Abstract
Although various groups (Kuhl et al, Brownell et al) started working in the field during the 1950’s (1, 2), the technique of emission computerized tomography (ECT) in nuclear medicine have developed dramatically over the past few years. This development is mainly due to the appearance of new mathematical tools (3), powerful mini-computers and increased sophistication in detection methods.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Kuhl, D.E., Edwards, R.Q.: Cylindrical and section radioisotope scanning of the liver and brain. Radiology 83: 926–935 (1964)
Brownell, G.L. et al.: Localization of brain tumors.with positron emitters. Nucleonics 11, 40 (1953)
Kellershohn, C.: Emission Tomography: Basic principles. In this publication
Ter-Pogossian, M.M.: Basic principles of computed axial tomography. Semin. Nucl. Med. 7, 109–128 (1977)
Phelps, M.E.: Emission Computed Tomography. Semin. Nucl. Med. 7, 337–365 (1977)
Phelps, M.E., Hoffman, E.J., Huang, S.C., Kuhl, D.E.: ECAT: a new computerized tomographic imaging system for positron-emitting radiopharmaceuticals. J. Nucl. Med. 19, 635–647 (1978)
Kuhl, D.E., Edwards, R.Q., Ricci, A.R. et al.: Quantitative section scanning The MARK IV System for radionuclide computed tomography of the brain. Radiology 121, 405–413 (1976)
Keyes, W.I.: A practical approach to transverse section gamma-ray imaging, Br. J. Rad., 49, 62–70 (1976)
Jaszczak, R.J., Murphy, P.H., Huard, D. et al.: Radionuclide emission computed tomography of the head with 99ITITC and a scintillation camera. J. Nucl. Med. 373–380 (1977)
Kay, D.B., Keyes, J.W.: First order corrections for absorption and resolution compensation in radionuclide Fourier Tomography. J. Nucl. Med. 16, 640–541 (1975)
Kirkos, L.T., Leonard, P.F., Keyes, J.W.: An optimized collimator for single-photon computed tomography with a scintillation camera. J. Nucl. Med., 19, 322–323 (1978)
Budinger, T.F., Gullberg, G.T.: Transverse section reconstruction of gamma-ray emitting radionuclides in patients. In: Reconstruction Tomography in Diagnostic Radiology and Nuclear Medicine, Baltimore, Univ. Park, (1977)
Soussaline, F., Houle, S., Plummer, D., Todd-Pokropek A.E.: Potentials of quantitative methods in Positron Emission Tomography in VIth Int. Conf. Inf. Proc. in Med. Imag. Proc., Paris (1979)
Ter-Pogossian, M.M., Mullani, N.A., Hoop, J., Higgins, C.S., Currie, C. M.: A multislice positron emission computed tomograph (PETT IV) yielding transverse and longitudinal images. Radiology 128, 477–484 (1978)
Derenzo, S.E., Budinger, T.F., Cahoon, J.L., Greeberg, W.L., Huesman R.H., Vuletich, T.: The Donner 280-crystal high resolution positron tomograph. IEEE Trans. Nucl. Sci. NS-26, 2790–2793 (1979)
Muehllehner, G., Buchin, M.P., Dudek, J.H.: Performance parameters of a positron imaging camera. IEEE Trans. Nucl. Sci. NS-25, 528–537 (1976)
Cho, S.H., Cohen, M.B., Singh, M. et al.: Performance and evaluation of the circular ring transverse axial positron camera (CR TAPC) IEEE Nucl. Sci. NS-24, 532–543 (1978)
Yamamoto, Y.L., Thompson, C.J., Meyer, E. et al. Dynamic positron emission tomography for the study of cerebral hemodynamics in a cross-section of the head using positron emitting 68Ga-EDTA and 77Kr. J. Compt. Assist. Tomog. 1, 43–56 (1977)
Bohm, C, Eriksson, L., Bergstrom, M.: A computed assisted ring detector positron camera system for reconstruction tomography of the brain: IEEE Nucl. Sci., NS-25, 624–637 (1978)
Lim, C.B., Chu, D., Kaufman, L. et al.: Initial characterization of a multi-wire proportional chamber positron camera. IEEE Nucl. Sci. NS-22, 388–394 (1975)
Brownell, G.L., Burnham, C.A.: in Tomographic Imaging in Nuclear Medicine, Friedman, G.S. (ed) 154–164, SNM (1973)
Bowley, A.R., Taylor, C.G., Causer, D.A. et al.: A radioisotope scanner for rectilinear, arc, transverse section and longitudinal section scanning (ASS: The Aberdeen Section Scanner) Br. J. Rad., 46, 262–271 (1973)
Keyes, J.W., Orlendea, N., Keetderks, W.J., Leonard, P.F. and Rogers, W.L.: The Humongotron — A scintillation camera transaxial tomograph. J. Nucl. Med., 18, 381–387 (1977)
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1980 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Soussaline, F. (1980). Emission Tomography: Physical Aspects. In: Caillé, JM., Salamon, G. (eds) Computerized Tomography. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-67513-3_30
Download citation
DOI: https://doi.org/10.1007/978-3-642-67513-3_30
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-09808-9
Online ISBN: 978-3-642-67513-3
eBook Packages: Springer Book Archive