PURPOSE: Although polyphosphonates (PPs) were introduced as bone imaging agents in nuclear medicine in the early 1970s, the mechanisms involved in their uptake still remain unclear. Suggested mechanisms range from mineral adsorption with disputed binding to the organic phase, over incorporation into the mineralisation process to a combination of both mechanisms. Thus, our investigations aimed to: (1) evaluate adsorption parameters of (99m)Tc-MDP, (153)Sm-EDTMP and (18)F-fluoride on mineralising osteoblast cultures, (2) correlate the radiotracer binding measured in the cell cultures with binding values from our previously presented mineral model and (3) compare binding with cell number. METHODS: Primary osteoblasts were obtained by sequential digestion of foetal mice calvariae. The cells were incubated with 0.3 mumol of radiolabelled PPs or 25 MBq (18)F-fluoride for 120 min. Gamma signals from labelled samples were detected with a Millennium Hawkeye SPECT camera or with a dedicated Advance full-ring PET scanner and the binding percentages were calculated. RESULTS: From days 8 to 15 of culture, the percent binding of all evaluated tracers increased significantly, whereas the protein concentration showed insignificant changes. Additional comparisons of the binding values with our recently published pre-vivo model revealed remarkable agreement, suggesting solely bone-forming minerals to be responsible for radiotracer binding. CONCLUSION: This study provides evidence that binding of the evaluated radiotracers is not associated with osteoblast numbers but only with the concentration of bone-forming minerals. The presented correlations substantiate our recently presented pre-vivo model for the evaluation of bone-seekers: mechanisms associated with the uptake of bone-seekers are irreversible and mineral-associated processes.
PURPOSE: Although polyphosphonates (PPs) were introduced as bone imaging agents in nuclear medicine in the early 1970s, the mechanisms involved in their uptake still remain unclear. Suggested mechanisms range from mineral adsorption with disputed binding to the organic phase, over incorporation into the mineralisation process to a combination of both mechanisms. Thus, our investigations aimed to: (1) evaluate adsorption parameters of (99m)Tc-MDP, (153)Sm-EDTMP and (18)F-fluoride on mineralising osteoblast cultures, (2) correlate the radiotracer binding measured in the cell cultures with binding values from our previously presented mineral model and (3) compare binding with cell number. METHODS: Primary osteoblasts were obtained by sequential digestion of foetal mice calvariae. The cells were incubated with 0.3 mumol of radiolabelled PPs or 25 MBq (18)F-fluoride for 120 min. Gamma signals from labelled samples were detected with a Millennium Hawkeye SPECT camera or with a dedicated Advance full-ring PET scanner and the binding percentages were calculated. RESULTS: From days 8 to 15 of culture, the percent binding of all evaluated tracers increased significantly, whereas the protein concentration showed insignificant changes. Additional comparisons of the binding values with our recently published pre-vivo model revealed remarkable agreement, suggesting solely bone-forming minerals to be responsible for radiotracer binding. CONCLUSION: This study provides evidence that binding of the evaluated radiotracers is not associated with osteoblast numbers but only with the concentration of bone-forming minerals. The presented correlations substantiate our recently presented pre-vivo model for the evaluation of bone-seekers: mechanisms associated with the uptake of bone-seekers are irreversible and mineral-associated processes.
Authors: Markus Mitterhauser; Stefan Toegel; Wolfgang Wadsak; Leonhard-Key Mien; Harald Eidherr; Kurt Kletter; Helmut Viernstein; Rainer Kluger; Alfred Engel; Robert Dudczak Journal: Bone Date: 2005-09 Impact factor: 4.398
Authors: Barbara J Fueger; Markus Mitterhauser; Wolfgang Wadsak; Sedat Ofluoglu; Tatjana Traub; Georgios Karanikas; Robert Dudczak; Christian Pirich Journal: Nucl Med Commun Date: 2004-04 Impact factor: 1.690
Authors: Markus Mitterhauser; Stefan Tögel; Wolfgang Wadsak; Leonhard-Key Mien; Harald Eidherr; Karoline Wiesner; Helmut Viernstein; Kurt Kletter; Robert Dudczak Journal: Bone Date: 2004-05 Impact factor: 4.398
Authors: A Kolk; T Schuster; A Chlebowski; P Lange; K Scheidhauer; M Kesting; O Bissinger; M Schwaiger; J Dinges; J Weitz Journal: Eur J Nucl Med Mol Imaging Date: 2014-02-27 Impact factor: 9.236
Authors: Denys John Loeffelbein; Eckhart Mielke; Andreas Konrad Buck; Marco Rainer Kesting; Frank Hölzle; Thomas Mücke; Steffen Müller; Klaus-Dietrich Wolff Journal: Mol Imaging Biol Date: 2009-05-09 Impact factor: 3.488