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Journal
2004 | 53 | 3-4 | 251-262
Article title

Obrazowanie żywych organizmów metodą rezonansu magnetycznego

Content
Title variants
EN
Magnetic resonance imaging of the living organisms
Languages of publication
PL EN
Abstracts
EN
Summary In 2003 Paul Lauterbur and Peter Mansfield received the Nobel Prize in Physiology or Medicine "for their discoveries concerning magnetic resonance imaging". The article presents a short history related to those discoveries as well as the basics of the MRI including the concept of K-space and contrast agents.
Keywords
Journal
Year
Volume
53
Issue
3-4
Pages
251-262
Physical description
Dates
published
2004
Contributors
  • Zakład Biofizyki Wydział Biotechnologii Uniwersytet Jagielloński, Gronostajowa 7, 30-327 Kraków, Polska
References
  • BLOCH F., 1946. Nuclear induction. Phys. Rev. 70, 460-474.
  • BLOCH F., HANSEN W. N., PACKARD M., 1946. Nuclear induction. Phys. Rev. 69, 127.
  • DAMADIAN R. V., 1971. Tumor detection by nuclearmagnetic resonance. Science 171, 1151-1153.
  • DAMADIAN R. V., 1973. Apparatus and method for detecting cancer in tissue. United States Patent No. 3789832, zarejestrowany 17 marca 1972 r., przyznany 5 lutego 1974 r.
  • EDELSTEIN W. A., HUTCHISON J. M., JOHNSON G., REDPATH T., 1980. Spin warp NMR imaging and applications to human whole-body imaging. Phys. Med. Biol. 25, 751-756.
  • EMRF Foundation, 2003. A short history of magnetic resonance imaging from an European point of view. http://www.emrf.org/FAQs%20MRI%20History. html.
  • ERNST R. R., 1966. Sensitivity Enhancement in Magnetic Resonance. Adv. Magn. Reson. 2, 1-135.
  • ERNST R. R., 1992. Nuclear magnetic resonance Fourier transform spectroscopy. Nobel Lecture, December 9, 1992.
  • ERNST R. R., ANDERSON W. A., 1966. Application of Fourier transform spectroscopy to magnetic resonance. Rev. Sci. Instrum. 37, 93-102.
  • ESTERMAN I., STERN O., 1933. Über die magnetische Ablenkung von Wasserstoffmolekülen und das magnetische Moment des Protons. II. Z. Phys. 86, 1-32.
  • FRISCH R., STERN O., 1933. Über diemagnetische Ablenkung von Wasserstoffmolekülen und das magnetische Moment des Protons.I. Z. Phys. 85, 4.
  • GARROWAY A. N., GRANNELL P. K., MANSFIELD P., 1974. Image formation in NMR by selective irradiative process. J. Phys. C: Solid State Phys.7, L457-L482.
  • GÜNTHER H., 1983. Spektroskopia magnetycznego rezonansu jądrowego. PWN, Warszawa.
  • HAHN E. L., 1950, Spin echoes. Phys. Rev. 80, 580-594.
  • HOLLIS D.P., ECONOMON J. S., PARKS L. C., SARYAN L. A., CZEISLER J. L., 1973. Nuclear magnetic resonance studies of several experimental and human malignat tumors. Cancer Res. 33, 2156-2160.
  • JACKSON J. A., LANGHAM W. H., 1968.Whole-body NMR spectrometer. Rev. Sci. Instr. 39, 510-513.
  • JOY M., 2003. MRI-K-Space, http://www.ecf.utoronto. ca
  • KASTLER A., 1966. Optical methods for studying Hertzian resonances. Nobel Lecture, December 12, 1966.
  • KELLOGG J. M. B., RABI I. I., RAMSEY N. F., ZACHARIAS J. R., 1939. The MagneticMoment of the Proton and the Deuteron. The Radiofrequency Spectrum of 2H in VariousMagnetic Fields. Phys. Rev. 56, 728-743.
  • KUMAR A.,WELTI D., ERNST R. R., 1975a. NMR Fourier zeugmatography. J. Magn. Reson. 18, 69-83.
  • KUMAR A.,WELTI D., ERNST R. R., 1975b. Imaging of macroscopic objects by NMR Fourier zeugmatography. Naturwiss.62, 34.
  • LAUTERBUR P. C., 1973. Image formation by induced local interactions; examples of employing nuclear magnetic resonance. Nature. 242, 190-191.
  • LAUTERBUR P. C. ,1974. Magnetic resonance zeugmatography. Pure Appl. Chem. 40, 149-157.
  • LAUTERBUR P. C ., 2003. All Science is Interdisciplinary - from Magnetic Moments to Molecules to Men. Nobel Lecture,December 8, 2003. http://www.nobel. se/medicine/laureates/2003/lauterbur-lecture.html.
  • LOK C., 2001. Picture perfect. Nature 412, 372-374.
  • LOUIE A. Y., HUBER M. M., AHRENS E. T., ROTHBACHER U., MOATS R., JACOBS R. E., FRASER S. E.,MEADE T. J., 2000. In vivo visualization of gene expression using magnetic resonance imaging. Nature Biotechnol. 18, 321-325.
  • MANSFIELD P., 1977. Multi-planar image formation using NMR spin echoes, J. Phys. C: Solid State Phys., 10, L55-58.
  • MANSFIELD P., 1988. Imaging by nuclearmagnetic resonance. J. Phys. E: Sci. Instrum., 21 18-30.
  • MANSFIELD P., GRANNELL P., 1973. NMR 'diffraction' in solids? J. Phys. C: Solid State Phys. 6, L422-L426.
  • MANSFIELD P., MANDALEY A. A.,1976a. Planar spin imaging by NMR. J. Phys. C: Solid State Phys. 9, L409-L411.
  • MANSFIELD P., MANDSLEY A. A., 1976b. Line scan proton imaging in biological structures by NMR. Phys. Med. Biol. 21, 847-852.
  • MANSFIELD P., GRANNELL P. K., GARROWAY A. N., STALKEL D. C., 1973. Multi-pulse line narrowing experiments: NMR 'diffraction' in solids. Proceedings, First Specialized Colloque Ampere, Krakow, Poland, 16-27.
  • ODEBLAD E., BHAR B. N., LINDSTÖM G., 1956. Proton magnetic resonance of human blood cells in heavy water exchange experiments. Arch. Biochem. Biophys. 63, 221-225.
  • PAULI W., 1924. Zur Frage der theoretischen Deutung der Satelliten einiger Spektrallinien und ihrer Beeinussung durch magnetische Felder. Naturwiss. 12, 741-743.
  • PAULI W., 1946. Exclusion principle and quantum mechanics, Nobel Lecture, December 13, 1946.
  • PEARSON H., 2003. Physician launches public protest over medical Nobel. Nature 425, 648.
  • PURCELL E. M., TORREY H. C., POUND R. V., 1946. Resonance absorption by nuclear magnetic moments in a solid. Phys. Rev. 69, 37-38.
  • RABI I. I., ZACHARIAS J. R., MILLMAN S., KUSCH P., 1938. A new method of measuring magnetic moment. Phys. Rev. 53, 318.
  • STERN O., The method of molecular rays. Nobel Lecture, December 12, 1946
  • UHLENBECK G. E., GOUDSMIT S., 1925. Ersetzung der Hypothese vom unmechanischen Zwang durch eine Forderung bezüglich des inneren Verhaltens jedes einzelnen Elektrons. Naturwiss.13, 953-954.
  • UHLENBECK G. E.,GOUDSMIT S., 1926. Spinning Electrons and the Structure of Spectra. Nature, Lond. 117, 264-265.
  • WÜTHRICH K., 2002. NMRstudies of structure and function of biologicalmacromolecules. Nobel Lecture, December 8, 2002.
Document Type
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.bwnjournal-article-ksv53p251kz
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