Hydroxyapatite Chemisorption of N,N′,N′-Trimethylenephosphonate-Poly(ethyleneimine) (PEI-MP) Combined with Sn2+ or Sn4+

To study the mechanism by which proposed bone-seeking radiopharmaceuticals consisting of tin (as Sn-117m) and N,N',N'-trimethylenephosphonate-poly(ethyleneimine) (PEI-MP) are taken up and accumulated in bone tissue, the adsorption of Sn2+, Sn4+ and phosphonate polymer PEI-NIP on hydroxyapatite was measured in vitro. Hydroxyapatite is the main mineral phase of bone; therefore, by determining the affinity of the metal ions and the ligand-and hence their complexes-for hydroxyapatite, the extent to which the radiopharmaceutical will be adsorbed can be predicted. The adsorption of the tin-phosphonate complexes and the two individual components to the solid phase was measured by inductively coupled plasma optical emission spectroscopy at physiological pH, at room temperature, and for a period of 48 h. The tin complexes and free ligand exhibited unique binding affinities. By varying the oxidation state of the metal ion (Sn2+, and Sn4+) and the size of the polyphosphonate ligand (using 10-30 and 30-50 kDa fractions), the adsorption characteristics of the individual components could be adapted. The tin-PEI-MP combination that showed the most favorable adsorption behavior was that of Sn2+ and PEI-MP(10-30 kDa), which had a maximum adsorption capacity of 2.21 +/- 0.14 mu mol m(-2) and an affinity of 9.8 +/- 4.0 dm(3) mmol(-1) with respect to the ligand and 2.30 +/- 0.07 mu mol m(-2) and 26.6 +/- 6.1 dm(3) mmol(-1) for the metal ion-as derived from the Langmuir adsorption model. The ligand showed enhanced adsorption when complexed with tin. This research provided a preliminary indication that the tin-PEI-MP combination could be favorable to other bone-seeking radiopharmaceuticals since the maximum adsorption capacities are comparable while PEI-MP offers the opportunity of using the enhanced permeability and retention effect for enhanced tumor accumulation.