PUBLICATIONS
  1. Buccal dehiscence and sinus lift cases - Predictable bone augmentation with synthetic bone material. Gehrke SA, Famā GM - implants 2010; issue 1;28-31. pdf
  2. Resorption mechanism of an injectable calcium phosphate bone regeneration cement – Radiographic and histological monitoring. Gehrke SA - implants 2009; issue 3;32-37. pdf
  3. Use of a bone regeneration cement for bone grafting in atrophic areas - Clinical, radiographic and histological analysis. Gehrke SA, König Jr B, Beck Martins NM. - implants 2009; issue 1;24-30. pdf         Deutsche Fassung erschienen im Implantologie Journal pdf
  4. Use of a bone regeneration cement for the management of gingival margin in tooth extraction areas. Gehrke SA. - implants 2008; issue 3;22-26. pdf
  5. Use of a calcium phosphate bone cement in sinus floor augmentation, in combination with a cortico-cancellous graft. Presentation of the technique and illustration with a clinical case. Torres JH, Cuisinier F. - Implantologie, nov. 2007;87-94. pdf
  6. In vitro studies on the influence of precultural conditioning method on osteoblast reactions of a new type of injectable calcium cement material. Chai F, Blanchemain N, Lefèvre A, Hildebrand HF. - J Biomed Mater Res. B. 2006;77B(1):104-13.
  7. Immediate implant placement using injectable calcium phosphate hydraulic cement in dogs. Cuisinier FJG, Schaaf JF, Van Landuyt P, Roth H, Lemaître J, Tenenbaum H. - J Appl Biomat & Biomech 2004;2:88-95.
  8. Injectable calcium phosphate hydraulic cement (CPHC) used for periodontal tissue regeneration: a study on a dog model. Cuisinier FJG, Wieber A, Tenenbaum H, Van Landuyt P, Lemaître J. - J Appl Biomat & Biomech 2003;1:186-193.
  9. Influence of polymeric additives on the biological properties of brushite cements: an experimental study in rabbit. Flautre B, Lemaître J, Maynou C, Van Landuyt P, Hardouin P. - J Biomed Mater Res A. 2003 Aug 1;66(2):214-23.
  10. The biodegradation mechanism of calcium phosphate biomaterials in bone. Lu J, Descamps m, Dejou J, Koubi G, Hardouin P, Lemaître J, Proust JP. - J Biomed Mater Res. 2002;63(4):408-12.
  11. Histological and biomechanical srudies of two bone colonizable cements in rabbits. Lu XJ, About I, Stephan G, Van Landuyt P, Dejou J, Fiocchi M, Lemaître J, Proust JP. - Bone 1999;2S:41S-45S.
  12. Volume effect on biological properties of a calcium phosphate hydraulic cement: experimental study in sheep. Flautre B, Delecourt C, Blary MC, Van Landuyt P, Lemaître J, Hardouin P. - Bone 1999;2S:35S-39S.
  13. Biomechanical characterization of a biodegradable calcium phosphate hydraulic cement: a comparison with porous biphasic calcium phosphate ceramics. Ikenaga M, Hardouin P, Lemaître J, Andrianjatovo H, Flautre B. - J Biomed Mater Res 1998;40:139-144.
  14. Resorption of, and bone formation from, new β-tricalcium phosphate-monocalcium phosphate cements: an in vivo study. Ohura K, Bohner M, Hardouin P, Lemaître J, Pasquier G, Flautre B. - J Biomed Mater Res 1996;30:193-200.
  15. Bone repair of defects filled with a phosphocalcic hydraulic cement: an in vivo study. Munting E, Mirtchi AA, Lemaître J. - J Mater Sci Mater Med 1993;4:337-344.
 
 
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