the interplay between hypoxia and proliferation in radiotherapy tumour response |
| Q38199721 | Molecular imaging of tumor hypoxia with positron emission tomography |
| Q37376797 | On the importance of prompt oxygen changes for hypofractionated radiation treatments. |
| Q33720072 | Optimizing radiotherapy protocols using computer automata to model tumour cell death as a function of oxygen diffusion processes |
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| Q38837272 | Quantification of Tumor Hypoxic Fractions Using Positron Emission Tomography with [18F]Fluoromisonidazole ([18F]FMISO) Kinetic Analysis and Invasive Oxygen Measurements. |
| Q36941952 | Radiation Promptly Alters Cancer Live Cell Metabolic Fluxes: An In Vitro Demonstration. |
| Q51694927 | Severe hypofractionation: non-homogeneous tumour dose delivery can counteract tumour hypoxia. |
| Q61805715 | Studying the regression profiles of cervical tumours during radiotherapy treatment using a patient-specific multiscale model |
| Q39217414 | The impact of including spatially longitudinal heterogeneities of vessel oxygen content and vascular fraction in 3D tumor oxygenation models on predicted radiation sensitivity. |
| Q38435486 | Theoretical analysis of the dose dependence of the oxygen enhancement ratio and its relevance for clinical applications. |
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