In 2011, the Clinical and Translational Radiotherapy Research Working Group (CTRad) of the National Cancer Research Institute brought together UK radiotherapy physics leaders for a think tank meeting. Following a format that CTRad had previously and successfully used with clinical oncologists, 23 departments were asked to complete a pre-meeting evaluation of their radiotherapy physics research infrastructure and the strengths, weaknesses, opportunities and threats within their own centre. These departments were brought together with the CTRad Executive Group and research funders to discuss the current state of radiotherapy physics research, perceived barriers and possible solutions. In this Commentary, we summarise the submitted ma...
Research from Allied Health Professionals (AHPs) is anecdotally known to lag behind that of other pr...
Background and purpose: Research is increasingly important in radiation therapy, but radiation thera...
Technology has a pivotal role in the continuous development of radiotherapy. The long road toward mo...
In 2011, the Clinical and Translational Radiotherapy Research Working Group (CTRad) of the National...
Medical physics has been central to the scientific and technical development of radiotherapy since i...
Medical physics has made considerable contributions to recent advances in radiation oncology. Medica...
Cancer has been treated with radiopharmaceuticals for 80 years. A recent National Cancer Research In...
We live in a golden age for the development of innovative radiotherapy technologies. Three major new...
International audienceTranslational research in radiation oncology is undergoing intense development...
As part of a study of the radiation oncology workforce, radiation oncology medical physicists (ROMPs...
Purpose or Objective: Planning for radiotherapy services requires evidence based informa...
Background: Medical applications of ionising radiation and associated radiation protection research ...
Medical physics plays an essential role in modern medicine. This is particularly evident in cancer c...
IntroductionAs an essential component of service delivery, radiotherapy clinical trials were champio...
BACKGROUND: Brachytherapy (BT) was the first radiotherapeutic technique used to treat human disease ...
Research from Allied Health Professionals (AHPs) is anecdotally known to lag behind that of other pr...
Background and purpose: Research is increasingly important in radiation therapy, but radiation thera...
Technology has a pivotal role in the continuous development of radiotherapy. The long road toward mo...
In 2011, the Clinical and Translational Radiotherapy Research Working Group (CTRad) of the National...
Medical physics has been central to the scientific and technical development of radiotherapy since i...
Medical physics has made considerable contributions to recent advances in radiation oncology. Medica...
Cancer has been treated with radiopharmaceuticals for 80 years. A recent National Cancer Research In...
We live in a golden age for the development of innovative radiotherapy technologies. Three major new...
International audienceTranslational research in radiation oncology is undergoing intense development...
As part of a study of the radiation oncology workforce, radiation oncology medical physicists (ROMPs...
Purpose or Objective: Planning for radiotherapy services requires evidence based informa...
Background: Medical applications of ionising radiation and associated radiation protection research ...
Medical physics plays an essential role in modern medicine. This is particularly evident in cancer c...
IntroductionAs an essential component of service delivery, radiotherapy clinical trials were champio...
BACKGROUND: Brachytherapy (BT) was the first radiotherapeutic technique used to treat human disease ...
Research from Allied Health Professionals (AHPs) is anecdotally known to lag behind that of other pr...
Background and purpose: Research is increasingly important in radiation therapy, but radiation thera...
Technology has a pivotal role in the continuous development of radiotherapy. The long road toward mo...