Gary Royle 博士

职 称： 正高/教授  

深圳市三名工程团队：伦敦大学学院加里罗伊尔教授肿瘤学团队

电 话：  +86-755-25533018

传 真：  +86-755-25504575

Email： 

个人简历

学术成果简介

质子和先进放疗中心主任。中心有30位全职研究人员，每年大致发表30篇高质量学术论文。同时担任UCL 附属医院质子治疗中心研究和执行委员会主席，此中心造价1.6亿英镑，为世界领先的先进放疗技术临床中心。清华大学深圳研究院访问教授，UCL 附属医院肿瘤科临床科学家，英国皇家放射学院荣誉教授。IEEE Medical Imaging conference 和Nuclear Science Symposium 等国际会议组委，IEEE Transactions of Nuclear Science 杂志副主编，并组织癌症治疗和医学影像方面的多个国家级和国际学术会议。已经发表250篇论文，50多场报告。获得科研经费总价值超过1500万英镑，并负责指导40多名博士生。多项研究工作为世界首创，如第一个高分辨率质子放射影像设备，第一个展示在三维肿瘤模型中纳米微粒的摄入量，第一个医学智能X 射线成像设备，第一个在核电站中德三维伽马射线成像设备。

教育经历

1 1984-09-01至1987-06-30 Imperial College Physics 大学本科

2 1989-09-01至1992-06-30 University College London Medical Physics 博士研究生

工作经历

1 1984-09-01至1987-06-30 Middlesex 医院医学部助理研究员

2 1992-09-01至1997-09-01 伦敦大学学院医学物理系研究员

3 1997-09-01至2015-08-24 伦敦大学学院医学物理系助理教授-教授

作为项目负责人主持的国家级及省部级课题：

1. 2005-01-01至2009-12-31  放疗的医学转化研究，科技部国家科技支撑计划

2.2005-01-01至2007-12-31  智能成像系统，国际合作项目

3. 2012-01-01至2017-12-31  放疗技术转化研究，科技部国家科技支撑计划

4．2015-01-01至2017-12-31  医疗成像技术，科技部国家自然科学基金

5．2013-08-01至2016-12-31  质子治疗计数器，国际合作项目

代表性著作及论文

1.Helo, Y., Royle, G.,. (2014). The physics of Cerenkov light production during proton therapy. Phys. Med. Biol, 59(2014)；

2.Veiga, C., . Royle, G. (2014). Toward head and neck patients: Feasibility study on using CT-to-CBCT deformablere gistration for "dose of the day" calculations.. Med Phys, 41(3), 031703；3.Doolan, P, Royle, G., (2014). Reducing Proton Beam Range Uncertainty with Patient-Specific CT HU to RSP Calibrations . Medical Physics ；

4.La Rosa, V., Royle, G, (2014).Range verification for eye proton therapy based on proton-induced x-ray emissions from implanted metal markers. Physics in Medicine and Biology 05/2014; 59；

5.C. Veiga, J. , G. Royle, “Toward head and neck patients: feasibility study on using CT-to-CBCT deformable registration for “dose of the day” calculations,” Med. Phys. 41 031703 (2014)；6.C. Veiga,J D'''''''' Souza, and G. Royle, “Towards head and neck patients: validation of an in-house deformable registration algorithm,” J. Phys.: Conf. Ser. 489 012083 (2014)；

7.Veiga, C., McClelland, J., Ricketts, K., D''''''''Souza, D., & Royle, G. J. (2012, October 7). Deformable Registrations for Head and Neck Cancer Adaptive Radiotherapy. In MICCAI. Nice,France.；8.Veiga, C., Royle, G. J. (2013). Adaptive radiotherapy patients: evaluation of a deformable registration-based “dose of the day” calculation. International Journal of Radiation: Oncology -；

9.Veiga, C., Royle, G. J. (2013). Towards adaptive patients: validation of an in-house deformable registration algorithm. International Journal of Radiation:Oncology - Biology - Physics；

10.Helo, Y., Rosenberg, I., Royle, Ｇ. (2013). Imaging Cerenkov emission as a quality assurance tool in electron radiotherapy. Medical Physics；

11.La Rosa, V., Royle, G. (2013). Range Verification for Eye Proton-Therapy based on Proton Induced X-ray Emissions from implanted metal markers. Physics in Medicine and Biology；

12.Ricketts, K., Guazzoni, C., Royle, G. J. (2013). An x-ray fluorescence imaging system for gold nanoparticle detection.Physics in Medicine and Biology, 58(21),；

13.Alnaaimi, M. A., Royle, G. J., Ghoggali, W., & Speller, R. D. (2010).Performance evaluation of the UCL Compton camera. IEEE Nuclear Science Symposium Conference Record, 1104-1107；

14.Borg,M., Royle, G. J. (2013). A study to determine the differences between the displayed dose values using a range of Monte-Carlo-based techniques:. Radiat Prot Dosimetry, 154(2), 217-228；15.Ricketts, Royle, G. J.(2012). A quantitative x-ray detection system for gold nanoparticle tumour biomarkers.. Phys Med Biol, 57(17)；

16.Borg, M，Royle, G. J. (2012).The use of a figure-of-merit (FOM) for optimisation in digital mammography: a literature review.. Radiat Prot Dosimetry,151(1), 81-88；

17.Jimenez-Spang, F., Evans, P., Harris, E., & Royle, G. J. (2011). GEANT4 simulation of a thin CMOS sensor for dosimetry. Physics in medicine and biology；

18.Pepper, K., Royle, G. J. (2011). Imaging gold nano-particle distributions with x-ray fluorescence and x-ray diffraction. Physics in medicine and biology；

19.Chen, D., & Royle, G. J. (2010). Conference；

21.GRIFFITHS, J., Royle G.J. (2010). UV response of a transition metal oxide detector. In IEEE Nuclear Science Symposium & Medical Imaging Conference；

22.Jimenez-Spang, F.,Royle, G. J. (2010). The performance of CMOS active pixel sensors for small photon field dosimetry. Physics in medicine and biology；

23.Esbrand,, Royle, G, (2010). Using x-ray diffraction signals to optimize image acquisition parameters in digital mammography using an adaptive imagine system:The I-ImaS System. IEEE transactions of nuclear science；

24.Bohndiek, S. E., Royle, G. J. (2009). An active pixel sensor x-ray diffraction (APXRD) system for breast cancer diagnosis. PHYS MED BIOL

发明专利：

1. G.J.Royle and R.D.Speller, ‘Apparatus and methods for detecting and/or imaging gamma radiation’, Patent no.

PCT/GB96/01497, 1996, US Patent No. US006080989A

2. R.D. Speller and G.J. Royle, ‘An intelligent imaging system for mammography and dental radiology’, 2007, Patent

no. US 11/801.782

3. D. Chen and G. J. Royle, ‘An Ultra-high Speed LDA-PIV for Nanoparticle Aggregations’, 2009, Patent no. 1008192.5