Development of a Model to Study the Abscopal Effect: Combining Image-guided Radiation Therapy and Immunotherapy in Cancer Treatment

Moretti, Amanda

12 January 2011

Distant metastases are a limiting factor in cancer patient survival as they are least accessible to conventional therapies. Effective therapy should treat primary tumours and metastatic disease. Use of image-guided radiation therapy (IGRx) enables high doses of radiation to be delivered for better tumour control while minimizing toxicity to healthy tissues. Systemic effects on distant non-irradiated tissues have been observed following IGRx. This phenomenon, termed the abscopal effect, is hypothesized to be mediated by the immune system. The inflammatory milieu generated following IGRx may activate immune cells to mount specific anti-tumour responses. The work described in this thesis aims to develop a model to study the abscopal effect, and evaluate the potential of combining IGRx and immunotherapy to enhance such distant tumour killing. Results from these studies may have clinical implications, where a combined IGRx and immunotherapy approach may prove useful in eliciting regression of local tumours and distant metastases.

Radiation Therapy

Immunotherapy

Abscopal Effect

Immunology - 0982

Medical Biophysics - 0760

Development of a Model to Study the Abscopal Effect: Combining Image-guided Radiation Therapy and Immunotherapy in Cancer Treatment

Moretti, Amanda

12 January 2011

Distant metastases are a limiting factor in cancer patient survival as they are least accessible to conventional therapies. Effective therapy should treat primary tumours and metastatic disease. Use of image-guided radiation therapy (IGRx) enables high doses of radiation to be delivered for better tumour control while minimizing toxicity to healthy tissues. Systemic effects on distant non-irradiated tissues have been observed following IGRx. This phenomenon, termed the abscopal effect, is hypothesized to be mediated by the immune system. The inflammatory milieu generated following IGRx may activate immune cells to mount specific anti-tumour responses. The work described in this thesis aims to develop a model to study the abscopal effect, and evaluate the potential of combining IGRx and immunotherapy to enhance such distant tumour killing. Results from these studies may have clinical implications, where a combined IGRx and immunotherapy approach may prove useful in eliciting regression of local tumours and distant metastases.

Radiation Therapy

Immunotherapy

Abscopal Effect

Immunology - 0982

Medical Biophysics - 0760

Experimental model for the irradiation-mediated abscopal effect and factors influencing this effect / 放射線照射に伴う遠達効果実験モデルの樹立と遠達効果に影響を及ぼす因子

Baba, Kiichiro

24 November 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22826号 / 医博第4665号 / 新制||医||1047(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 溝脇 尚志, 教授 武田 俊一, 教授 増永 慎一郎 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Abscopal Effect

Anti-PD1 antibody

Radiation Dose

Irradiated-tumor volume

490