Jens Frahm
Jens Frahm (born March 29, 1951 in Oldenburg, Germany) is Director of the Biomedizinische NMR Forschungs GmbH (Biomedical NMR Research Inc., not-for-profit) at the Max Planck Institute for Biophysical Chemistry in Göttingen, Germany.
Life
From 1969 to 1974 Frahm studied physics at the Georg-August-University of Göttingen. His PhD thesis under the guidance of Prof. Dr. Hans Strehlow at the Max-Planck-Institut für biophysikalische Chemie was devoted to the use of nuclear magnetic resonance (NMR) spectroscopy for a characterization of the molecular dynamics of hydrated ions in complex solutions. He received his PhD degree in 1977 in physical chemistry.
Working as a Research Assistant at the Göttingen MPI since 1977 Frahm formed an independent research team which focused on the new possibilities offered by spatially resolved NMR and magnetic resonance imaging (MRI) - discovered by Paul Lauterbur in 1974 (Nobel Prize in 2003 for Physiology or Medicine together with Sir Peter Mansfield). In 1982 the Biomedical NMR group was formally founded and from 1984 to 1992 primarily financed via two substantial grants from the Ministry for Research and Technology of the German Federal Government.
The primary aim of the projects was a more sophisticated development of the rather modest MRI techniques available in the early eighties - mainly with respect to speed and specificity. Already in 1985 the group presented a major breakthrough for the future development of MRI in both science and medicine. The invention of a rapid imaging principle, the FLASH MRI (fast low angle shot) technique, allowed for a 100-fold reduction of the measuring times of cross-sectional and three-dimensional images. The FLASH acquisition technique led the ground for many modern MRI applications in diagnostic imaging. Examples include breathhold imaging of the abdomen, electrocardiogram-synchronized quasi-real time movies of the beating heart, dynamic scanning of contrast media uptake, 3D imaging of complex anatomic structures such as the brain that allow for unprecedented high spatial resolution and arbitrary view angles, and magnetic resonance angiography (MRA) of the vasculature. Other achievements extended to MRI and localized magnetic resonance spectroscopy (MRS) techniques based on stimulated echoes - another invention from 1984.
Up to date royalties from the group's patents serve to fully support all activities of the Biomedizinische NMR Forschungs GmbH (not-for-profit) which was founded in 1993 as an independent research unit associated with the Göttingen MPI. In 1997 Frahm become Adjunct Professor at the Faculty for Chemistry of the Georg-August-University in Göttingen. Since 2011 he is an External Member of the Max Planck Institute for Dynamics and Self-Organization.
Central to the research of Frahm is the further methodologic development of MRI and localized magnetic resonance spectroscopy (MRS) in conjunction with advanced applications in neurobiology (brain research) and cardiovascular research. The truly interdisciplinary team aims at innovative noninvasive approaches to study the central nervous system of humans and animals - from insects to primates with a special emphasis on mouse models of human brain disorders. Using several high-field MRI systems, current possibilities include structural, metabolic, and functional assessments of the intact living brain. Techniques range from high-resolution 3D MRI studies of brain morphology and localized proton MRS of brain metabolism to fiber tractography of the axonal connectivity via diffusion tensor imaging and mapping of the functional architecture of cortical networks by functional MRI.
Current methodologic projects focus on the use of iterative image reconstruction techniques for non-cartesian MRI (e.g., undersampled radial MRI) and parallel MRI that define the reconstruction process as a nonlinear inverse problem. Other developments address the possibility of real-time MRI in order to overcome the motion sensitivity of conventional MRI acquisitions and to monitor organ movements in real time. Most recent achievements in real-time MRI are based on FLASH techniques with highly undersampled radial data encodings. When combined with image reconstruction by regularized nonlinear inversion, they allow for movies of the human heart with image acquisition times as short as 20 milliseconds, which correspond to MRI movies with 50 frames per second. Such real-time movies may continuously be recorded during free breathing, without ECG synchronization, and without motion artifacts. Apart from cardiac applications and quantitative measurements of blood flow in real time, multiple examples ranging from studies of joint movements and swallowing to brass playing and interactive real-time MRI can be found here: Biomedizinische NMR Forschungs GmbH.
The list of Frahm's publications exhibits more than 430 entries comprising patents, scientific articles, review articles, and book chapters (as of 2015), see . His Hirsch index is 79 (49 since 2010).
Awards
- 1987 Honorary Member, Greek Radiological Society
- 1989 European MRI Award, German Roentgen Society
- 1990 European Magnetic Resonance Award, European Workshop on NMR in Medicine
- 1991 Gold Medal Award, International Society of Magnetic Resonance in Medicine
- 1992 Hans-Meyer-Award, Roentgen Society of Lower Saxony
- 1993 Karl-Heinz-Beckurts-Award, Beckurts-Foundation
- 1995 Fellow of the Society, International Society of Magnetic Resonance in Medicine
- 1996 State-Award for Science, President of the State of Lower Saxony
- 2005 Ordinary Member, Academy of Science at Göttingen
- 2005 Research Award of the Sobek-Foundation (Multiple Sclerosis)
- 2006 Biomedizinische NMR Forschungs GmbH, Selected Location in Germany 2006: Land of Ideas
- 2013 Science Award of the Donors' Association for the Promotion of the Sciences and the Humanities [1]
- 2015 Niedersachsenprofessur 2016-2019
External links
- Biomedizinische NMR Forschungs GmbH: Detailed information about scientific projects and recent results
- Max-Planck-Institut für biophysikalische Chemie: Further general information
References
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