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  • Broschiertes Buch

The precision of modern radiation therapy techniques is limited by the motion and deformation of tumours and surrounding anatomy. Dr Yeo has developed the world's first deformable three-dimensional radiation dose detector. He used it to experimentally validate a mathematical modelling approach to accounting for deformation in radiotherapy of liver cancer. His work is recognised by numerous citations of many of his publications in international peer-reviewed journals. This book is a collection of his findings during his PhD research. Yeo's work continuously focuses on developing…mehr

Produktbeschreibung
The precision of modern radiation therapy techniques is limited by the motion and deformation of tumours and surrounding anatomy. Dr Yeo has developed the world's first deformable three-dimensional radiation dose detector. He used it to experimentally validate a mathematical modelling approach to accounting for deformation in radiotherapy of liver cancer. His work is recognised by numerous citations of many of his publications in international peer-reviewed journals. This book is a collection of his findings during his PhD research. Yeo's work continuously focuses on developing tissue-equivalent deformable phantoms, validating mathematical deformation models, and clinically implementing deformation adaptive approach for cancer diagnosis, image-guided therapies, and treatment evaluation/assessment.
Autorenporträt
Dr Yeo was born in Seoul, South Korea and immigrated to Australia after receiving his B.Sc./B.SoSc. and M.Sc. from Yonsei University. He received his doctorate from RMIT University in 2015. Currently he works at a private hospital in Melbourne as a qualified medical physicist after completing the Radiation Oncology Medical Physics Registrar program