Imaging in Medicine: A different way of seeing.

Winter 2023 Topical Lecture Dr Michael R. Jackson PhD Consultant Paediatric Radiologist Royal Hospital for Children and Young People, Edinburgh Date: Monday June 26 2023 Times: NZ: 6pm (NZST); QLD/NSW/VIC/TAS: 4pm (AEST); SA/NT: 3:30pm (ACST);WA: 2pm (AWST); 7am (GMT) Join Zoom Meeting https://us02web.zoom.us/j/87986834126?pwd=ei84b2ZsMEU0ZDgrMTB3WnE0eTdRZz09 About the Speaker Dr Michael R. Jackson Read more…

Long Axial Field of View Positron Emission Tomography

Researchers and patients alike are benefiting from a new imaging technology called ‘Long Axial Field of View (FOV) Positron Emission Tomography’, also known as ‘Total-Body PET (TB-PET)’. This technology advance enables molecular imaging studies to be performed at ultrahigh sensitivity, i.e. an order of magnitude or more higher sensitivity than Read more…

Towards personalised radionuclide therapy for theranostic techniques:   Part 1, The basics

Single Photon Emission Computed Tomography (SPECT) is commonly used to evaluate the radiation dose delivered to target structures and normal organs in radionuclide therapy (RNT). SPECT imaging is hindered by poor spatial resolution, making it difficult to accurately quantify the dose delivered to target cancer lesions. This has, in part, Read more…

IOMP Medal (2016) Award to John Mallard for his MRI work

MRI and John Mallard: The Complete 8 Chapters Despite how significant the R&D that John Mallard’s 1980 Aberdeen University physics and engineering group achieved in building the first clinical total-body MRI machine, international professional recognition was not received with any substance at that time. It took another 36 years after Read more…

John Mallard: his last ten years of professional work

The 2003 Nobel Prize was very controversial and there were many wild claims, counter claims and questions asked as to why scientists with significant direct patient related MRI achievements (such as the MRI whole-body diagnostic imaging tool for cancer patients) were not considered. Like many, I wondered why wasn’t Professor Read more…

MRI: The first clinical whole-body MRI scanner

In Parts 1-5 of this MRI story, it describes how the discovery of nuclear magnetic resonance (NMR) evolved into being a diagnostic tool for magnetic resonance imaging (MRI) of biological samples and eventually mice. The 2003 winners of the Nobel prize was based on this work. But who was the Read more…

My brush with fame

Professor John Mallard First ACPSEM Honorary Fellow, Australasian College of Physical Scientists and Engineers in Medicine Part 4. By the beginning of the 1960s, some Australian and New Zealand hospitals had established physics departments (similar to those in UK) to provide scientific services for radiotherapy, radiology and (the then very Read more…

The first NMR biological image?

Part 3: When asked about when he first thought up his NMR technique, he said that it was long before his breakthrough work at Stony Brook University. It was whilst having an eat-out dinner as a student researcher. He was studying then at the University of Pittsburgh and Mellon Institute of Industrial Read more…

The pathway to magnetic resonance imaging

Part 2. This story attempts to review and collate the many references and websites covering the pathway to clinical MRI. It is hoped it will provide the reader a balanced story of the evolutionary events that occurred and to appreciate how so many leading physical scientists, life scientists, physicists, engineers Read more…

Professor John Mallard: The MRI Story

In Memory of: John Mallard OBE, FRSE, FREng, FIPEM, FIUPESM (14 January 1927 – 25 February 2021) The late Professor John Mallard played a vital role in making it possible to use magnetic resonance to obtain whole-body images for the detection of diseases in patients. This story describes in detail how Read more…