BACKGROUND: The article provides the scientific documentation for the 3D animated film - "Osseointegration - Communication of cells". AIM: The aim of this article and of the film is to visualise the molecular and cellular events during the healing of an osseous wound after installation of a dental implant with special emphasis on the process of osseointegration. MATERIAL AND RESULTS: In this review article for didactic reasons the concept of the four phases of a healing soft tissue wound was transferred to a bone wound after insertion of a dental implant: haemostasis, inflammatory phase, proliferative phase and remodelling phase. Wound healing throughout these phases is the result of a coordinated action of different cell types which communicate with each other by their interaction using signalling molecules like cytokines, extracellular matrix proteins and small molecules. A regular sequence of cell types controlled by adequate concentrations of signalling molecules results in undisturbed healing. Disturbed healing is associated with a continuation of the early inflammatory phase and the development of a toxic wound environment. The latter is characterized by high counts of polymorphnuclear cells, high concentrations of toxic radicals and proteolytic enzymes and low concentrations of growth factors and extracellular matrix molecules. Clinically the development of a toxic wound environment should be avoided, e.g. by antibacterial measures. DISCUSSION AND CONCLUSION: Experiencing implant osseointegration as a biological process may provide the clinician new targets to improve the therapy with dental implants.
BACKGROUND: The article provides the scientific documentation for the 3D animated film - "Osseointegration - Communication of cells". AIM: The aim of this article and of the film is to visualise the molecular and cellular events during the healing of an osseous wound after installation of a dental implant with special emphasis on the process of osseointegration. MATERIAL AND RESULTS: In this review article for didactic reasons the concept of the four phases of a healing soft tissue wound was transferred to a bone wound after insertion of a dental implant: haemostasis, inflammatory phase, proliferative phase and remodelling phase. Wound healing throughout these phases is the result of a coordinated action of different cell types which communicate with each other by their interaction using signalling molecules like cytokines, extracellular matrix proteins and small molecules. A regular sequence of cell types controlled by adequate concentrations of signalling molecules results in undisturbed healing. Disturbed healing is associated with a continuation of the early inflammatory phase and the development of a toxic wound environment. The latter is characterized by high counts of polymorphnuclear cells, high concentrations of toxic radicals and proteolytic enzymes and low concentrations of growth factors and extracellular matrix molecules. Clinically the development of a toxic wound environment should be avoided, e.g. by antibacterial measures. DISCUSSION AND CONCLUSION: Experiencing implant osseointegration as a biological process may provide the clinician new targets to improve the therapy with dental implants.
Authors: Matthias C Schulz; Paula Korn; Bernd Stadlinger; Ursula Range; Stephanie Möller; Jana Becher; Matthias Schnabelrauch; Ronald Mai; Dieter Scharnweber; Uwe Eckelt; Vera Hintze Journal: J Mater Sci Mater Med Date: 2013-10-11 Impact factor: 3.896
Authors: Mariana Raquel da Cruz Vegian; Bruno César Almeida Costa; Gabriela de Fátima Santana-Melo; Fernanda Herrera Costa Godoi; Estela Kaminagakura; Rubens Nisie Tango; Renata Falchete do Prado; Luciane Dias de Oliveira; Claudio Antonio Federico; Sarah de Oliveira Marco Avelino; Rafael Marques Neves; Luana Marotta Reis de Vasconcellos Journal: Clin Oral Investig Date: 2019-06-01 Impact factor: 3.573
Authors: Maria Sartori; Gianluca Giavaresi; Annapaola Parrilli; Andrea Ferrari; Nicolò Nicoli Aldini; Marco Morra; Clara Cassinelli; Daniele Bollati; Milena Fini Journal: Int Orthop Date: 2015-07-25 Impact factor: 3.075