References
- Alard JP, Bodez V, Tchirkov A, Nenot ML, Arnold J, Crespin S, Rapp M, Verrelle P, Dionet C. 2002. Simulation of neutron interactions at the single-cell level. Radiat Res. 158:650–656.
- Altmeyer A, Ignat M, Denis JM, Messaddeq N, Gueulette J, Mutter D, Bischoff P. 2011. Cell death after high-LET irradiation in orthotopic human hepatocellular carcinoma in vivo. In Vivo. 25:1–9.
- Averbeck D. 2009. Does scientific evidence support a change from the LNT model for low-dose radiation risk extrapolation? Health Phys. 97:493–504.
- Averbeck D. 2010. Non-targeted effects as a paradigm breaking evidence. Mutat Res. 687:7–12.
- Bohrnsen G, Weber KJ, Scholz M. 2002. Measurement of biological effects of high-energy carbon ions at low doses using a semi-automated cell detection system. Int J Radiat Biol. 78:259–266.
- Bradbury DA, Simmons TD, Slater KJ, Crouch SP. 2000. Measurement of the ADP:ATP ratio in human leukaemic cell lines can be used as an indicator of cell viability, necrosis and apoptosis. J Immunol Meth. 240:79–92.
- Brenner DJ, Hall EJ. 2008. Secondary neutrons in clinical proton radiotherapy: a charged issue. Radiother Oncol. 86:165–170.
- Clapier CR, Cairns BR. 2009. The biology of chromatin remodeling complexes. Annu Rev Biochem. 78:273–304.
- Clemencon B, Babot M, Trezeguet V. 2013. The mitochondrial ADP/ATP carrier (SLC25 family): pathological implications of its dysfunction. Mol Aspects Med. 34:485–493.
- Dionet C, Tchirkov A, Alard JP, Arnold J, Dhermain J, Rapp M, Bodez V, Tamain JC, Monbel I, Malet P, et al. 2000. Effects of low-dose neutrons applied at reduced dose rate on human melanoma cells. Radiat Res. 154:406–411.
- Edin NJ, Sandvik JA, Vollan HS, Reger K, Gorlach A, Pettersen EO. 2013. The role of nitric oxide radicals in removal of hyper-radiosensitivity by priming irradiation. J Radiat Res. 54:1015–1028.
- Feinendegen LE. 2005. Evidence for beneficial low level radiation effects and radiation hormesis. Br J Radiol. 78:3–7.
- Gridley DS, Pecaut MJ. 2006. Whole-body irradiation and long-term modification of bone marrow-derived cell populations by low- and high-LET radiation. In Vivo. 20:781–789.
- Gridley DS, Pecaut MJ, Nelson GA. 2002. Total-body irradiation with high-LET particles: acute and chronic effects on the immune system. Am J Physiol Regul Integr Comp Physiol. 282:R677–688.
- Gueulette J, Beauduin M, Gregoire V, Vynckier S, De Coster BM, Octave-Prignot M, Wambersie A, Strijkmans K, De Schrijver A, El-Akkad S, et al. 1996. RBE variation between fast neutron beams as a function of energy. Intercomparison involving 7 neutrontherapy facilities. Bull Cancer Radiother. 83(Suppl.):55s–63s.
- Heuskin AC, Michiels C, Lucas S. 2014. Low dose hypersensitivity following in vitro cell irradiation with charged particles: is the mechanism the same as with X-ray radiation? Int J Radiat Biol. 90:81–89.
- Krueger SA, Joiner MC, Weinfeld M, Piasentin E, Marples B. 2007. Role of apoptosis in low-dose hyper-radiosensitivity. Radiat Res. 167:260–267.
- Krueger SA, Wilson GD, Piasentin E, Joiner MC, Marples B. 2010. The effects of G2-phase enrichment and checkpoint abrogation on low-dose hyper-radiosensitivity. Int J Radiat Oncol Biol Phys. 77:1509–1517.
- Kumar A, Kimura H, Aoyama T. 1993. Radiosensitization of human lung fibroblasts by chemical that decrease ATP levels. J Radiat Res. 34:195–203.
- Lambin P, Marples B, Fertil B, Malaise EP, Joiner MC. 1993. Hypersensitivity of a human tumour cell line to very low radiation doses. Int J Radiat Biol. 63:639–650.
- Lu X, Errington J, Chen VJ, Curtin NJ, Boddy AV, Newell DR. 2000. Cellular ATP depletion by LY309887 as a predictor of growth inhibition in human tumor cell lines. Clin Cancer Res. 6:271–277.
- Monson RR. 2006. Molecular and cellular responses to ionizing radiation – general aspects of dose-reponse relationships. Health risks from exposure to low levels of ionizing radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. pp. 43–44.
- Ryan LA, Seymour CB, Joiner MC, Mothersill CE. 2009. Radiation-induced adaptive response is not seen in cell lines showing a bystander effect but is seen in lines showing HRS/IRR response. Int J Radiat Biol. 85:87–95.
- Spurny F, Ploc O, Dachev T. 2007. On the neutron contribution to the exposure level onboard space vehicles. Radiat Prot Dosimetry. 126:519–523.
- Suetens A, Moreels M, Quintens R, Chiriotti S, Tabury K, Michaux A, Gregoire V, Baatout S. 2014. Carbon ion irradiation of the human prostate cancer cell line PC3: a whole genome microarray study. Int J Oncol. 44:1056–1072.
- Szeinfeld D, De Villiers N. 1992. Radioprotective properties of ATP and modification of acid phosphatase response after a lethal dose of whole body p(66MeV)/Be neutron radiation to BALB/c mice. Cancer Biochem Biophys. 13:123–132.
- Tsetlin VV, Deshevaia EA. 2003. Influence of chronic exposure to low doses of space ionizing radiation on the character of formation of microbial assemblage in the habitat of orbital station. Radiat Biol Radioecol. 43:172–175.
- Tucker JD, Marples B, Ramsey MJ, Lutze-Mann LH. 2004. Persistence of chromosome aberrations in mice acutely exposed to 56Fe +26 ions. Radiat Res. 161:648–655.
- Wykes SM, Piasentin E, Joiner MC, Wilson GD, Marples B. 2006. Low-dose hyper-radiosensitivity is not caused by a failure to recognize DNA double-strand breaks. Radiat Res. 165:516–524.
- Yasuda H, Yajima K, Sato T, Takada M, Nakamura T. 2009. Responses of selected neutron monitors to cosmic radiation at aviation altitudes. Health Phys. 96:655–660.