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Upcoming eventsÌý

Our 2024-25 schedule will be published shortly.Ìý

All of our inaugural lectures are free to attend and open to all. You don't have to be a °×С½ãÂÛ̳ staff member or student to come along.

Lectures usually begin at 17:30 and are typically one hour long. A drinks reception will follow, to which everyone is welcome to join. We look forward to meeting you at one of our events!

Previous Lectures

The Wandering Photon with Prof Ilias Tachtsidis

Lecture held on Thursday 16th March 2023

My inaugural lecture will be a collection of short stories from my journey to becoming a Professor of Biomedical Engineering at °×С½ãÂÛ̳. I will start by describing how I was introduced to the use of light and photons to look inside the body, followed by my PhD and postdoc years, running between the lab and the hospital; and from there how I lead a successful team and research programme of work in developing the next generation of brain imaging tools. Integrated within these stories are my teaching and outreach activities. At the end I will introduce the new approaches that my team are developing to transform patient metabolic imaging.

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About Professor Ilias Tachtsidis

Ìýis an engineer working at the interface of technologies development and clinical application. His research focuses on the development of optical technologies to monitor and image the brain. Prof Tachtsidis is internationally recognised as a leader in the development of instruments that use light and have the capacity to image non-invasively how our brain cells use oxygen to produce energy. He has published extensively (more than 160 peer reviewed publications) and leads a successful programme of outreach activities via theÌýÌýteam that he leads, demonstrating how engineers and medical doctors work together to solve clinical problems and save patient lives.

Prof Tachtsidis also leads theÌýMultiModal Spectroscopy (MMS)ÌýResearch Group.

Seeing through: my journey with X-rays for creating images and building new instruments with Prof Marco Endrizzi

Lecture held on Wednesday 20ÌýMarchÌý2024

In this lecture I will talk about my academic journey, starting from when I developed a passion for X-ray imaging techniques, through becoming part of the Advanced X-ray Imaging group at °×С½ãÂÛ̳ where phase contrast techniques have been pioneered and developed for nearly two decades, until now. Through a small collection of examples and short stories, I will show how this passion has provided me with the opportunity to learn about fundamentals of Optics and Radiation Physics, to travel around the world and to design and build unique instruments. I will conclude with an outlook of future directions, through the two main projects I am involved in at present, the National Research Facility for laboratory-based X-ray Computed Tomography and the new satellite group at the Francis Crick Institute.

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About Professor Marco Endrizzi

Ìýgraduated in Applied Physics from the University of Pisa in 2008 and obtained a PhD in Physics from the University of Siena in 2011. He moved to London in 2012 when he joined the Department of Medical Physics and Biomedical Engineering at °×С½ãÂÛ̳ as a postdoctoral researcher.

He secured a Marie-Curie career integration grant in 2012 and a Royal Academy of Engineering Research Fellowship in 2015 that supported his activities on laboratory-based X-ray dark-field microscopy and microtomography. His contributions include a method, now °×С½ãÂÛ̳-proprietary, for X-ray dark-field imaging under incoherent illumination and hence suitable for laboratory settings as it is compatible with standard X-ray tubes. ÌýSince November 2020 Marco is co-Director of the National Research Facility for lab-based X-ray Computed Tomography (NXCT), andÌýin September 2023 he joined The Francis Crick Institute as a satellite group leader.

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A Magnetic Journey with Prof Karin Shmueli

Lecture held on Wednesday 22 May 2024

From a PhD at °×С½ãÂÛ̳ to postdoctoral research the USA National Institutes of Health and attracted back to °×С½ãÂÛ̳ again, I will describe my magnetic journey to becoming a Professor of Magnetic Resonance Imaging (MRI) Physics in October 2021. I will talk about magnetic susceptibility: what is it, why is it useful and how we can calculate it from MRI phase images that are not usually used. I will present some of the research I have done with my team and collaborators to optimise quantitative susceptibility mapping (QSM) for clinical applications from head to (almost) toe, such as: in the brains of people with Parkinson’s disease, epilepsy and sickle cell anaemia, in head and neck cancer down to prostate and pelvic imaging. Finally, I will introduce the start of my journey into using QSM to study brain function and using MRI to measure electrical conductivity.

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About Professor Karin Shmueli

Ìýis a Professor of Magnetic Resonance Imaging Physics. She is internationally recognised as a pioneer of and leader in the field of quantitative magnetic susceptibility mapping (QSM): a technique to calculate pathophysiologically relevant maps representing tissue composition (e.g. iron content, calcifications and myelination) from the phase of the MRI signal often discarded in conventional MRI. Since (re)joining °×С½ãÂÛ̳ Medical Physics and Biomedical Engineering as a Lecturer in MRI in January 2012, Prof. Shmueli has built and leads anÌýMRI physics research groupÌýand a collaborative research programme involving scientists and clinicians in the UK and worldwide. She currently holds a European Research Council Consolidator Grant and a Cancer Research UK Multidisciplinary Award.

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Many focuses, one vision with Professor Peter Munro

Lecture held on Wednesday 5ÌýJuneÌý2024

I have had the privilege of working in optical imaging since starting work on my PhD just over 20 years ago. I’ve witnessed much progress in the field, whilst making some modest contributions of my own. I have focused on a range of techniques which make use of light, x-rays and ultrasound to achieve my vision of acquiring unique images. In this inaugural lecture I will reflect on how I have often found myself unexpectedly returning, with new insight or a new application, to an idea, technique or place that I have previously encountered. I will also discuss how a curiosity driven approach has been integral to my goal of using theory and computation to enhance optical imaging. I hope to share with the audience some of the enjoyment that I have gained from research and to give a perspective on what I plan still to achieve in computational optics.

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About Professor Peter Munro

Ìýis a Professor of Computational Optics and Vice Dean (Research) of the Faculty of Engineering Sciences. He is an international expert on the use of computational methods to develop and improve imaging systems, including optical coherence tomography, confocal microscopy, x-ray phase imaging and photoacoustic tomography. He developed the recently released open source software packageÌý, a unique platform for simulating a range of optical imaging techniques. His work has been instrumental in the development and improvement of several technologies including multiplexed optical data storage, lab-based x-ray phase imaging and optical elastography. Peter collaborates with a wide range of leaders in the field, with a particular focus on optical coherence tomography. Peter currently holds a Royal Society University Research Fellowship as well as support from the Engineering and Physical Sciences Research Council.

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