Caixia Cheng1, Volker Alt2, Leyun Pan3, Ulrich Thormann2, Reinhard Schnettler2, Ludwig G Strauss3, Matthias Schumacher4, Michael Gelinsky4, Antonia Dimitrakopoulou-Strauss3. 1. Clinical Cooperation Unit Nuclear Medicine, German Cancer Research Center, Heidelberg, Germany. Electronic address: c.cheng@dkfz.de. 2. Department of Trauma Surgery, University Hospital Giessen-Marburg GmbH, Giessen, Germany. 3. Clinical Cooperation Unit Nuclear Medicine, German Cancer Research Center, Heidelberg, Germany. 4. Technische Universität Dresden, Centre for Translational Bone, Joint and Soft Tissue Research, Medical Faculty and University Hospital Carl Gustav Carus, Dresden, Germany.
Abstract
UNLABELLED: The aim of the current study was to measure and compare the effect of calcium phosphate cement (CPC) and CPC enriched with strontium (SrCPC) for the healing of osteoporotic bone defects in the rat femur using (18)F-Sodium Fluoride dPET-CT. METHODS: Osteoporosis was induced by ovariectomy and a calcium restricted diet. After three months, rats were operated to create a 4 mm defect in the distal metaphyseal femur with internal fixation. 7 Rats have been treated either with CPC (Group 2) or with SrCPC (Group 3) for bone replacement and defect healing. Furthermore, a control group of 7 rats without any biomaterial (Group 1) was used for reference. 18 weeks after osteoporosis induction and 6 weeks following femoral surgery, dPET-CT studies scan were performed with (18)F-Sodium Fluoride. SUVs and a 2-tissue compartmental learning-machine model (K1-k4, VB, influx) were used for quantitative analysis. RESULTS: VB, reflecting the fractional blood volume and k3, reflecting the formation of fluoroapatite were the most sensitive parameters for the characterisation of healing process and revealed the best differentiation for the control group and the CPC group (Group 2) as well as for the CPC with strontium carbonate group (Group 3) (p<0.05). VB was decreased by the order of Group 1, Group 2 and Group 3, while k3 was increased by the same order. Therefore, the data direct to a decreased fractional blood volume and increased fixation of fluoride in rats with these biomaterials. CONCLUSION: We found PET scanning using (18)F-Sodium Fluoride to be a sensitive and useful method for evaluation of bone healing after replacement with CPC or SrCPC.
UNLABELLED: The aim of the current study was to measure and compare the effect of calcium phosphate cement (CPC) and CPC enriched with strontium (SrCPC) for the healing of osteoporotic bone defects in the rat femur using (18)F-Sodium FluoridedPET-CT. METHODS:Osteoporosis was induced by ovariectomy and a calcium restricted diet. After three months, rats were operated to create a 4 mm defect in the distal metaphyseal femur with internal fixation. 7 Rats have been treated either with CPC (Group 2) or with SrCPC (Group 3) for bone replacement and defect healing. Furthermore, a control group of 7 rats without any biomaterial (Group 1) was used for reference. 18 weeks after osteoporosis induction and 6 weeks following femoral surgery, dPET-CT studies scan were performed with (18)F-Sodium Fluoride. SUVs and a 2-tissue compartmental learning-machine model (K1-k4, VB, influx) were used for quantitative analysis. RESULTS: VB, reflecting the fractional blood volume and k3, reflecting the formation of fluoroapatite were the most sensitive parameters for the characterisation of healing process and revealed the best differentiation for the control group and the CPC group (Group 2) as well as for the CPC with strontium carbonate group (Group 3) (p<0.05). VB was decreased by the order of Group 1, Group 2 and Group 3, while k3 was increased by the same order. Therefore, the data direct to a decreased fractional blood volume and increased fixation of fluoride in rats with these biomaterials. CONCLUSION: We found PET scanning using (18)F-Sodium Fluoride to be a sensitive and useful method for evaluation of bone healing after replacement with CPC or SrCPC.
Authors: Magnus Bernhardsson; Olof Sandberg; Marcus Ressner; Jacek Koziorowski; Jonas Malmquist; Per Aspenberg Journal: Acta Orthop Date: 2017-09-15 Impact factor: 3.717
Authors: V Nardone; R Zonefrati; C Mavilia; C Romagnoli; S Ciuffi; S Fabbri; G Palmini; G Galli; A Tanini; M L Brandi Journal: Stem Cells Int Date: 2015-07-09 Impact factor: 5.443