Data acquisition using more than one energy window has been proposed p
rincipally for scatter correction in positron emission tomography (PET
). However, prior to scatter correction, such data must be corrected f
or various distortions including detector efficiency and spectral non-
uniformities. The aim of this work is to describe and validate a norma
lization technique that can minimize these undesirable effects. As wit
h conventional methods using broad windows, the technique reduces the
non-uniformity of data acquired in several narrow windows. while perfo
rming an additional task unique to multispectral acquisition, i.e. to
restore symmetry in data acquired by mirror window pairs of individual
detectors. Non-uniformity and asymmetry reductions have been achieved
by averaging each pair of detectors over all detectors and averaging
each mirror window pair, respectively. The method has been validated u
sing data with different degrees of spatial and spectral distortion, a
nd has been found to be capable of restoring the greatest spectral asy
mmetric acquisition possible with our animal PET system. Unlike the br
oad-window imaging, a match of spectral composition of photon fluence
between the calibration and measurements is not a requirement. In conc
lusion, multispectral data acquisition in PFT is possible with fairly
non-uniform detector response. The success of the technique, however,
depends on detectors with very stable characteristics.