Medical physics is the application of physics to medicine. It generally concerns physics as applied to diagnostic techniques such as medical imaging and physiological measurement and advanced therapeutics such as radiation and laser therapy. Medical physicists may also work in many other areas of healthcare. A medical physics department may be based in either a hospital or a university and its work is likely to include research, technical development, and clinical healthcare.
Clinical engineering (also referred to as ‘Bioengineering’ or ‘Biomedical Engineering”) is a specialty responsible for applying engineering technology to the support and development of the health services. The focus of Clinical Engineering is on the management and safety of electromedical devices used in hospital settings.
Medical physics / clinical engineering activities include clinical support, research, technical development, education and regulatory elements.
Medical Physics and Bioengineering at Trinity College Dublin represents the combined activities in Research and Education in these areas across three sites. The associated academics are all active Medical Physicists / Clinical Engineers with full time or part-time commitments to the teaching and associated hospitals of Trinity College Dublin (St. James’s, Tallaght University and St. Lukes’s Hospitals).
Medical Physics / Clinical Engineering does not deliver any specific undergraduate programme. However the academic staff contributes to the delivery of many modules and courses within existing undergraduate programmes in a number of third level institutions. These courses normally relate to Radiation Physics, Medical Imaging, Non-ionising Radiation, Radiation Therapy, Mechanical Engineering and Physiological Measurement.
As education providers, academic medical physicists and clinical engineers support St. James’s, Tallaght University and St. Luke’s Hospitals in their role as teaching hospitals. With physicists and engineers positioned at the point of care, the function is uniquely placed to teach and train at the interface between clinical practice and medical technology / science.
Members have contributed to the start up and running of a range of postgraduate courses for other professions, particularly in Diagnostic Imaging and Radiotherapy. Strong links have also been developed with a number of institutions for the delivery of postgraduate degrees as well as fellowship training programmes. These include:
Research, development and innovation has grown primarily from members’ activities at the clinical, technical and scientific interfaces in the medical environment. Approximately fifteen successful PhD students have been supervised either directly or in collaboration with other departments.
Academics have been involved in a series of collaborations with many industrial, international and public service bodies. Opportunities exist to expand the research in line with the associated hospitals’ objectives / strategies and to co-operate with other departments and institutions to align activities along a translational axis from basic research through to clinical application.
The primary research strands within the department include
Lecturer on the Diploma in Nuclear Medicine (TCD)
Lecturer & Co-ordinator of Physics programme for Part 1 Fellowship in Radiology (RCSI)
Medical Physics & Bioengineering Department, St. James’s HospitalE-Mail: [email protected]Ph: +353 1 4162645
Medical Physics Department, St. Lukes’s Hospital.E-Mail: [email protected]Ph: +353 1 4065000
Medical Physics & Clinical Engineering Dept., AMNCH HospitalE-Mail: [email protected] Ph: +353 1 4145898
