References
- Alloni D, Antonelli F, Ballarini F, Belli M, Bertolotti A, Campa A, Dini V, D'Ercole L, Esposito G, Facoetti A, Friedland W, Giovannini C, Grande S, Guidoni L, Liotta M, Lisciandro F, Luciani M, Mantovani L, Mariotti L, Molinelli S, Nano R, Ottolenghi A, Palma A, Paretzke H G, Pasi F, Rosi A, Sapora O, Scannicchio D, Simone G, Sorrentino E, Tabocchini M A, Viti V. Charged particle effects: Experimental and theoretical studies on the mechanisms underlying the induction of molecular and cellular damage and the modulation of intercellular signalling. Nuovo Cimento C 2008; 31: 21–38
- Ballarini F, Alloni D, Facoetti A, Mairani A, Nano R, Ottolenghi A. Modelling radiation-induced bystander effect and cellular communication. Radiation Protection Dosimetry 2006; 122: 244–251
- Ballarini F, Biaggi M, Ottolenghi A, Sapora O. Cellular communication and bystander effects: A critical review for modelling low-dose radiation action. Mutation Research 2002; 501: 1–12
- Bentzen S M. Preventing or reducing late side effects of radiation therapy: Radiobiology meets molecular pathology. Nature Reviews: Cancer 2006; 6: 702–713
- Brenner D J, Little J B, Sachs R K. The bystander effect in radiation oncogenesis: II. A quantitative model. Radiation Research 2001; 155: 402–408
- Hartsell W F, Scott C B, Dundas G S, Mohiuddin M, Meredith R F, Rubin P, Weigensberg I J. Can serum markers be used to predict acute and late toxicity in patients with lung cancer? Analysis of RTOG 91-03. American Journal of Clinical Oncology 2007; 30: 368–376
- Heinrich P C, Behrmann I, Haan S, Hermanns H M, Müller-Newen G, Schaper F. Principles of interleukin (IL)-6-type cytokine signalling and its regulation. The Biochemical Journal 2003; 374: 1–20
- Kim J H, Brown S L, Jenrow K A, Ryu S. Mechanisms of radiation-induced brain toxicity and implications for future clinical trials. Journal of Neuro-oncology 2008; 87: 279–286
- Little J B. Cellular radiation effects and the bystander response. Mutation Research 2006; 597: 113–118
- Lyng F M, Seymour C B, Mothersill C. Production of a signal by irradiated cells which leads to a response in unirradiated cells characteristic of initiation of apoptosis. British Journal of Cancer 2000; 83: 1223–1230
- Morgan W F, Sowa M B. Non-targeted bystander effects induced by ionizing radiation. Mutation Research 2007; 16: 159–164
- Mothersill C, Seymour C. Medium from irradiated human epithelial cells but not human fibroblasts reduces the clonogenic survival of unirradiated cells. International Journal of Radiation Biology 1997; 1: 421–427
- Mothersill C, Seymour C. Radiation-induced bystander effects: Past history and future directions. Radiation Research 2001; 155: 759–767
- Mothersill C, Seymour C. Radiation-induced bystander effects, carcinogenesis and models. Oncogene 2003; 22: 7028–7033
- Mothersill C, Smith R W, Agnihotri N, Seymour C B. Characterization of a radiation-induced stress response communicated in vivo between zebrafish. Environmental Science and Technology 2007; 41: 3382–3387
- Müller K, Meineke V. Radiation-induced alterations in cytokine production by skin cells. Experimental Hematology 2007; 35: 96–104
- Newman D J. A natural products chemist looks at the bystander effect!. Mutation Research 2006; 597: 39–42
- Nikjoo H, Khvostunov I K. Biophysical model of the radiation-induced bystander effect. International Journal of Radiation Biology 2003; 79: 43–52
- Okunieff P, Cornelison T, Mester M, Liu W, Ding I, Chen Y, Zhang H, Williams J P, Finkelstein J. Mechanism and modification of gastrointestinal soft tissue response to radiation: Role of growth factors. International Journal Of Radiation Oncology, Biology, Physics 2005; 62: 273–278
- Petty H R. Molecular biology of membranes1st ed. Springer, New York 1993
- Polistena A, Johnson L B, Ohiami-Masseron S, Wittgren L, Bäck S, Thornberg C, Gadaleanu V, Adawi D, Jeppsson B. Local radiotherapy of exposed murine small bowel: Apoptosis and inflammation. BioMed Central Surgery 2008; 8: 1
- Rodemann H P, Blaese M A. Responses of normal cells to ionizing radiation. Seminars in Radiation Oncology 2007; 17: 81–88
- Shao C, Folkard M, Prise K M. Role of TGF-beta1 and nitric oxide in the bystander response of irradiated glioma cells. Oncogene 2008a; 27: 434–440
- Shao C, Prise K M, Folkard M. Signaling factors for irradiated glioma cells induced bystander responses in fibroblasts. Mutation Research 2008b; 638: 139–145
- Shao C, Stewart V, Folkard M, Michael B D, Prise K M. Nitric oxide-mediated signalling in the bystander response of individually targeted glioma cells. Cancer Research 2003; 63: 8437–8442
- Shuryak I, Sachs R K, Brenner D J. Biophysical models of radiation bystander effects: 1. Spatial effects in three-dimensional tissues. Radiation Research 2007; 168: 741–749
- Xanthinaki A, Nicolatou-Galitis O, Athanassiadou P, Gonidi M, Kouloulias V, Sotiropoulou-Lontou A, Pissakas G, Kyprianou K, Kouvaris J, Patsouris E. Apoptotic and inflammation markers in oral mucositis in head and neck cancer patients receiving radiotherapy: Preliminary report. Supportive Care in Cancer 2008; 16: 1025–1033
- Zagury D, Burny A, Gallo R C. Toward a new generation of vaccines: The anti-cytokine therapeutic vaccines. Proceedings of the National Academy of Sciences of the USA 2001; 98: 8024–8029