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New Approaches in Radiotherapy.

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Advanced radiotherapy innovations like adaptive RT and AI are personalizing cancer treatment. New techniques such as particle therapy and FLASH RT aim for precise tumor targeting with reduced side effects.

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Area of Science:

  • Radiation Oncology
  • Medical Physics
  • Cancer Biology
  • Radiotherapy Innovations

Background:

  • Radiotherapy (RT) has evolved significantly over the past century.
  • Current RT landscape is shaped by numerous technological and biological advancements.
  • There is a continuous drive to improve treatment precision and minimize collateral damage.

Purpose of the Study:

  • To review the most impactful and promising innovations in radiotherapy.
  • To highlight the integration of imaging, AI, and novel physics/biology approaches.
  • To discuss the future potential of these advancements in radiation oncology.

Main Methods:

  • Review of key technological advances: adaptive radiotherapy (ART), advanced image guidance (MR-LINACs, PET-LINACs, SGRT).
  • Exploration of AI and data science applications in RT: automation, segmentation, dose prediction.
  • Discussion of emerging therapies: particle therapies (proton, heavy ion), FLASH RT, BNCT, radioimmunotherapy, theranostics, SFRT, stereotactic techniques, brachytherapy, 3D printing, Auger therapy, hyperthermia.

Main Results:

  • Integrated imaging and AI in ART enable daily treatment adaptation.
  • Advanced image guidance systems significantly enhance targeting precision.
  • Particle therapies and FLASH RT offer precise tumor targeting with reduced normal tissue exposure.
  • Emerging biological therapies and theranostics provide personalized treatment strategies.
  • Innovations like 3D printing and hyperthermia contribute to individualized solutions.

Conclusions:

  • The integration of imaging, AI, and novel physics/biology is redefining cancer treatment possibilities.
  • Modern RT is a multidisciplinary field intersecting physics, engineering, biology, and informatics.
  • These collective advancements promise to expand the therapeutic boundaries of radiation oncology.