It looks like this podcast has ended some time ago. This means that no new episodes have been added some time ago. If you're the host of this podcast, you can check whether your RSS file is reachable for podcast clients.
Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio
by UCLProfessor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart. After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia. Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
Copyright: 2020 University College London
Episodes
1. Nottingham University – imaging research with Peter Mansfield
3m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
21. Reflections on a career - Lauterbur and Mansfield’s Nobel Prize
2m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
13. Detroit - applying MRI to visualise brain ischemia
3m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
9. Nottingham - the Birdcage Coil
2m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
7. Into industry - Magnetic Resonance Spectroscopy (1982-86) applied to body
3m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
16. University College London – a new lab at Queen Square for Europe’s highest field
3m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
8. Magnetic Resonance Spectroscopy (1982-86) – revealing tissue biochemistry
1m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
6. Magnetic Resonance Imaging – how it works: gradient echoes and K space
3m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
5. Magnetic Resonance Imaging – how it works: Fourier transform and use of contrast
4m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
4. Nuclear Magnetic Resonance – how it works
4m · Published
Professor Roger Ordidge studied physics at the University of Nottingham, and went on to obtain his PhD in 1981 under the supervision of Professor Sir Peter Mansfield. He worked on echo-planar imaging, a high speed imaging technique which helped make Magnetic Resonance Imaging (MRI) possible, and was the first person to generate a moving image of the beating heart.
After four years in industry working on Nuclear Magnetic Resonance (NMR) spectroscopy as related to body metabolism, Professor Ordidge briefly returned to Nottingham in 1986 before taking up a post in the US at Oakland University, Detroit, to study the process of stroke damage. In 1994, he became Joel Professor Physics Applied to Medicine, at UCL, a position which he still holds. His research focuses on the development and application to clinical research of MRI technology and he has patented several of the widely used methods currently used in MRI scanners such as improvements in radio-frequency (RF) slice definition using FOCI RF pulses. He is particularly interested in studying the brain in stroke and in neonatal birth asphyxia.
Professor Ordidge was a founding member of the British Chapter of the International Society for Magnetic Resonance in Medicine (ISMRM) and in 2006 was elected a Fellow of the Academy of Medical Sciences.
Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio has 23 episodes in total of non- explicit content. Total playtime is 1:10:24. The language of the podcast is English. This podcast has been added on November 27th 2022. It might contain more episodes than the ones shown here. It was last updated on February 8th, 2024 07:14.
More podcasts from UCL
Every Podcast » Podcasts » Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio