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Literature DB >> 25735291

Optimization approaches to volumetric modulated arc therapy planning.

Jan Unkelbach¹, Thomas Bortfeld¹, David Craft¹, Markus Alber², Mark Bangert³, Rasmus Bokrantz⁴, Danny Chen⁵, Ruijiang Li⁶, Lei Xing⁶, Chunhua Men⁷, Simeon Nill⁸, Dávid Papp⁹, Edwin Romeijn¹⁰, Ehsan Salari¹¹.

Abstract

Volumetric modulated arc therapy (VMAT) has found widespread clinical application in recent years. A large number of treatment planning studies have evaluated the potential for VMAT for different disease sites based on the currently available commercial implementations of VMAT planning. In contrast, literature on the underlying mathematical optimization methods used in treatment planning is scarce. VMAT planning represents a challenging large scale optimization problem. In contrast to fluence map optimization in intensity-modulated radiotherapy planning for static beams, VMAT planning represents a nonconvex optimization problem. In this paper, the authors review the state-of-the-art in VMAT planning from an algorithmic perspective. Different approaches to VMAT optimization, including arc sequencing methods, extensions of direct aperture optimization, and direct optimization of leaf trajectories are reviewed. Their advantages and limitations are outlined and recommendations for improvements are discussed.

Mesh：

Year: 2015 PMID： 25735291 PMCID： PMC5148175 DOI： 10.1118/1.4908224

Source DB: PubMed Journal: Med Phys ISSN： 0094-2405 Impact factor: 4.071

41 in total

1. On the role of the optimization algorithm of RapidArc(®) volumetric modulated arc therapy on plan quality and efficiency.

Authors: Eugenio Vanetti; Giorgia Nicolini; Janne Nord; Jarkko Peltola; Alessandro Clivio; Antonella Fogliata; Luca Cozzi
Journal: Med Phys Date: 2011-11 Impact factor: 4.071

2. Ultrafast treatment plan optimization for volumetric modulated arc therapy (VMAT).

Authors: Chunhua Men; H Edwin Romeijn; Xun Jia; Steve B Jiang
Journal: Med Phys Date: 2010-11 Impact factor: 4.071

3. Sweeping-window arc therapy: an implementation of rotational IMRT with automatic beam-weight calculation.

Authors: C Cameron
Journal: Phys Med Biol Date: 2005-09-07 Impact factor: 3.609

4. Leaf-sequencing for intensity-modulated arc therapy using graph algorithms.

Authors: Shuang Luan; Chao Wang; Daliang Cao; Danny Z Chen; David M Shepard; Cedric X Yu
Journal: Med Phys Date: 2008-01 Impact factor: 4.071

5. Volumetric modulated arc therapy: IMRT in a single gantry arc.

Authors: Karl Otto
Journal: Med Phys Date: 2008-01 Impact factor: 4.071

6. Arc-modulated radiation therapy (AMRT): a single-arc form of intensity-modulated arc therapy.

Authors: Chao Wang; Shuang Luan; Grace Tang; Danny Z Chen; Matt A Earl; Cedric X Yu
Journal: Phys Med Biol Date: 2008-10-20 Impact factor: 3.609

7. The number of beams in IMRT--theoretical investigations and implications for single-arc IMRT.

Authors: Thomas Bortfeld
Journal: Phys Med Biol Date: 2010-01-07 Impact factor: 3.609

8. Noncoplanar VMAT for nasopharyngeal tumors: Plan quality versus treatment time.

Authors: Esther Wild; Mark Bangert; Simeon Nill; Uwe Oelfke
Journal: Med Phys Date: 2015-05 Impact factor: 4.071

9. Tomotherapy: a new concept for the delivery of dynamic conformal radiotherapy.

Authors: T R Mackie; T Holmes; S Swerdloff; P Reckwerdt; J O Deasy; J Yang; B Paliwal; T Kinsella
Journal: Med Phys Date: 1993 Nov-Dec Impact factor: 4.071

10. Simultaneous couch and gantry dynamic arc rotation (CG-Darc) in the treatment of breast cancer with accelerated partial breast irradiation (APBI): a feasibility study.

Authors: Carmen C Popescu; Wayne A Beckham; Veronica V Patenaude; Ivo A Olivotto; Maria T Vlachaki
Journal: J Appl Clin Med Phys Date: 2013-01-07 Impact factor: 2.102

10 in total

1. Spatiotemporal fractionation schemes for liver stereotactic body radiotherapy.

Authors: Jan Unkelbach; Dávid Papp; Melissa R Gaddy; Nicolaus Andratschke; Theodore Hong; Matthias Guckenberger
Journal: Radiother Oncol Date: 2017-09-23 Impact factor: 6.280

2. Optimal prescription isodose line in SBRT for lung tumor treatment with volumetric-modulated arc therapy.

Authors: David Wang; Albert DeNittis; Tracey Evans; Thomas Meyer
Journal: J Radiosurg SBRT Date: 2020

3. Comparison of non-coplanar optimization of static beams and arc trajectories for intensity-modulated treatments of meningioma cases.

Authors: Tiago Ventura; Humberto Rocha; Brigida da Costa Ferreira; Joana Dias; Maria do Carmo Lopes
Journal: Phys Eng Sci Med Date: 2021-10-07

4. Automated and Clinically Optimal Treatment Planning for Cancer Radiotherapy.

Authors: Masoud Zarepisheh; Linda Hong; Ying Zhou; Qijie Huang; Jie Yang; Gourav Jhanwar; Hai D Pham; Pinar Dursun; Pengpeng Zhang; Margie A Hunt; Gig S Mageras; Jonathan T Yang; Yoshiya Yamada; Joseph O Deasy
Journal: INFORMS J Appl Anal Date: 2022-02-01

5. Solving the volumetric modulated arc therapy (VMAT) problem using a sequential convex programming method.

Authors: Pınar Dursun; Masoud Zarepisheh; Gourav Jhanwar; Joseph O Deasy
Journal: Phys Med Biol Date: 2021-04-14 Impact factor: 4.174

6. A fast optimization approach for treatment planning of volumetric modulated arc therapy.

Authors: Hui Yan; Jian-Rong Dai; Ye-Xiong Li
Journal: Radiat Oncol Date: 2018-05-30 Impact factor: 3.481

7. Application of piecewise VMAT technique to whole-brain radiotherapy with simultaneous integrated boost for multiple metastases.

Authors: Yuan Xu; Yingjie Xu; Kuo Men; Jianping Xiao; Jianrong Dai
Journal: Radiat Oncol Date: 2022-05-07 Impact factor: 4.309