Abstract
The platinum-iodohistamine complex with in vitro cytostatic activity toward colon and mammary cancer cells has been synthesised recently in our laboratory. The pharmacokinetics of radioactive complex analogues, labelled with I-131 and I-125, has been examined in murine model of spontaneous mammary adenocarcinoma. The present work is devoted to the examination of the potential use of liposomes as a carrier system for the radioactive platinum-[*I]iodohistamine complex in vivo. Encapsulations of the Pt-{sup 125I}]iodohistamine were studied using a different molar ratio of the complex and liposomes with positive surface charge, as well as various incubation procedures. Biodistribution of the initial and the liposomal form of the complex were studied in C3H tumour-bearing mice with spontaneously developed and transplantable (16C) mammary adenocarcinoma. Comparative biodistribution studies in C3H/16C mice and in mice with spontaneously developed mammary tumour have shown that in the former model pharmacokinetics of the Pt-[{sup 125} I]iodohistamine complex is more predictable and more similar to that observed for cisplatin. Therefore, the transplantable tumour model is more advantageous for the complex and its liposomal form evaluation. In C3H/16C mice, significant differences in the biodistribution between the radioactive platinum complex and its liposomal form were observed. The concentration of the activity in blood
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Garnuszek, P;
Licinska, I
[1]
- Department of Radiopharmaceuticals, The National Institute of Public Heath, Warsaw (Poland)
Citation Formats
Garnuszek, P, and Licinska, I.
Preliminary radiochemical and biological studies on the liposome encapsulated platinum-[{sup 125I}]iodohistamine complex.
Poland: N. p.,
2002.
Web.
Garnuszek, P, & Licinska, I.
Preliminary radiochemical and biological studies on the liposome encapsulated platinum-[{sup 125I}]iodohistamine complex.
Poland.
Garnuszek, P, and Licinska, I.
2002.
"Preliminary radiochemical and biological studies on the liposome encapsulated platinum-[{sup 125I}]iodohistamine complex."
Poland.
@misc{etde_20617194,
title = {Preliminary radiochemical and biological studies on the liposome encapsulated platinum-[{sup 125I}]iodohistamine complex}
author = {Garnuszek, P, and Licinska, I}
abstractNote = {The platinum-iodohistamine complex with in vitro cytostatic activity toward colon and mammary cancer cells has been synthesised recently in our laboratory. The pharmacokinetics of radioactive complex analogues, labelled with I-131 and I-125, has been examined in murine model of spontaneous mammary adenocarcinoma. The present work is devoted to the examination of the potential use of liposomes as a carrier system for the radioactive platinum-[*I]iodohistamine complex in vivo. Encapsulations of the Pt-{sup 125I}]iodohistamine were studied using a different molar ratio of the complex and liposomes with positive surface charge, as well as various incubation procedures. Biodistribution of the initial and the liposomal form of the complex were studied in C3H tumour-bearing mice with spontaneously developed and transplantable (16C) mammary adenocarcinoma. Comparative biodistribution studies in C3H/16C mice and in mice with spontaneously developed mammary tumour have shown that in the former model pharmacokinetics of the Pt-[{sup 125} I]iodohistamine complex is more predictable and more similar to that observed for cisplatin. Therefore, the transplantable tumour model is more advantageous for the complex and its liposomal form evaluation. In C3H/16C mice, significant differences in the biodistribution between the radioactive platinum complex and its liposomal form were observed. The concentration of the activity in blood after 2 h p.i.v. was two times lower for the encapsulated complex, and the uptake of the radioactivity by liver, spleen, and lungs was twice as high as that obtained for the free Pt-[{sup 125I}]iodohistamine preparation. The radioactivity in tumour was almost constant for liposomal platinum complex (ca. 2% ID/g), although it was two times lower compared to the initial platinum complex. The results of the present study indicate that platinum-[*I]iodohistamine can be efficiently incorporated into cationic liposomes (c. 40%). However, the uptake of the encapsulated complex by the liver and spleen macrophages demands further modification of the lipid membrane. (author)}
journal = []
issue = {2}
volume = {5}
journal type = {AC}
place = {Poland}
year = {2002}
month = {Jul}
}
title = {Preliminary radiochemical and biological studies on the liposome encapsulated platinum-[{sup 125I}]iodohistamine complex}
author = {Garnuszek, P, and Licinska, I}
abstractNote = {The platinum-iodohistamine complex with in vitro cytostatic activity toward colon and mammary cancer cells has been synthesised recently in our laboratory. The pharmacokinetics of radioactive complex analogues, labelled with I-131 and I-125, has been examined in murine model of spontaneous mammary adenocarcinoma. The present work is devoted to the examination of the potential use of liposomes as a carrier system for the radioactive platinum-[*I]iodohistamine complex in vivo. Encapsulations of the Pt-{sup 125I}]iodohistamine were studied using a different molar ratio of the complex and liposomes with positive surface charge, as well as various incubation procedures. Biodistribution of the initial and the liposomal form of the complex were studied in C3H tumour-bearing mice with spontaneously developed and transplantable (16C) mammary adenocarcinoma. Comparative biodistribution studies in C3H/16C mice and in mice with spontaneously developed mammary tumour have shown that in the former model pharmacokinetics of the Pt-[{sup 125} I]iodohistamine complex is more predictable and more similar to that observed for cisplatin. Therefore, the transplantable tumour model is more advantageous for the complex and its liposomal form evaluation. In C3H/16C mice, significant differences in the biodistribution between the radioactive platinum complex and its liposomal form were observed. The concentration of the activity in blood after 2 h p.i.v. was two times lower for the encapsulated complex, and the uptake of the radioactivity by liver, spleen, and lungs was twice as high as that obtained for the free Pt-[{sup 125I}]iodohistamine preparation. The radioactivity in tumour was almost constant for liposomal platinum complex (ca. 2% ID/g), although it was two times lower compared to the initial platinum complex. The results of the present study indicate that platinum-[*I]iodohistamine can be efficiently incorporated into cationic liposomes (c. 40%). However, the uptake of the encapsulated complex by the liver and spleen macrophages demands further modification of the lipid membrane. (author)}
journal = []
issue = {2}
volume = {5}
journal type = {AC}
place = {Poland}
year = {2002}
month = {Jul}
}