The presence of labile iron fractions in intravenous iron supplements compromises their safety. Poly(ethylene glycol) (PEG)-assisted silica xerogel was evaluated as a potential drug carrier for iron sucrose with the purpose of limiting labile iron available for in vitro uptake by transferrin. The drug entrapped xerogels were synthesized by the sol-gel process with varying amounts of PEG. In vitro release studies were conducted in simulated body fluid (SBF) at 37 +/- 0.02 A degrees C (pH 7.4). The results indicated that the cumulative release percentage increased with the increase in the amount of PEG in the matrix. The biphasic release profile followed first-order kinetics for the first 6 h and Higuchi model for the remaining time (up to 168 h). The sample showing highest percentage of cumulative release (the xerogel with 16 % PEG) was used for in vitro transferrin saturation studies in contrast with the plain drug. The xerogel formulation exhibited 7.25 A +/- 0.4 % transferrin saturation in 180 min as compared to 12.89 A +/- 0.2 % for the raw drug. These results indicate that encapsulation of iron sucrose in PEG-assisted silica xerogel and subsequent sustained release from the matrix can improve the safety of the drug when presence of labile iron is a major concern.