Talk by
Nick Calvert,
Senior Research Scientist,
The Christie NHS Foundation Trust, Manchester
Title & Abstract:
The use of 3D Printed phantoms for improving the accuracy of Molecular Radiotherapy Dosimetry
Performing patient-specific dosimetry in molecular radiotherapy (MRT) requires accurate activity quantification. Activity is typically derived from SPECT images, acquired at different time points, by converting the image counts using a calibration factor. This calibration factor has previously been calculated by scanning a spherical insert filled with a known activity distribution. Recent work by our group has shown that the calibration factor varies with size and shape of the insert, due to partial volume effects, rendering a single calibration factor insufficient for accurate activity quantification. The use of 3D printing for MRT has been accelerating as the equipment becomes more accessible and affordable. Our group uses 3D printing to manufacture a range of fillable phantoms, ranging from standard geometric shapes, e.g. spheres and ellipsoids, to patient-specific organs and lesions generated from CT scans. I will present how these phantoms were developed and how we use them to investigate how calibration factors vary with shape and size, and the effects this has on the dosimetry. I will finish by showing how we are building up a 3D printed ‘tumour library’ consisting of standard ellipsoids and patient tumours taken from CT images, and how these inserts have been used to measure the accuracy of voxel-based dosimetry and optimise the use of partial volume correction algorithms to improve SPECT image quantification and MRT dosimetry.
Overview:
“To the growing use of MRI in radiotherapy for diagnosis, planning and post treatment analysis is now being added the possibility to deliver personalised and adaptive treatment with the Elekta Unity MR Linac. After 15 years of research & development Elekta is now working with a growing international Consortium of leading Radiotherapy centres addressing the challenges and exploring clinical possibilities. The presentation will cover background, current status, clinical rationale, design of the Elekta Unity MR Linac, imaging & workflow and the on-going work streams with Consortium centres”.
Talk by Eirini Velliou
Senior Lecturer, Head of Bioprocess and Biochemical Engineering Group
University of Surrey
Dr Lucy Warren : Changes in Breast Density
Dr Alistair Mackenzie: Comparison of Lesion Detection using 2D, DBT and synthetic mammography
NCCPM, Medical Physics Department
Up and Coming Techniques in Medical Physics Translated into Clinical Practice
The IOP’s Medical Physics Group welcomes you to its 6th annual scientific and networking meeting, which aims to bring together people from all areas of Medical Physics and discuss potential collaborations. Our speakers will discuss the translation of new innovative development in Medical Physics into clinical practice and the processes involved in bringing new technology into clinical use.
This year, the meeting will be held at the UK’s National Metrology Institute, with an exciting afternoon consisting of a series of lab tours with research scientists in the fields of ultrasound, radiotherapy and nuclear medicine. The day will be filled with opportunities to network and exchange ideas between participants.
“Use of ImageJ in a typical medical physics department”
Gregory James
Clinical Scientist (Nuclear Medicine)
Department of Physics and Nuclear Medicine
City Hospital, Birmingham
Titles :
Using Transfer Learning for a Deep Learning Model Observer in Mammography – Will Murphy
Using Deep Learning to Detect Oesophageal Lesions in PET-CT – Ian Ackerley
Researchers at CVSSP (Centre for Vision Speech and Signal Processing) University of Surrey
The first Royal Surrey Healthcare Science Lunchtime Seminar is taking place on 12th November.
This will be a chance to hear from all the healthcare science disciplines within the hospital and get an overview of varied work undertaken in each department.
There are speakers from Medical physics, Bioinformatics, Audiology, Biochemistry, Neurophysiology, and Molecular Pathology.
The aim is to gather like minded people together with a view of using the skills available to work together to advance networking and collaboration across all disciplines at the Royal Surrey.