Shows
Today's Neuroscience, Tomorrow's History - Professor Roger OrdidgeDetroit - applying MRI to visualise brain ischemiaToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeNottingham University imaging research with Peter MansfieldToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeHighlights of my careerToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeNot quite scientistsToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeReflections on a career - Lauterbur and Mansfields Nobel PrizeToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeCooling the brains of birth asphyxiated babies, and other projectsToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeA new MRI machine and 32-channel head coilToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeImaging the brains of birth asphyxiated babiesToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeHigh field magnets and the magnetic susceptibility of tissueToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeUniversity College London a new lab at Queen Square for Europes highest field magnet, 1994Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeDisappointments and successesToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeSolving the problems of diffusion weighted imaging with navigator echoToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeInventions and patentsToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeTagging the bloodToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeScanning for birth defectsToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeNottingham - the Birdcage CoilToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeMagnetic Resonance Spectroscopy (1982-86) revealing tissue biochemistryToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeInto industry - Magnetic Resonance Spectroscopy (1982-86) applied to body metabolismToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeMagnetic Resonance Imaging how it works: gradient echoes and K spaceToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeMagnetic Resonance Imaging how it works: Fourier transform and use of contrastToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeNuclear magnetic resonance - how it worksToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeThe MRI scanner - how it worksToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 minToday's Neuroscience, Tomorrow's History - Professor Roger OrdidgeCreating the worlds first Magnetic Resonance Imaging (MRI) movie, 1982Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge
2012-08-2700 min
Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio1. Nottingham University – imaging research with Peter MansfieldProfessor 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...
2009-06-2400 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio21. Reflections on a career - Lauterbur and Mansfield’s Nobel PrizeProfessor 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...
2009-02-2400 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio13. Detroit - applying MRI to visualise brain ischemiaProfessor 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...
2009-02-2400 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio9. Nottingham - the Birdcage CoilProfessor 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...
2009-02-2400 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio7. Into industry - Magnetic Resonance Spectroscopy (1982-86) applied to bodyProfessor 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...
2009-02-2400 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio16. University College London – a new lab at Queen Square for Europe’s highest fieldProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio8. Magnetic Resonance Spectroscopy (1982-86) – revealing tissue biochemistryProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio6. Magnetic Resonance Imaging – how it works: gradient echoes and K spaceProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio5. Magnetic Resonance Imaging – how it works: Fourier transform and use of contrastProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio4. Nuclear Magnetic Resonance – how it worksProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio3. The MRI Scanner – how it worksProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio2. Creating the world’s first Magnetic Resonance Imaging (MRI) movie, 1982Professor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio23. Highlights of my careerProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio22. Not quite scientistsProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio20. Cooling the brains of birth asphyxiated babies, and other projectsProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio19. A new MRI machine and 32-channel head coilProfessor 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...
2009-02-2300 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio18. Imaging the brains of birth asphyxiated babiesProfessor 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...
2009-02-2000 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio17. High field magnets and the magnetic susceptibility of tissueProfessor 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...
2009-02-2000 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio15. Disappointments and successesProfessor 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...
2009-02-2000 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio14. Solving the problems of diffusion weighted imaging with navigator echoProfessor 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...
2009-02-2000 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio12. Inventions and patentsProfessor 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...
2009-02-2000 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio11. Tagging the bloodProfessor 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...
2009-02-2000 minToday's Neuroscience, Tomorrow's History - Professor Roger Ordidge - Audio10. Scanning for birth defectsProfessor 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...
2009-02-2000 min