PURPOSE: We are exploring liposomal delivery with the aim to change the pharmacokinetics and biodistribution of SOD to increase its therapeutic activity. From a practical point of view, a convenient route of administration would be the subcutaneous (s.c.) route. Liposomal size has been shown to be the most important factor influencing the rate and extent of drainage of liposomes from the s.c. injection site. METHODS: To monitor the in vivo fate of the subcutaneous administered SOD-containing liposomes in rats with a chronic arthritis inflammation, the liposomes were labeled by the co-encapsulation of the 111In-DTPA complex in the internal water space. RESULTS: Over the initial 10h-observation period post-injection, the small-sized poly(ethyleneglycol)-liposomes (mean size about 110 nm) left the site of injection to a 2-fold higher extent (45% of the injected dose) as compared to large-sized poly(ethyleneglycol)-liposomes (mean size about 450 nm). Small-sized liposomes gave a 17-fold higher uptake in the inflamed foot than the large-sized liposomes. Comparing the localization in the inflamed foot with the non-inflamed foot, uptake was more than 15-fold higher for the small-sized liposomes as compared to the large-sized liposomes. After s.c. administration, small-sized SOD-liposomes showed substantial higher activity than large-sized SOD-liposomes. S.C. administration of small-sized SOD-liposomes is equally effective as i.v. administration of the same liposomes. I.V. administration of the large-sized SOD-liposomes yielded a significantly higher activity as compared to s.c. administration. CONCLUSIONS: These results indicate that small-sized poly(ethyleneglycol)-liposomes can be used for the targeting of SOD to arthritic sites after subcutaneous administration.
PURPOSE: We are exploring liposomal delivery with the aim to change the pharmacokinetics and biodistribution of SOD to increase its therapeutic activity. From a practical point of view, a convenient route of administration would be the subcutaneous (s.c.) route. Liposomal size has been shown to be the most important factor influencing the rate and extent of drainage of liposomes from the s.c. injection site. METHODS: To monitor the in vivo fate of the subcutaneous administered SOD-containing liposomes in rats with a chronic arthritis inflammation, the liposomes were labeled by the co-encapsulation of the 111In-DTPA complex in the internal water space. RESULTS: Over the initial 10h-observation period post-injection, the small-sized poly(ethyleneglycol)-liposomes (mean size about 110 nm) left the site of injection to a 2-fold higher extent (45% of the injected dose) as compared to large-sized poly(ethyleneglycol)-liposomes (mean size about 450 nm). Small-sized liposomes gave a 17-fold higher uptake in the inflamed foot than the large-sized liposomes. Comparing the localization in the inflamed foot with the non-inflamed foot, uptake was more than 15-fold higher for the small-sized liposomes as compared to the large-sized liposomes. After s.c. administration, small-sized SOD-liposomes showed substantial higher activity than large-sized SOD-liposomes. S.C. administration of small-sized SOD-liposomes is equally effective as i.v. administration of the same liposomes. I.V. administration of the large-sized SOD-liposomes yielded a significantly higher activity as compared to s.c. administration. CONCLUSIONS: These results indicate that small-sized poly(ethyleneglycol)-liposomes can be used for the targeting of SOD to arthritic sites after subcutaneous administration.
Authors: M Luísa Corvo; H Susana Marinho; Paulo Marcelino; Rui M Lopes; Carlos A Vale; Claúdia R Marques; Luísa C D Martins; Peter Laverman; Gert Storm; M Bárbara A F Martins Journal: Pharm Res Date: 2014-07-19 Impact factor: 4.200