Ultra-high dose rate (FLASH) carbon ion irradiation inhibited immune suppressive protein expression on Pan02 cell line. [PDF]
Katsuki S +8 more
europepmc +1 more source
Oxygen Consumption In Vivo by Ultra-High Dose Rate Electron Irradiation Depends Upon Baseline Tissue Oxygenation. [PDF]
Sunnerberg JP +12 more
europepmc +1 more source
Electron beam response corrections for an ultra-high-dose-rate capable diode dosimeter. [PDF]
Dai T +13 more
europepmc +1 more source
Intracellular Oxygen Transient Quantification in Vivo During Ultra-High Dose Rate FLASH Radiation Therapy. [PDF]
Petusseau AF +4 more
europepmc +1 more source
ELUCIDATION OF THE MECHANISMS UNDERLYING ULTRA-HIGH DOSE RATE IRRADIATION
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Modifying a clinical linear accelerator for delivery of ultra-high dose rate irradiation
Radiotherapy and Oncology, 2019The purpose of this study was to modify a clinical linear accelerator, making it capable of electron beam ultra-high dose rate (FLASH) irradiation. Modifications had to be quick, reversible, and without interfering with clinical treatments.Performed modifications: (1) reduced distance with three setup positions, (2) adjusted/optimized gun current ...
Gabriel Adrian +2 more
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Ultra‐high dose rate FLASH radiation therapy for cancer
Medical Physics, 2023AbstractConformality has been a key requirement in radiation therapy for cancer to minimize normal tissue toxicity while maintaining tumor control. Since 2014, there has been great interest in ultra‐high dose rate (UHDR), “FLASH,” radiation therapy to enhance this therapeutic window.
Michele M, Kim, Wei, Zou
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Ultra-high dose-rate proton FLASH improves tumor control
Radiotherapy and Oncology, 2023Proton radiotherapy (PRT) offers potential benefits over other radiation modalities, including photon and electron radiotherapy. Increasing the rate at which proton radiation is delivered may provide a therapeutic advantage. Here, we compared the efficacy of conventional proton therapy (CONVpr) to ultrahigh dose-rate proton therapy, FLASHpr, in a mouse
Samriddhi Shukla +12 more
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FLASH ultra-high dose rates in radiotherapy: preclinical and radiobiological evidence
International Journal of Radiation Biology, 2021Flash radiotherapy (FLASH-RT) is currently being regarded as the next breakthrough in radiation treatment of cancer, delivering ultrahigh radiation doses in a very short time, and sparing normal tissues from detrimental injury. Here we review the current evidence on the preclinical findings as well as the radiobiological mechanisms underlying the FLASH
Borghini A. +5 more
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Ultra-high Dose-rate Effects in Radiosensitive Bacteria
International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine, 1969(1969). Ultra-high Dose-rate Effects in Radiosensitive Bacteria. International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine: Vol. 14, No. 6, pp. 573-575.
T L, Phillips, B R, Worsnop
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