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Innehåll tillhandahållet av Queen Mary, University of London and Professor Roger Ordidge. Allt poddinnehåll inklusive avsnitt, grafik och podcastbeskrivningar laddas upp och tillhandahålls direkt av Queen Mary, University of London and Professor Roger Ordidge eller deras podcastplattformspartner. Om du tror att någon använder ditt upphovsrättsskyddade verk utan din tillåtelse kan du följa processen som beskrivs här https://sv.player.fm/legal.
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Today's Neuroscience, Tomorrow's History - Professor Roger Ordidge

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Manage series 2608032
Innehåll tillhandahållet av Queen Mary, University of London and Professor Roger Ordidge. Allt poddinnehåll inklusive avsnitt, grafik och podcastbeskrivningar laddas upp och tillhandahålls direkt av Queen Mary, University of London and Professor Roger Ordidge eller deras podcastplattformspartner. Om du tror att någon använder ditt upphovsrättsskyddade verk utan din tillåtelse kan du följa processen som beskrivs här https://sv.player.fm/legal.
Supported by a Wellcome Trust Public Engagement grant (2006-2008) in the History of Medicine to Professor Tilli Tansey (QMUL) and Professor Leslie Iversen (Oxford), the History of Modern Biomedicine Research Group at Queen Mary, University of London presents a series of podcasts on the history of neuroscience featuring eminent people in the field: 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.
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23 episoder

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iconDela
 
Manage series 2608032
Innehåll tillhandahållet av Queen Mary, University of London and Professor Roger Ordidge. Allt poddinnehåll inklusive avsnitt, grafik och podcastbeskrivningar laddas upp och tillhandahålls direkt av Queen Mary, University of London and Professor Roger Ordidge eller deras podcastplattformspartner. Om du tror att någon använder ditt upphovsrättsskyddade verk utan din tillåtelse kan du följa processen som beskrivs här https://sv.player.fm/legal.
Supported by a Wellcome Trust Public Engagement grant (2006-2008) in the History of Medicine to Professor Tilli Tansey (QMUL) and Professor Leslie Iversen (Oxford), the History of Modern Biomedicine Research Group at Queen Mary, University of London presents a series of podcasts on the history of neuroscience featuring eminent people in the field: 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.
  continue reading

23 episoder

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