P. Oswald et al., LIVER POSITIVE ENHANCEMENT AFTER INJECTION OF SUPERPARAMAGNETIC NANOPARTICLES - RESPECTIVE ROLE OF CIRCULATING AND UPTAKEN PARTICLES, Magnetic resonance imaging, 15(9), 1997, pp. 1025-1031
Superparamagnetic nanoparticles have both high r(1) and r(2) relaxivit
ies responsible for positive or negative enhancement properties, The a
im of this study was to investigate to what extent perfusion (circulat
ing particles) and uptake (clustered particles) mechanisms contribute
to liver positive or negative enhancement using two different particle
s, superparamagnetic iron oxides (ferumoxides, AMI 25) and ultrasmall
superparamagnetic iron oxides (ferumoxtran, AMI-227), Uptake kinetics
were studied after intravenous injection of 20 mu mol Fe/kg ferumoxtra
n on a washout liver model. Livers of 82 rats were surgically isolated
and washed with saline infusion, Imaging was performed ex vivo at 0.5
T with T-1- and T-2-weighted sequences. Enhancement kinetics of the li
ver were studied in vivo using MRI up to 180 min post injection of 20
mu mol Fe/kg ferumoxtran (time response study) or 10, 20, 40 mu mol Fe
/kg ferumoxtran and 20 mu mol Fe/kg ferumoxides (dose response study.)
Particle uptake occurred early and resulted in a negative enhancement
of the washed livers 15 min after injection of both T-1 and T-2 seque
nces. In vivo, a positive enhancement was only seen during the first f
ive min with the lowest dose of ultrasmall superparamagnetic iron oxid
es and the T-1 sequence, Uptake and clustering of the particles induce
d a negative liver enhancement, During the first minutes after injecti
on, when uptake has not significantly occurred, perfusion imaging of t
he liver at a dose of 10 mu mol Fe/kg results in a positive enhancemen
t with T-1-weighted sequences. (C) 1997 Elsevier Science Inc.