HEDTMP (N-(2-hydroxyethyl) ethlenediamine-1,1,2-tri(methylene phosphonic acid)) was labeled with 153Sm. The formation condition, stability, rabbit bone imaging and mouse bio-distribution of 153Sm -HEDTMP were investig...HEDTMP (N-(2-hydroxyethyl) ethlenediamine-1,1,2-tri(methylene phosphonic acid)) was labeled with 153Sm. The formation condition, stability, rabbit bone imaging and mouse bio-distribution of 153Sm -HEDTMP were investigated. The results showed that weak basic media and high ligand’s concentration were favorable to form 153Sm-HEDTMP, and neutral or weak basic media increase the stability of 153Sm-HEDTMP. And the higher the con- centration of HEDTMP was, the more stable the labeling complex was. Bio-distribution study indicated the uptake of 153Sm-HEDTMP in skeleton was high ((25.68±1.22)ID%/g bone at 3 h post injection and (16.56±1.01)ID%/g bone at 48 h post injection), while the non-target tissue uptake and retention were relatively low, so 153Sm-HEDTMP is a promising bone tumor therapeutic agent.展开更多
TTHMP (triethylenetetraaminehexamethylenephosphonic acid) was labeled with 153Sm. The labeling condition, stability, mole ratio of 153Sm to TTHMP, rabbit bone imaging and bio-distribution of 153Sm-TTHMP in mice were i...TTHMP (triethylenetetraaminehexamethylenephosphonic acid) was labeled with 153Sm. The labeling condition, stability, mole ratio of 153Sm to TTHMP, rabbit bone imaging and bio-distribution of 153Sm-TTHMP in mice were investigated. The results showed that weak basic media and high concentration ligands were favorable to form 153Sm-TTHMP; labeling compounds were stable at pH 7 in 7 days. The results also indicated that the chemical mole ratio of 153Sm-TTHMP is n(153Sm)﹕n(TTHMP) = 1﹕1 and skeleton uptake of 153Sm-TTHMP is high((13.96(3.51)%/g at 1h post injection and (13.54(2.98)%/g at 48h post injection), while the non-target tissue uptake is relatively low, so 153Sm-TTHMP is a promising bone tumor therapeutic agent.展开更多
文摘HEDTMP (N-(2-hydroxyethyl) ethlenediamine-1,1,2-tri(methylene phosphonic acid)) was labeled with 153Sm. The formation condition, stability, rabbit bone imaging and mouse bio-distribution of 153Sm -HEDTMP were investigated. The results showed that weak basic media and high ligand’s concentration were favorable to form 153Sm-HEDTMP, and neutral or weak basic media increase the stability of 153Sm-HEDTMP. And the higher the con- centration of HEDTMP was, the more stable the labeling complex was. Bio-distribution study indicated the uptake of 153Sm-HEDTMP in skeleton was high ((25.68±1.22)ID%/g bone at 3 h post injection and (16.56±1.01)ID%/g bone at 48 h post injection), while the non-target tissue uptake and retention were relatively low, so 153Sm-HEDTMP is a promising bone tumor therapeutic agent.
文摘TTHMP (triethylenetetraaminehexamethylenephosphonic acid) was labeled with 153Sm. The labeling condition, stability, mole ratio of 153Sm to TTHMP, rabbit bone imaging and bio-distribution of 153Sm-TTHMP in mice were investigated. The results showed that weak basic media and high concentration ligands were favorable to form 153Sm-TTHMP; labeling compounds were stable at pH 7 in 7 days. The results also indicated that the chemical mole ratio of 153Sm-TTHMP is n(153Sm)﹕n(TTHMP) = 1﹕1 and skeleton uptake of 153Sm-TTHMP is high((13.96(3.51)%/g at 1h post injection and (13.54(2.98)%/g at 48h post injection), while the non-target tissue uptake is relatively low, so 153Sm-TTHMP is a promising bone tumor therapeutic agent.
