Fa. Raila et al., Sequential imaging and volumetric analysis of an intracerebral C6 glioma by means of a clinical MRI system, J NEURO-ONC, 43(1), 1999, pp. 11-17
In this study, using high resolution coils; implanted growing rat brain tum
ors were imaged sequentially with 3-D measurements generated by means of a
clinical magnetic resonance imaging system (CMRI) and commercially availabl
e wrist coil. Ten female Sprague-Dawley rats were used, eight were implante
d with C6 rat glioma cells and two served as controls. The images that were
used for the three-dimensional (3-D) measurements were obtained from T1 we
ighted post contrast sequences. A commercially available computer work stat
ion with 3-D image analysis software was used to generate the tumor volumes
. In addition to the rat studies a mouse was included to see if the resolut
ion would be adequate for imaging very small brains. Six rats had brain tum
or growth after transplantation and two rats did not have any tumor growth,
however, their images were similar to the controls animals. Tumor volumes
varied widely among the implanted rats. The number of implanted tumor cells
had no direct relationship to developing tumor volumes. This study demonst
rates that high resolution images of a rat brain tumor can be obtained from
a CMRI system using a commercially available wrist coil which is capable o
f imaging two rats at the same time or even a mouse brain. A commercially a
vailable computer work station was able to generate the tumor volumes. The
ability to image brain tumor and generate volume measurements over time has
potential for animal research.