Pulsed low dose-rate radiotherapy: Radiobiology and dosimetry

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Abstract

Pulsed low dose-rate radiotherapy (PLDR) relies on two radiobiological findings, the hyper-radiosensitivity of tumor cells at small doses and the reduced normal tissue toxicity at low dose rates. This is achieved by delivering the daily radiation dose of 2 Gy in 10 sub-fractions (pulses) with a 3 min time interval, resulting in an effective low dose rate of 0.067 Gy min-1. In vitro cell studies and in vivo animal experiments demonstrated the therapeutic potential of PLDR treatments and provided useful preclinical data. Various treatment optimization strategies and delivery techniques have been developed for PLDR on existing linear accelerators. Preliminary results from early clinical studies have shown favorable outcomes for various treatment sites especially for recurrent cancers. This paper reviews the experimental findings of PLDR and dosimetric requirements for PLDR treatment planning and delivery, and summarizes major clinical studies on PLDR cancer treatments.

Original languageEnglish
Article number03TR01
JournalPhysics in Medicine and Biology
Volume67
Issue number3
DOIs
StatePublished - Feb 7 2022

Keywords

  • dose fractionation
  • dose rate effect
  • external beam radiotherapy (EBRT)
  • hyper-radiosensitivity
  • normal tissue toxicity
  • pulsed low dose-rate radiotherapy (PLDR)
  • recurrent cancer

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