Immunohistochemical characteristics of regenerated bone after surgical therapy of advanced ligature-induced peri-implantitis defects

[1]  F. Schwarz,et al.  Animal models for peri-implant mucositis and peri-implantitis. , 2015, Periodontology 2000.

[2]  F. Schwarz,et al.  Surgical therapy of advanced ligature-induced peri-implantitis defects: cone-beam computed tomographic and histological analysis. , 2011, Journal of clinical periodontology.

[3]  F. Schwarz,et al.  Impact of the method of surface debridement and decontamination on the clinical outcome following combined surgical therapy of peri-implantitis: a randomized controlled clinical study. , 2011, Journal of clinical periodontology.

[4]  F. Schwarz,et al.  Guided bone regeneration using rhGDF-5- and rhBMP-2-coated natural bone mineral in rat calvarial defects. , 2009, Clinical oral implants research.

[5]  I. Polyzois,et al.  Re-osseointegration on previously contaminated surfaces: a systematic review. , 2009, Clinical oral implants research.

[6]  F. Schwarz,et al.  Lateral ridge augmentation using particulated or block bone substitutes biocoated with rhGDF-5 and rhBMP-2: an immunohistochemical study in dogs. , 2008, Clinical oral implants research.

[7]  M. Dard,et al.  Histological and immunohistochemical analysis of initial and early osseous integration at chemically modified and conventional SLA titanium implants: preliminary results of a pilot study in dogs. , 2007, Clinical oral implants research.

[8]  H. Bergmeister,et al.  The anti-angiogenic substance TNP-470 impairs peri-implant bone formation: a pilot study in the rabbit metaphysis model. , 2007, Clinical oral implants research.

[9]  G. Melino,et al.  Matrix changes induced by transglutaminase 2 lead to inhibition of angiogenesis and tumor growth , 2006, Cell Death and Differentiation.

[10]  J. Lian,et al.  Localization of endogenous osteocalcin in neonatal rat bone and its absence in articular cartilage: Effect of warfarin treatment , 2005, Virchows Archiv A.

[11]  N. Lang,et al.  Surgical treatment of peri-implantitis. , 2004, The International journal of oral & maxillofacial implants.

[12]  Flemming Melsen,et al.  Cancellous Bone Remodeling Occurs in Specialized Compartments Lined by Cells Expressing Osteoblastic Markers , 2001, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[13]  M. Dewhirst,et al.  Tissue transglutaminase is expressed, active, and directly involved in rat dermal wound healing and angiogenesis , 1999, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[14]  M. Bošković,et al.  Bone formation and reosseointegration in peri-implantitis defects following surgical implantation of rhBMP-2. , 1997, The International journal of oral & maxillofacial implants.

[15]  J. Lindhe,et al.  Experimental breakdown of peri-implant and periodontal tissues. A study in the beagle dog. , 1992, Clinical oral implants research.

[16]  G. Stein,et al.  Progressive development of the rat osteoblast phenotype in vitro: Reciprocal relationships in expression of genes associated with osteoblast proliferation and differentiation during formation of the bone extracellular matrix , 1990, Journal of cellular physiology.

[17]  J B Lian,et al.  Osteocalcin and matrix Gla protein: vitamin K-dependent proteins in bone. , 1989, Physiological reviews.

[18]  K. Donath The diagnostic value of the new method for the study of undecalcified bones and teeth with attached soft tissue (Säge-Schliff (sawing and grinding) technique). , 1985, Pathology, research and practice.

[19]  J. Lian,et al.  Carboxylated calcium-binding proteins and vitamin K. , 1980, The New England journal of medicine.