PURPOSE: The aim of the study was to prepare stealth and remote loading proliposome (SRP-L) to carry doxorubicin (DXR) and evaluate the pharmacokinetics, acute toxicity, and anticancer effect of DXR carried with SRP-L. METHODS: SRP-L was transparent solution. When SRP-L was injected into 0.9%, NaCl aqueous solution containing DXR. liposomes formed and automatically loaded DXR (SRP-L-DXR). The long circulation of SRP-L-DXR was evaluated using the pharmacokinetics of SRP-L-DXR. cardiolipin liposomal DXR (CL-DXR) and free DXR (F-DXR). The acute toxicity and anticancer effect of SRP-L-DXR were evaluated in C57BL/6 mice and murine hystocytoma M5076 tumor model. RESULTS: The average diameter of SRP-L-DXR in pure water was 112.9 +/- 8.6 (nm) and the encapsulation efficiency of SRP-L-DXR was 96.5 +/- 0.2% in pure water, 95.5 +/- 0.1% in 5% glucose and 98.01 +/- 0.6% in 0.9% NaCl. The plasma concentration of SRP-L-DXR was much higher than those of F-DXR and CL-DXR. Compared with that of F-DXR, the SRP-L-DXR had lower acute toxicity and its anticancer effects depended upon the therapeutic treatment. CONCLUSIONS: A novel proliposome (SRP-L) was developed, which could automatically load DXR and form SRP-L-DXR with excellent characteristics. SRP-L-DXR had lower acute toxicity but was not always more effective for the treatment of the ascitic M5076 than F-DXR.
PURPOSE: The aim of the study was to prepare stealth and remote loading proliposome (SRP-L) to carry doxorubicin (DXR) and evaluate the pharmacokinetics, acute toxicity, and anticancer effect of DXR carried with SRP-L. METHODS: SRP-L was transparent solution. When SRP-L was injected into 0.9%, NaCl aqueous solution containing DXR. liposomes formed and automatically loaded DXR (SRP-L-DXR). The long circulation of SRP-L-DXR was evaluated using the pharmacokinetics of SRP-L-DXR. cardiolipin liposomal DXR (CL-DXR) and free DXR (F-DXR). The acute toxicity and anticancer effect of SRP-L-DXR were evaluated in C57BL/6 mice and murinehystocytoma M5076 tumor model. RESULTS: The average diameter of SRP-L-DXR in pure water was 112.9 +/- 8.6 (nm) and the encapsulation efficiency of SRP-L-DXR was 96.5 +/- 0.2% in pure water, 95.5 +/- 0.1% in 5% glucose and 98.01 +/- 0.6% in 0.9% NaCl. The plasma concentration of SRP-L-DXR was much higher than those of F-DXR and CL-DXR. Compared with that of F-DXR, the SRP-L-DXR had lower acute toxicity and its anticancer effects depended upon the therapeutic treatment. CONCLUSIONS: A novel proliposome (SRP-L) was developed, which could automatically load DXR and form SRP-L-DXR with excellent characteristics. SRP-L-DXR had lower acute toxicity but was not always more effective for the treatment of the ascitic M5076 than F-DXR.
Authors: G Delgado; R K Potkul; J A Treat; G S Lewandowski; J F Barter; D Forst; A Rahman Journal: Am J Obstet Gynecol Date: 1989-04 Impact factor: 8.661
Authors: P C Gokhale; B Radhakrishnan; S R Husain; D R Abernethy; R Sacher; A Dritschilo; A Rahman Journal: Br J Cancer Date: 1996-07 Impact factor: 7.640