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AAPM-AMPR (Russia)-SEFM (Spain) Joint Course On Challenges and Advantages of Small Field Radiation Treatment Techniques


J Cygler

J Seuntjens
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J Puxeu Vaque
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Y Kirpichev

E Ford

C Borras







J Cygler1*, J Seuntjens2*, J Puxeu Vaque3*, Y Kirpichev4*, E Ford5*, C Borras6*, (1) The Ottawa Hospital Cancer Centre, Ottawa, ON, (2) McGill University, Montreal, Quebec, (3) Institut Catala d'Oncologia, Barcelona, ES, (4) Russian Research Cancer Center, Moscow, 749.521.50049, (5) University of Washington, Seattle, WA, (6) ,Washington, DC

Presentations

1:00 PM : Introduction - J Cygler, Presenting Author
1:05 PM : Small field radiation therapy: physics and recent recommendations from IAEA and ICRU - J Seuntjens, Presenting Author
1:30 PM : Determination of small field output factors, advantages and limitations of Monte Carlo simulation - J Puxeu Vaque, Presenting Author
1:55 PM : Experience of IMRT and other conformal techniques in Russia - Y Kirpichev, Presenting Author
2:20 PM : Application of small-field treatment: the promises and pitfalls of SBRT - E Ford, Presenting Author
2:45 PM : Closing - C Borras, Presenting Author

TH-EF-204-0 (Thursday, August 4, 2016) 1:00 PM - 2:50 PM Room: 204


Joanna E. Cygler, Jan Seuntjens, J. Daniel Bourland, M. Saiful Huq, Josep Puxeu Vaque, Daniel Zucca Aparicio, Tatiana Krylova, Yuri Kirpichev, Eric Ford, Caridad Borras

Stereotactic Radiation Therapy (SRT) utilizes small static and dynamic (IMRT) fields , to successfully treat malignant and benign diseases using techniques such as Stereotactic Radiosurgery (SRS) and Stereotactic Body Radiation Therapy (SBRT). SRT is characterized by sharp dose gradients for individual fields and their resultant dose distributions. For appropriate targets, small field radiotherapy offers improved treatment quality by allowing better sparing of organs at risk while delivering the prescribed target dose. Specialized small field treatment delivery systems, such as robotic-controlled linear accelerators, gamma radiosurgery units, and dynamic arc linear accelerators may utilize rigid fixation, image guidance, and tumor tracking, to insure precise dose delivery to static or moving targets. However, in addition to great advantages, small field delivery techniques present special technical challenges for dose calibration due to unique geometries and small field sizes not covered by existing reference dosimetry protocols such as AAPM TG-51 or IAEA TRS 398. In recent years extensive research has been performed to understand small field dosimetry and measurement instrumentation. AAPM, IAEA and ICRU task groups are expected to provide soon recommendations on the dosimetry of small radiation fields. In this symposium we will: 1] discuss the physics, instrumentation, methodologies and challenges for small field radiation dose measurements; 2] review IAEA and ICRU recommendations on prescribing, recording and reporting of small field radiation therapy; 3] discuss selected clinical applications and technical aspects for specialized image-guided, small field, linear accelerator based treatment techniques such as IMRT and SBRT.

Learning Objectives:
1. To learn the physics of small fields in contrast to dosimetry of conventional fields
2. To learn about detectors suitable for small fields
3. To learn about the role of Monte Carlo simulations in determination of small field output factors
4. To provide an overview of the IAEA small field dosimetry recommendations
5. To provide an overview of the content of the ICRU report on Prescribing, Reporting and Recording of Small Field Radiation Therapy.
6. To learn about special technical considerations in delivering IMRT and SBRT treatments
7. To appreciate specific challenges of IMRT implementation



Funding Support, Disclosures, and Conflict of Interest: J. Seuntjens, Natural Sciences and Engineering Research Council Canadian Institutes of Health Research

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