Paul Christian Lauterbur was born on 6 May 1929 in Sidney, Ohio.
In 1951 he graduated with a bachelor of science degree in chemistry from Case Institute of Technology in Cleveland, Ohio (now part of Case Western Reserve University). Subsequently he was a Research Associate at the Mellon Institute, Pittsburgh from 1951 to 1953 where he performed research in organosilicon chemistry. In 1953 he was drafted (during the Korean War) into the Army Chemical Center Laboratories , where he remained until 1955; here he studied chemical warfare. Moreover he also established a research programme into nuclear magnetic resonance (NMR) spectroscopy. Thenceforth he returned to the Mellon Institute, graduating with PhD in chemistry from the University of Pittsburgh in 1962.
Development of MRI
In 1963 he joined the State University of New York (SUNY), in Stony Brook, with tenure in the Departments of Chemistry and Radiology, becoming a full professor in 1984. His main research focus was NMR spectroscopy, analyzing the composition of molecular structures, solids and liquids.
In 1971 after reading an article by Raymond V Damadian, Lauterbur became interested in the potential biological usages of NMR. Researchers had already shown that NMR could be used to distinguish malignant from non-diseased tissues or to assess blood flow. Until this time scientists had employed a uniform magnetic field, but Lauterbur realized that using a non-uniform field would allow the precise localization of structures within a sample to be determined. One of the first NMR images he took was of a clam.
In 1973 he successfully published his seminal paper on MRI in Nature 3,4 (an earlier draft was rejected). In this paper Lauterbur coined the term “zeugmatography” for MRI. As he explained the word was derived from the Ancient Greek ζευγμα (zeugma) ‘that which joins together’.
In 1985 he transferred to the University of Illinois in Urbana-Champaign, where he was a professor at the College of Medicine and in the Department of Chemistry. He was also Director of MRI Research there.
In 2003 he was co-awarded, with Sir Peter Mansfield, the Nobel Prize for Medicine or Physiology for his contributions to the discovery of MRI. There was much controversy at the time, as Ray Damadian was not similarly recognized by the Nobel Committee. Lauterbur won numerous other awards for his pioneering work (see below).
In later years his research energies were re-oriented to the origins of life 1.
Lauterbur married twice. His first marriage to Rose Mary Caputo, ended in divorce. His second wife was Joan Dawson, a professor of physiology, also at the State University of New York. He had three children: Daniel and Sharyn from his first marriage, and a daughter, Elise from his second marriage 1.
He died at the age of 77 years, from kidney disease, on 27 March 2007 at his home in Urbana, Illinois 1.
- Gold Medal of the Society of Magnetic Resonance in Medicine (1982) 5
- American Physical Society Biological Physics Prize (1983) 7
- Albert Lasker Clinical Research Award (1984) 1
- Michelson-Morley Award (1984) 6
- elected to the National Academy of Sciences (1985) 10
- Harvey Prize in Science and Technology (1986) 8
- National Medal of Science (1987) 9
- Gold Medal of the Radiological Society of North America (1987) 3
- IEEE Medal of Honor (1987) 3
- Gold Medal of the Society of Magnetic Resonance Imaging (1988) 5
- Gold Medal of the European Congress of Radiology (1999) 3
- Nobel Prize for Medicine or Physiology (2003)
- Honorary doctorate from the University of Liege in Belgium
- development of MRI
- 1. Chang K. Paul C. Lauterbur, 77, dies; won Nobel Prize for M.R.I. (2007) Magnetic resonance in medicine. 58 (3): 439-40. doi:10.1002/mrm.21318 - Pubmed
- 2. M. Joan Dawson. Paul Lauterbur and the Invention of MRI. (2018) ISBN: 9780262316712
- 3. Adrian M. K. Thomas, Arpan K. Banerjee, Uwe Busch. Classic Papers in Modern Diagnostic Radiology. (2004) ISBN: 9783540219279
- 4. Lauterbur PC. Image Formation by Induced Local Interactions: Examples Employing Nuclear Magnetic Resonance. (1973) Nature. 242:190-191.
- 5. Society award winners. http://www.ismrm.org.uk/ [retrieved 16 June 2018].
- 6. William Fickinger. Physics at a Research University. (2018) ISBN: 9780977338603
- 7. Case Western Reserve University. “Max Delbruck Prize in biological physics.” APS.org. https://www.aps.org/programs/honors/prizes/delbruck.cfm. [accessed 16 June 2018].
- 8. Technion. “Prize winners.” technion.ac.il. https://harveypz.net.technion.ac.il/harvey-prize-laureates/ .[accessed 16 June 2018].
- 9. National Science Foundation. “National Medical of Science.” NSF.gov. https://www.nsf.gov/od/nms/medal.jsp [accessed 16 June 2018].
- 10. National Academy of Sciences. “Biological memoir search”. NAS.org. http://www.nasonline.org/publications/biographical-memoirs/online-collection.html [accessed 16 June 2018].
Related Radiopaedia articles
History of radiology
- key milestones
- 1895: Wilhelm Roentgen detects x-rays
- 1896: Antoine Henri Becquerel discovers radioactivity
- 1896: Sydney Rowland founds the first radiology journal, Archives of Clinical Skiagraphy
- 1896: Thomas Edison invents the first commercially-available fluoroscope
- 1896: John Macintyre opens the world's first radiology department in Glasgow
- 1898: Marie Curie publishes her paper 'Rays emitted by uranium and thorium compounds'
- 1913: Albert Salomon commences research leading to mammography
- 1913: William Coolidge introduces his eponymous x-ray tube
- 1927: Egas Moniz develops cerebral angiography
- 1934: Frederic and Irene Joliot-Curie artificially produce radioisotopes
- 1936: John Lawrence uses phosphorus-32 to treat leukemia
- 1939: Kitty Clark publishes Clark’s Positioning in Radiography
- 1950s: David Kuhl invents Positron Emission Tomography (PET)
- 1953: Sven-Ivar Seldinger develops his famous technique
- 1957: Ian Donald invents fetal ultrasound
- 1964: Charles Dotter introduces image-guided intervention
- 1965: Benjamin Felson publishes his Principles of Chest Roentgenology
- 1971: Godfrey Hounsfield introduces the CT scanner (co-developed with Allan Cormack)
- 1977: Ray Damadian builds the first commercial MRI scanner
- 1989: Spiral CT introduced
- 2005: Frank Gaillard creates Radiopaedia.org :)
- 2012: inaugural International Day of Radiology
key figures in the history of radiology
- Antoine Henri Becquerel
- Gustav Bucky
- Kathleen "Kitty" Clark
- William D Coolidge
- Allan M Cormack
- Marie Curie
- Ray V Damadian
- Ian Donald
- Charles T Dotter
- Thomas A Edison
- Charles Thurstan Holland
- Godfrey N Hounsfield
- Frederick Joliot
- Irene Joliot-Curie
- David E Kuhl
- Paul C Lauterbur
- Peter Mansfield
- Egas Moniz
- Bernard Ziedses des Plantes
- Wilhelm C Roentgen
- Sven-Ivar Seldinger
- Albert Soiland
- Florence Stoney
- important figures in the history of radiology
- Nobel Prize winners in radiology
- history of modalities
- plain radiography
- nuclear medicine
- interventional radiology
- historical imaging techniques
- conventional tomography
- translumbar aortography
history of radiology journals
- American Journal of Neuroradiology (AJNR)
- American Journal of Roentgenology (AJR)
- American X-Ray Journal
- Archives of Clinical Skiagraphy
- British Journal of Radiology (BJR)
- Clinical Radiology
- Emergency Radiology
- European Radiology
- Journal de Radiologie
- Journal of the American College of Radiology (JACR)
- Journal of Medical Imaging and Radiation Oncology (JMIRO)
- Seminars in Roentgenology
- history of radiology meetings
history of radiology organizations
- United Kingdom
- United States
- Asian Oceanian Society of Radiology (AOSR)
- Colegio Interamericano de Radiologia (CIR)
- European Society of Radiology (ESR)
- Fleischner Society
- International Society for Magnetic Resonance in Medicine (ISMRM)
- International Society of Radiographers and Radiological Technologists (ISRRT)
- International Society of Radiology (ISR)
- pioneering radiology books
- Atlas of Normal Roentgen Variants That May Simulate Disease
- Reeder and Felson's Gamuts in Radiology
- Radiographic Atlas of Skeletal Development of the Hand and Wrist
- Roentgenology - The Borderlands of the Normal and Early Pathological in the Skiagram
- The Roentgen Rays in Medicine and Surgery as an Aid in Diagnosis and as a Therapeutic Agent
- Textbook of X-ray Diagnosis by British Authors