1997
DOI: 10.1016/s0378-5173(97)00184-1
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Effects of positive charge density on the liposomal surface on disposition kinetics of liposomes in rats

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Cited by 31 publications
(25 citation statements)
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“…Some investigators have shown that the in vivo behavior of cationic liposomes is mainly decided by their zeta potential or the amount of cationic lipid contained in the formulation. Aoki et al (1997) showed that when the cationic liposomes containd only 5 mol% of charge lipid with small zeta potential, the behavior of the cationic liposomes would not be different from that of neutral liposomes (Zalipsky et al 1994). Liposomes containing 10 mol% cationic lipid or bearing a zeta potential of ∼ +15 mV would remain in blood longer and accumulated less in liver (Aoki et al 1997;Abraham, Goundalkar, and Mezei 1984).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Some investigators have shown that the in vivo behavior of cationic liposomes is mainly decided by their zeta potential or the amount of cationic lipid contained in the formulation. Aoki et al (1997) showed that when the cationic liposomes containd only 5 mol% of charge lipid with small zeta potential, the behavior of the cationic liposomes would not be different from that of neutral liposomes (Zalipsky et al 1994). Liposomes containing 10 mol% cationic lipid or bearing a zeta potential of ∼ +15 mV would remain in blood longer and accumulated less in liver (Aoki et al 1997;Abraham, Goundalkar, and Mezei 1984).…”
Section: Discussionmentioning
confidence: 99%
“…Aoki et al (1997) showed that when the cationic liposomes containd only 5 mol% of charge lipid with small zeta potential, the behavior of the cationic liposomes would not be different from that of neutral liposomes (Zalipsky et al 1994). Liposomes containing 10 mol% cationic lipid or bearing a zeta potential of ∼ +15 mV would remain in blood longer and accumulated less in liver (Aoki et al 1997;Abraham, Goundalkar, and Mezei 1984). Cationic liposomes containing ∼50% of charged lipid were reported to accumulate in the liver rapidly after intravenous injection, and the corresponding zeta potential may be 25 mV or above (Litzinger et al 1996).…”
Section: Discussionmentioning
confidence: 99%
“…Based on the pH gradient method previously described [27], octadecylamine and heparin sodium were added to optimize the preparation of lip-bFGF. Octadecylamine was added to improve the stability of liposomes [28]. The binding of bFGF and heparin is believed to favor the stabilization of bFGF through the formation of complexes resistant to inactivation by extreme conditions, such as high temperature, acidic conditions, and proteolysis [29].…”
Section: Methodsmentioning
confidence: 99%
“…Adsorption of liver specific opsonins probably enhances the uptake of Ps by liver macrophages, Kupffer cells and this process may play a major role in the hepatic uptake of the vesicles [216]. Interactions with the opsonins can be reduced by introduction of a slightly negative or positive charge on the surface of Ps, yielding prolonged blood circulation times [218,219]. However, it has been reported that either high negative or positive charge lead to more rapid clearance of carriers due to enhanced hepatic uptake [203,219,220].…”
Section: Circulation Kinetics and Biodistribution Of Polymersomesmentioning
confidence: 99%
“…Interactions with the opsonins can be reduced by introduction of a slightly negative or positive charge on the surface of Ps, yielding prolonged blood circulation times [218,219]. However, it has been reported that either high negative or positive charge lead to more rapid clearance of carriers due to enhanced hepatic uptake [203,219,220]. Likewise, a range of optimal sizes for specific nanocarriers has been suggested to establish long circulation times (e.g.…”
Section: Circulation Kinetics and Biodistribution Of Polymersomesmentioning
confidence: 99%