Effects of low dose rate irradiation on human tumour cells

Mayes, Catherine Ruth

January 2001

No description available.

610

Hyper radiosensitivity

Pre-Clinical Radiobiological Studies of Murine Brain and Brain Cancer Cells to Synchrotron X-rays and Gamma Irradiation

Fernandez-Palomo, Cristian

11 1900

This thesis demonstrates the relevance of bystander effect mechanisms after exposure to two Synchrotron modalities – Microbeam Radiation Therapy and Pencilbeam – that are currently at the preclinical stage but aim to treat brain tumours. We elucidate the relationship between the hyper-radiosensitivity phenomenon and radiation-induced bystander effects by studying the dose response of three glioma cell lines. The relevance of these low-dose effects for both Synchrotron modalities is because the tissue exposed to low valley-doses is predicted to be where hyper-radiosensitivity and bystander effects might be expected to predominate. In vivo experiments were conducted in the European Synchrotron radiation Facility in Grenoble, France and also in the University of Freiburg’s Hospital in Freiburg, Germany. Experiments conducted in vitro were performed at McMaster University. The most relevant results of this thesis revealed that the low-dose hyper-radiosensitivity phenomenon can coexist with radiation-induced bystander effects and evidence points towards bystander signalling mechanisms as the primary cause of cell killing during hyper-radiosensitivity. Bystander and abscopal effects can occur in rats and even in immune-compromised nude mice after exposure to Synchrotron Microbeam Radiation and Pencilbeam. Bystander effects can be communicated from irradiated rats to healthy unirradiated cage mate rats and the presence of a tumour modulates both the bystander and abscopal responses. The γ-H2AX biomarker can successfully be used for the detection of DNA damage in the brain of rodents after Synchrotron Radiation. In conclusion, this thesis considerably expands the understanding of the role of bystander effects in cells lines, tissues, and animals exposed to Synchrotron radiation. It is suggested that further exploration of the role of bystander effects and hyper-radiosensitivity during Synchrotron treatments could identify new targets leading to better tumour control. / Thesis / Doctor of Science (PhD)

Indirect Consequences of Exposure to Radiation in Doses Relevant to Nuclear Incidents and Accidents / INDIRECT CONSEQUENCES OF NUCLEAR INCIDENTS/ACCIDENTS

Fernando, Chandula

11 1900

At low doses, relevant to nuclear incidents and accidental releases of radioactivity, the detriment of radiation extends beyond direct effects. This thesis investigates genomic instability, a subclass of non-targeted effects where damage and lethality is transmitted vertically and expressed in the progeny of cells many generations after initial radiation exposure. Through a series of experiments using clonogenic assay of human and fish cell culture, studies described in this thesis describe lethal mutations, hyper radiosensitivity and increased radioresistance – processes involving repair mechanisms that dictate survival in cells exposed to low doses. Further study investigates the difference in the relative biological effect of alpha particle radiation compared to what is expected at high doses. Results demonstrate increased radioresistance in a human cell line while also revealing increased lethality in a fish cell line confirming the need for consideration of dose-dependence as well as variance in behaviors of different cell lines and species. It is hoped the conclusions of this thesis will inspire the creation of protocols with greater attention to the indirect consequences of exposure to radiation at doses relevant to nuclear incidents and accidents. / Thesis / Master of Science (MSc)