References
- Pramana A , DescallarJ, VinodSK. A decade of community-based outcomes of patients treated with curative radiotherapy with or without chemotherapy for non-small cell lung cancer. Asia Pac. J. Clin. Oncol. doi: 10.1111/ajco.12262 (2014) ( Epub ahead of print).
- Zabrodsky M , LukesP, LukesovaEet al. The role of narrow band imaging in the detection of recurrent laryngeal and hypopharyngeal cancer after curative radiotherapy. Biomed. Res. Int.2014, 175398 (2014).
- Degroot JM , BrundageMD, LamMet al. Prostate cancer-specific survival differences in patients treated by radical prostatectomy versus curative radiotherapy. Can. Urol. Assoc. J.7(5–6), E299–E305 (2013).
- Hyun KT , ChoiJ, ParkSYet al. Dosimetric parameters that predict late rectal complications after curative radiotherapy in patients with uterine cervical carcinoma. Cancer104(6), 1304–1311 (2005).
- Schaake W , WiegmanEM, de GrootMet al. The impact of gastrointestinal and genitourinary toxicity on health related quality of life among irradiated prostate cancer patients. Radiother. Oncol.110(2), 284–290 (2014).
- Pinkawa M , SchothF, BohmerDet al. Current standards and future directions for prostate cancer radiation therapy. Expert. Rev. Anticancer. Ther.13(1), 75–88 (2013).
- Budäus L , BollaM, BossiAet al. Functional outcomes and complications following radiation therapy for prostate cancer: a critical analysis of the literature. Eur. Urol.61(1), 112–127 (2012).
- Popanda O , MarquardtJU, Chang-ClaudeJ, SchmezerP. Genetic variation in normal tissue toxicity induced by ionizing radiation. Mutat. Res.667(1–2), 58–69 (2009).
- Henriquez-Hernandez LA , BordonE, PinarBet al. Prediction of normal tissue toxicity as part of the individualized treatment with radiotherapy in oncology patients. Surg. Oncol.21(3), 201–206 (2012).
- Muanza TM , AlbertPS, SmithSet al. Comparing measures of acute bowel toxicity in patients with prostate cancer treated with external beam radiation therapy. Int. J. Radiat. Oncol. Biol. Phys.62(5), 1316–1321 (2005).
- Wei JT , DunnRL, LitwinMS, SandlerHM, SandaMG. Development and validation of the expanded prostate cancer index composite (EPIC) for comprehensive assessment of health-related quality of life in men with prostate cancer. Urology56(6), 899–905 (2000).
- Volz-Sidiropoulou E , PinkawaM, FischedickK, JakseG, GauggelS, EbleMJ. Factor analysis of the Expanded Prostate Cancer Index Composite (EPIC) in a patient group after primary (external beam radiotherapy and permanent iodine-125 brachytherapy) and postoperative radiotherapy for prostate cancer. Curr. Urol.2, 122–129 (2008).
- Pinkawa M , HolyR, PirothMDet al. Interpreting the clinical significance of quality of life score changes after radiotherapy for localized prostate cancer. Curr. Urol.5, 137–144 (2011).
- Brzozowska K , PinkawaM, EbleMJet al. In vivo versus in vitro individual radiosensitivity analysed in healthy donors and in prostate cancer patients with and without severe side effects after radiotherapy. Int. J. Radiat. Biol.88(5), 405–413 (2012).
- Crompton NE , ShiYQ, EmeryGCet al. Sources of variation in patient response to radiation treatment. Int. J. Radiat. Oncol. Biol. Phys.49(2), 547–554 (2001).
- Howe O , O’MalleyK, LavinMet al. Cell death mechanisms associated with G2 radiosensitivity in patients with prostate cancer and benign prostatic hyperplasia. Radiat. Res.164(5), 627–634 (2005).
- Ozsahin M , OzsahinH, ShiY, LarssonB, WürglerFE, CromptonNE. Rapid assay of intrinsic radiosensitivity based on apoptosis in human CD4 and CD8 T-lymphocytes. Int. J. Radiat. Oncol. Biol. Phys.38(2), 429–440 (1997).
- Ozsahin M , CromptonNE, GourgouSet al. CD4 and CD8 T-lymphocyte apoptosis can predict radiation-induced late toxicity: a prospective study in 399 patients. Clin. Cancer Res.11(20), 7426–7433 (2005).
- Schmitz A , BayerJ, DechampsN, ThomasG. Intrinsic susceptibility to radiation-induced apoptosis of human lymphocyte subpopulations. Int. J. Radiat. Oncol. Biol. Phys.57(3), 769–778 (2003).
- Stephens LC , HunterNR, AngKK, MilasL, MeynRE. Development of apoptosis in irradiated murine tumors as a function of time and dose. Radiat. Res.135(1), 75–80 (1993).
- Li P , DuCR, XuWCet al. Correlation of dynamic changes in gamma-H2AX expression in peripheral blood lymphocytes from head and neck cancer patients with radiation-induced oral mucositis. Radiat. Oncol.8, 155 (2013).
- Pinar B , Henriquez-HernandezLA, LaraPCet al. Radiation induced apoptosis and initial DNA damage are inversely related in locally advanced breast cancer patients. Radiat. Oncol.5, 85 (2010).
- Werbrouck J , DeRK, BeelsLet al. Prediction of late normal tissue complications in RT treated gynaecological cancer patients: potential of the gamma-H2AX foci assay and association with chromosomal radiosensitivity. Oncol. Rep.23(2), 571–578 (2010).
- Taylor AM , HarndenDG, ArlettCFet al. Ataxia teleangiectasia: a human mutation with abnormal radiation sensitivity. Nature258(5534), 427–429 (1975).
- Barber JB , WestCM, KiltieAE, RobertsSA, ScottD. Detection of individual differences in radiation-induced apoptosis of peripheral blood lymphocytes in normal individuals, ataxia telangiectasia homozygotes and heterozygotes, and breast cancer patients after radiotherapy. Radiat. Res.153(5 Pt 1), 570–578 (2000).
- Howe OL , DalyPA, SeymourC, OrmistonW, NolanC, MothersillC. Elevated G2 chromosomal radiosensitivity in Irish breast cancer patients: a comparison with other studies. Int. J. Radiat. Biol.81(5), 373–378 (2005).
- Lisowska H , LankoffA, WieczorekAet al. Enhanced chromosomal radiosensitivity in peripheral blood lymphocytes of larynx cancer patients. Int. J. Radiat. Oncol. Biol. Phys.66(4), 1245–1252 (2006).
- Borgmann K , HoellerU, NowackSet al. Individual radiosensitivity measured with lymphocytes may predict the risk of acute reaction after radiotherapy. Int. J. Radiat. Oncol. Biol. Phys.71(1), 256–264 (2008).
- Radford IR . Radiation response of mouse lymphoid and myeloid cell lines. Part I. Sensitivity to killing by ionizing radiation, rate of loss of viability, and cell type of origin. Int. J. Radiat. Biol.65(2), 203–215 (1994).
- Radford IR , MurphyTK. Radiation response of mouse lymphoid and myeloid cell lines. Part III. Different signals can lead to apoptosis and may influence sensitivity to killing by DNA double-strand breakage. Int. J. Radiat. Biol.65(2), 229–239 (1994).
- Foro P , AlgaraM, LozanoJet al. Relationship between radiation-induced apoptosis of T lymphocytes and chronic toxicity in patients with prostate cancer treated by radiation therapy: a prospective study. Int. J. Radiat. Oncol. Biol. Phys.88(5), 1057–1063 (2014).