Biomedical Engineering Reference
In-Depth Information
[43] Thompson, C. J., The problem of scatter correction in positron volume
imaging, IEEE Trans. Med. Imaging, Vol. 12, pp. 124-132, 1993.
[44] Bailey, D. L. and Meikle, S. R., A convolution-substraction scatter cor-
rection method for 3D PET, Phys. Med. Biol., Vol. 39, pp. 411-424,
1994.
[45] Levin, C. S., Dahlbom, M., and Hoffman, E. J., A Monte Carlo correction
for the effect of Compton scattering in 3D PET brain imaging, IEEE
Trans. Nucl. Sci., Vol. 42, pp. 1181-1185, 1995.
[46] Huang, S. C., Hoffman, E. J., Phelps, M. E., and Kuhl, D. E., Quantitation
in positron emission computed tomography: 2. Effects of inaccurate
attenuation correction, J. Comput. Assist. Tomogr., Vol. 3, pp. 804-814,
1979.
[47] Dahlbom, M. and Hoffman, E. J., Problems in signal-to-noise ratio for
attenuation correction in high-resolution PET, IEEE Trans. Nucl. Sci.,
Vol. 34, pp. 288-293, 1987.
[48] Hooper, P. K., Meikle, S. R., Eberl, S., and Fulham, M. J., Validation of
post injection transmission measurements for attenuation correction
in neurologic FDG PET studies, J. Nucl. Med., Vol. 37, pp. 128-136,
1996.
[49] Huang, S. C., Carson, R. E., Phelps, M. E., Hoffman, E. J., Schelbert,
H. R., and Kuhl, D. E., A boundary method for attenuation correction
in positron computed tomography, J. Nucl. Med., Vol. 22, pp. 627-637,
1981.
[50] Xu, E. Z., Mullani, N. A., Gould, K. L., and Anderson, W. L., A segmented
attenuation correction for PET, J. Nucl. Med., Vol. 32, pp. 161-165,
1991.
[51] Meikle, S. R., Dahlbom, M., and Cherry, S. R., Attenuation correction
using count-limited transmission data in positron emission tomogra-
phy, J. Nucl. Med., Vol. 34, pp. 143-144, 1993.
[52] Phelps, M. E., Hoffman, E. J., and Huang, S. C., Effect of positron range
on spatial resolution, J. Nucl. Med., Vol. 16, pp. 649-652, 1975.
