August 26, 2019
Physicist nominated for emerging health researcher award
Dr Saree Alnaghy recognised for work on world-first robotic device for use in radiotherapy
Physicist Dr , from the รรอลสำฦต (รรอลสำฦต) Centre for Medical Radiation Physics and the Illawarra Health and Medical Research Institute, has been named as a finalist in the 2019 Bupa Health Foundation Emerging Health Researcher Award.
Dr Alnaghy was nominated for his work on a world-first robotic measurement device for use in complex radiotherapy treatments.
The Bupa Heath Foundation Emerging Health Researcher Award recognises the dedication of early career researchers and their valuable contribution to improving health outcomes for all Australians.
Dr Alnaghyโs device is designed to ensure radiation is correctly delivered to tumours while avoiding healthy tissue damage.
It has the potential to reduce radiation treatment-related errors and significantly improve patient safety in high-precision cancer radiotherapy in Australia and worldwide allowing clinicians to know whether they are targeting the tumour correctly and whether the radiation dose is correct.
โI have developed a world-first quality assurance device that can mimic tumour motion and that can be used in the clinic to validate the treatment accuracies for targeted radiation therapy for cancer treatments,โ Dr Alnaghy said.
โDuring radiation therapy tumours move, they translate and rotate, and modern radiation therapy technologies can now track this motion and adapt the radiation beam or the patient to the treatment to minimise any errors in the radiation.โ
Bupa Heath Foundation Emerging Health Researcher Award finalist Dr Saree Alnaghy (right) with Distinguished Professor Anatoly Rozenfeld, Director of รรอลสำฦตโs Centre for Medical Radiation Physics.
Advances in radiotherapy have led to technologies that can track the motion of a tumour during treatment and adapt the radiation beam or shift the patient to avoid damage to healthy tissue sites. Due to the large radiation doses prescribed, however, it is essential to ensure the x-rays precisely hit the target.
Working in collaboration with the ACRF Image X Institute at the University of Sydney, Dr Alnaghy designed, built and clinically tested a robotic quality assurance device that could mimic tumour motion.
In 18 months, he built a robotically controlled prototype, developed unique software to mimic the patient motion and validated the device in the clinic using a commercial clinical tracking system.
โOne of the most important aspects for clinical translation is having a really strong relationship with the clinical centres and the hospitals and being able to develop something in the lab and getting it into the hospitals,โ Dr Alnaghy said.
โI really enjoy developing hardware and software โฆ and one of the things that motivates me is the end user being able to develop something that someone else can use and have benefit for.โ
Distinguished Professor , Director of รรอลสำฦตโs Centre for Medical Radiation Physics, nominated Dr Alnaghy for the award and commended him for his ability to progress from theoretical understanding to final practical applications.
โI nominated Saree for this award due to his extremely important skill in developing hardware and software, and particularly radiation detectors,โ Professor Anatoly Rozenfeld said.
โWe need to move ahead. It's the future of medical physics. It's the future of patient safety. Itโs the future of better treatment of cancer.โ
The robotic device developed by Dr Alnaghy mimics the movement of tumors to help reduce errors in radiation cancer treatments.
Westmead Hospital is now using the device for patient quality assurance under a clinical trial for treating liver cancers.
The trial is expected to expand to other sites, including Crown Princess Mary Cancer Centre, Westmead; Aarhus University Hospital, Denmark; Peter MacCallum Cancer Centre, Melbourne; Princess Alexandra Hospital, Brisbane; Royal North Shore Hospital, Sydney; and Calvary Mater, Newcastle.