Improved stem cell MR detectability in animal models by modification of the inhalation gas.
Himmelreich U, Weber R, Ramos-Cabrer P, Wegener S, Kandal K, Shapiro EM, Koretsky AP, Hoehn M.
Max-Planck-Institute for Neurological Research, Cologne, Germany.
In vivo monitoring of cells labeled with paramagnetic iron oxide particles by magnetic
resonance imaging (MRI) is complicated by intrinsic contrast of blood vessels.
Distinction between T2* effects caused by blood vessels from those caused by labeled
cells was so far only possible after carefully following the location of hypointense
regions through subsequent slices of T2*-weighted 3-D MRI datasets, a procedure that
is time consuming and not always reliable in the case of smaller blood vessels. Here,
we demonstrate that the modification of the inhalation gas mixture from the routinely
used composition 35% O2 and 65% N2O to a mixture containing
95% O2 and 5% CO2 results
in a contrast suppression of most small blood vessels and reduces the intrinsic T2*
effect of large vessels dramatically in an animal model. This change in protocol of
physiological conditions was well tolerated by all studied animals, even over prolonged
experimental times. The changed inhalation gas mixture thus provides a more reliable
identification method for small clusters of iron oxide labeled cells in vivo.
PMID: 16105508 [PubMed - indexed for MEDLINE]