, 2008, Hagens sell

, 2008, Hagens Proteases inhibitor et al., 2007 and Huang et al., 2008). Such distribution is followed by rapid clearance from the systemic circulation, predominantly by action of the liver and spleenic macrophages ( Moghimi et al., 2005). Clearance and opsonization of nanoparticles depends on size and surface characteristics ( Curtis et al., 2006 and Moghimi et al., 2005). Differential opsonization translates into variations in clearance rates and macrophage sequestration of nanoparticles ( Moghimi et al., 2005). To increase the passive retention of nanomaterials in systemic circulation, the suppression of opsonization

events is necessary at desired sites or anatomical compartments. For example in case of

hydrophobic particles, a coating with poly(ethylene) glycol (PEG), would increase their hydrophilicity, hence increasing the systemic circulation time ( Garnett and Kallinteri, 2006). In another study with PEGylated (Polyethylene glycol coated) gold nanoparticles Myllynen et al. (2008) observed that 10–30 nm sized particles did not see more cross the perfused human placenta and were not detected in fetal circulation. A study by Takenaka et al. (2001) carried out in rats revealed that inhaled ultrafine silver nanoparticles were distributed in liver, lungs and brain. The authors have shown considerable amount of silver could be detected in rat brain following inhalation of silver nanoparticles. Dapagliflozin Few other studies with Inhaled nanoparticles demonstrate distribution of particles to the lungs, liver, heart, kidney, spleen and brain (BeruBe et al., 2007, Hagens et al., 2007, Medina et al., 2007 and Oberdorster

et al., 2002) and clearance via phagocytosis in the alveolar region by macrophages ( Curtis et al., 2006, Garnett and Kallinteri, 2006 and Oberdorster et al., 2005b). In addition, at least one clinical report has associated impaired liver function to silver nanoparticles released from a wound dressing ( Trop et al., 2006). Jong et al. (2008) demonstrated size dependent tissue distribution of gold nanoparticles with the smallest (10 nm) nanoparticles showing the most widespread distribution (blood, liver, spleen, kidney, testis, thymus, heart, lung and brain) whereas the larger particles (50, 100 and 250 nm) were detected only in blood, liver and spleen. In another study on biodistribution of gold nanoparticles, Niidome et al. (2006), detected most of gold stabilized with hexadecyltrimethylammonium bromide (CTAB) in the liver whereas 54% of PEG-modified gold nanoparticles were found in blood at 0.5 h after intravenous injection. Owing to characteristic internalization and systemic distribution of inorganic and polymeric nanoparticles, there is a growing interest in exploring their uses for imaging, systemic delivery of drugs, target specific killing of cancerous cells etc.

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