Add to ORKGPhysicists, engineers and technologists play vital roles in delivering our healthcare. The Institute of Physics and Engineering in Medicine (IPEM) is the professional organisation that represents this workforce. Our aim is to advance physics and engineering applied to medicine and biology for the public good. We are a charity with around 4,000 members from healthcare, research and industry. Our members are mainly medical physicists, biomedical engineers and clinical technologists. Authors This Position Statement has been prepared and published on behalf of IPEM by its Working Party established to review the Impact of Extended Clinical Hours on a Radiotherapy Physics Service. The following members have contributed
NIRS has conducted various HRD (human resource developments) utilizing the heavy ion radiotherapy fa...
This issue showcases the impact of high-energy physics in the medical arena. Ever since the discover...
Radiotherapy plays a key role in the treatment of many cancer types. This book is intended to bring ...
Medical physics has been central to the scientific and technical development of radiotherapy since i...
Background and purpose: The COVID-19 pandemic has imposed changes in radiotherapy (RT) departments w...
Medical physics has made considerable contributions to recent advances in radiation oncology. Medica...
This document reflects the impact of the technological, medical and regulative changes affecting rad...
Medical physics plays an essential role in modern medicine. This is particularly evident in cancer c...
PURPOSE: The COVID-19 pandemic has led to disorder in work and livelihood of a majority of the moder...
The medical physics workforce comprises approximately 24,000 workers worldwide and approximately 8,2...
In 2011, the Clinical and Translational Radiotherapy Research Working Group (CTRad) of the National...
Continuing professional development (CPD) is necessary for medical physicists to ensure that they ar...
According to the European Federation of Organizations for Medical Physics (EFOMP) policy statement N...
Continuing professional development (CPD) and continuing professional education (CPE) are seen as be...
NIRS has conducted various HRD (human resource developments) utilizing the heavy ion radiotherapy fa...
This issue showcases the impact of high-energy physics in the medical arena. Ever since the discover...
Radiotherapy plays a key role in the treatment of many cancer types. This book is intended to bring ...
Medical physics has been central to the scientific and technical development of radiotherapy since i...
Background and purpose: The COVID-19 pandemic has imposed changes in radiotherapy (RT) departments w...
Medical physics has made considerable contributions to recent advances in radiation oncology. Medica...
This document reflects the impact of the technological, medical and regulative changes affecting rad...
Medical physics plays an essential role in modern medicine. This is particularly evident in cancer c...
PURPOSE: The COVID-19 pandemic has led to disorder in work and livelihood of a majority of the moder...
The medical physics workforce comprises approximately 24,000 workers worldwide and approximately 8,2...
In 2011, the Clinical and Translational Radiotherapy Research Working Group (CTRad) of the National...
Continuing professional development (CPD) is necessary for medical physicists to ensure that they ar...
According to the European Federation of Organizations for Medical Physics (EFOMP) policy statement N...
Continuing professional development (CPD) and continuing professional education (CPE) are seen as be...
NIRS has conducted various HRD (human resource developments) utilizing the heavy ion radiotherapy fa...
This issue showcases the impact of high-energy physics in the medical arena. Ever since the discover...
Radiotherapy plays a key role in the treatment of many cancer types. This book is intended to bring ...