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"La péri-implantite est une maladie inflammatoire des tissus péri-implantaires, d’origine bactérienne. Elle provoque la destruction de l'os de soutien aboutissant à la perte de l'implant. À ce jour, environ 20 % des patients porteurs de restaurations implanto-portées sont concernés. L'augmentation du nombre d'implants dentaires posés au cours des dernières années implique que les praticiens soient plus fréquemment confrontés à des cas de péri-implantites et une prise en charge adaptée est incontournable pour garantir la santé des patients. L'ouvrage propose aux praticiens d'accéder à toutes les actualités sur la prise en charge et les traitements de cette pathologie infectieuse, basées sur les preuves de la littérature scientifique actuelle avec une vision clinique. Les chapitres abordent successivement : le développement de la pathologie et le diagnostic ; l'évaluation des facteurs de risque et la prévention primaire ; les traitements non chirurgicaux et chirurgicaux ; les résultats à moyen et long termes. Un ouvrage construit de façon pédagogique et didactique, très richement illustré – 800 figures – avec des cas cliniques sélectionnés afin de faire comprendre l’ensemble du processus infectieux à tous les praticiens. Une approche étape par étape des différents traitements ainsi que du suivi sur le long terme est proposée afin de rendre les connaissances scientifiques applicables dans la pratique quotidienne. Ouvrage coordonné par Rodrigo Martin-Cabezas, chirurgien-dentiste dédié exclusivement à la parodontologie et l’implantologie orale, auteur de nombreux articles et communications scientifiques. Les contributions d’auteurs issus des différentes universités et de pratique privée offrent au lecteur un éclairage complet et parfaitement documenté sur les maladies péri-implantaires."

Peri-Implantitis. --- Inflammation. --- Péri-implantite. --- Dental implants --- Peri-Implantitis --- Implants dentaires --- Implantologie dentaire --- Implants dentaires. --- Complications

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Quatrième de couverture : "Ce livre apporte une solution thérapeutique efficace face à une maladie désormais pandémique restée dans un flou scientifique et clinique depuis 20 ans. L'ouvrage s'adresse à tous les chirurgiens-dentistes et chirurgiens oraux pratiquant l'implantologie et la parodontologie. Il propose une actualisation des données de la littérature scientifiques depuis le premier et unique ouvrage sur le sujet écrit en 2012 par les Dr Giovannoli et Renvert. Au-delà de la théorie, il apporte une réponse thérapeutique pragmatique applicable au quotidien à tous les patients. Le traitement des péri-implantites est une spécialité à part entière qui relève de la parodontologie et de la chirurgie orale. Il n'y a pas de traitement type : seule la prise en compte holistique du contexte médical, buccal et parfois psychologique du patient mène au succès. L'auteur transmet sa philosophie de traitement et étaye des voies thérapeutiques modernes : les protocoles de traitements proposés intègrent en grande partie les technologies lasers. L'ouvrage « Les péri-implantites, une approche thérapeutique » occupera avec certitude une place stratégique au chevet de chaque praticien lecteur."

Periodontal Diseases --- Dental Implants. --- Implantologie dentaire --- Parodontopathies --- Péri-implantite --- Dental Implants --- Dental Implants, Single-Tooth --- Dental Prosthesis, Implant-Supported --- Dental Hygienists --- Dental Restoration Failure --- Peri-Implantitis --- Periodontal Diseases.

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Nano-engineering offers unique solutions for biomedical implants to meet compromised patient conditions via enhanced bioactivity and local drug release. This book presents the cutting-edge nano-engineered dental implant solutions that has the potential to ensure long-term success of dental implants while maintaining clinical translatability. From surface modification of titanium/zirconium dental implants to advanced therapeutic enhancements to treat infection and poor integration, this book advances the field of dental implant nano-engineering, showcasing current trends and future directions.

Technology: general issues --- History of engineering & technology --- endocytosis --- ipriflavone --- mesoporous nanospheres --- nanoparticles --- oxidative stress --- pre-osteoblasts --- implant --- nano-scaled surface --- blood clot --- LncRNA --- osseointegration --- bone regeneration --- zirconium --- zirconia --- dental implants --- nanopores --- electrochemical anodization --- extracellular vesicles --- exosomes --- nanomedicine --- regeneration --- cell-free therapy --- decontamination --- antibacterial agents --- nano-modified dental implant --- nanostructured titanium --- dental implant --- TiO2 nanotubes --- surface modification --- antibacterial --- titanium --- laser therapy --- peri-implantitis --- debridement --- implants --- nanostructure --- gingival fibroblasts --- biofilm --- soft-tissue integration --- n/a

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In the past, osseointegration was regarded to be a mode of implant anchorage that simulated a simple wound healing phenomenon. Today, we have evidence that osseointegration is, in fact, a foreign body reaction that involves an immunologically derived bony demarcation of an implant to shield it off from the tissues. Marginal bone resorption around an oral implant cannot be properly understood without realizing the foreign body nature of the implant itself. Whereas the immunological response as such is positive for implant longevity, adverse immunological reactions may cause marginal bone loss in combination with combined factors. Combined factors include the hardware, clinical handling as well as patient characteristics that, even if each one of these factors only produce subliminal trauma, when acting together they may result in loss of marginal bone. The role of bacteria in the process of marginal bone loss is smaller than previously believed due to combined defense mechanisms of inflammation and immunological reactions, but if the defense is failing we may see bacterially induced marginal bone loss as well. However, problems with loss of marginal bone threatening implant survival remains relatively uncommon; we have today 10 years of clinical documentation of five different types of implant displaying a failure rate in the range of only 1 to 4 %.

Medicine --- osseointegration --- dental implant --- peri-implantitis --- ligature-induced peri-implantitis --- aseptic loosening --- systematic review --- immune system --- biomaterials --- foreign body reaction --- in vivo study --- oral implants --- marginal bone loss --- immunomodulation --- mechanotransduction --- Crestal bone loss --- osseosufficiency --- osseoseparation --- photoacoustic ultrasound --- brain–bone axis --- overloading --- radiography --- CBCT (cone beam computerized tomography) --- osteogenesis --- osteotomy --- bone healing --- bone chips --- drilling tool design --- fused deposition modeling --- polyether ether ketone --- biocomposite --- orthopedic implant --- oral implant --- mechanical properties --- wettability --- topography --- biocompatibility --- cell adhesion --- peri-implant endosseous healing --- dental implantation --- alveolar bone loss --- alveolar bone remodeling/regeneration --- bone biology --- finite element analysis (FEA) --- biomechanics --- cell plasticity --- dental implants --- electron microscopy --- scanning transmission electron microscopy --- bone-implant interface --- bone loss --- overdenture --- implant survival --- implant surface --- soft tissue --- split-mouth design --- oral health-related quality of life --- patient-reported outcome measures --- biomaterial --- bone --- immune --- implant --- healing --- titanium --- PEEK --- Cu --- micro-RNA --- microarray --- predictive biomarker --- epigenomics --- mucositis --- diagnosis --- over-treatment --- iatrogenic damage --- abutment height --- subcrestal implants --- implant insertion depth --- vertical mucosal thickness --- biological width --- implant installation --- anchorage technique --- histology --- intraosseous temperature --- finite element model --- ligature induced peri-implantitis --- arthroplasty --- replacement --- hip --- hypersensitivity --- contact --- allergy and immunology --- cytokines --- Interleukin-8 --- surface properties --- materials testing --- implant contamination --- scanning electron microscopy --- energy-dispersive X-ray spectrometry --- convergence --- clinical study --- biofilm --- infection --- perio-prosthetic joint infection --- periimplantitis --- electrolytic cleaning --- n/a --- zirconia --- insertion --- bone–implant interface --- heat --- bone damage --- early loss --- augmentation --- air flow --- re-osseointegration --- classification of bone defects --- dog study --- brain-bone axis

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In the past, osseointegration was regarded to be a mode of implant anchorage that simulated a simple wound healing phenomenon. Today, we have evidence that osseointegration is, in fact, a foreign body reaction that involves an immunologically derived bony demarcation of an implant to shield it off from the tissues. Marginal bone resorption around an oral implant cannot be properly understood without realizing the foreign body nature of the implant itself. Whereas the immunological response as such is positive for implant longevity, adverse immunological reactions may cause marginal bone loss in combination with combined factors. Combined factors include the hardware, clinical handling as well as patient characteristics that, even if each one of these factors only produce subliminal trauma, when acting together they may result in loss of marginal bone. The role of bacteria in the process of marginal bone loss is smaller than previously believed due to combined defense mechanisms of inflammation and immunological reactions, but if the defense is failing we may see bacterially induced marginal bone loss as well. However, problems with loss of marginal bone threatening implant survival remains relatively uncommon; we have today 10 years of clinical documentation of five different types of implant displaying a failure rate in the range of only 1 to 4 %.

Medicine --- osseointegration --- dental implant --- peri-implantitis --- ligature-induced peri-implantitis --- aseptic loosening --- systematic review --- immune system --- biomaterials --- foreign body reaction --- in vivo study --- oral implants --- marginal bone loss --- immunomodulation --- mechanotransduction --- Crestal bone loss --- osseosufficiency --- osseoseparation --- photoacoustic ultrasound --- brain-bone axis --- overloading --- radiography --- CBCT (cone beam computerized tomography) --- osteogenesis --- osteotomy --- bone healing --- bone chips --- drilling tool design --- fused deposition modeling --- polyether ether ketone --- biocomposite --- orthopedic implant --- oral implant --- mechanical properties --- wettability --- topography --- biocompatibility --- cell adhesion --- peri-implant endosseous healing --- dental implantation --- alveolar bone loss --- alveolar bone remodeling/regeneration --- bone biology --- finite element analysis (FEA) --- biomechanics --- cell plasticity --- dental implants --- electron microscopy --- scanning transmission electron microscopy --- bone-implant interface --- bone loss --- overdenture --- implant survival --- implant surface --- soft tissue --- split-mouth design --- oral health-related quality of life --- patient-reported outcome measures --- biomaterial --- bone --- immune --- implant --- healing --- titanium --- PEEK --- Cu --- micro-RNA --- microarray --- predictive biomarker --- epigenomics --- mucositis --- diagnosis --- over-treatment --- iatrogenic damage --- abutment height --- subcrestal implants --- implant insertion depth --- vertical mucosal thickness --- biological width --- implant installation --- anchorage technique --- histology --- intraosseous temperature --- finite element model --- ligature induced peri-implantitis --- arthroplasty --- replacement --- hip --- hypersensitivity --- contact --- allergy and immunology --- cytokines --- Interleukin-8 --- surface properties --- materials testing --- implant contamination --- scanning electron microscopy --- energy-dispersive X-ray spectrometry --- convergence --- clinical study --- biofilm --- infection --- perio-prosthetic joint infection --- periimplantitis --- electrolytic cleaning --- zirconia --- insertion --- bone-implant interface --- heat --- bone damage --- early loss --- augmentation --- air flow --- re-osseointegration --- classification of bone defects --- dog study --- osseointegration --- dental implant --- peri-implantitis --- ligature-induced peri-implantitis --- aseptic loosening --- systematic review --- immune system --- biomaterials --- foreign body reaction --- in vivo study --- oral implants --- marginal bone loss --- immunomodulation --- mechanotransduction --- Crestal bone loss --- osseosufficiency --- osseoseparation --- photoacoustic ultrasound --- brain-bone axis --- overloading --- radiography --- CBCT (cone beam computerized tomography) --- osteogenesis --- osteotomy --- bone healing --- bone chips --- drilling tool design --- fused deposition modeling --- polyether ether ketone --- biocomposite --- orthopedic implant --- oral implant --- mechanical properties --- wettability --- topography --- biocompatibility --- cell adhesion --- peri-implant endosseous healing --- dental implantation --- alveolar bone loss --- alveolar bone remodeling/regeneration --- bone biology --- finite element analysis (FEA) --- biomechanics --- cell plasticity --- dental implants --- electron microscopy --- scanning transmission electron microscopy --- bone-implant interface --- bone loss --- overdenture --- implant survival --- implant surface --- soft tissue --- split-mouth design --- oral health-related quality of life --- patient-reported outcome measures --- biomaterial --- bone --- immune --- implant --- healing --- titanium --- PEEK --- Cu --- micro-RNA --- microarray --- predictive biomarker --- epigenomics --- mucositis --- diagnosis --- over-treatment --- iatrogenic damage --- abutment height --- subcrestal implants --- implant insertion depth --- vertical mucosal thickness --- biological width --- implant installation --- anchorage technique --- histology --- intraosseous temperature --- finite element model --- ligature induced peri-implantitis --- arthroplasty --- replacement --- hip --- hypersensitivity --- contact --- allergy and immunology --- cytokines --- Interleukin-8 --- surface properties --- materials testing --- implant contamination --- scanning electron microscopy --- energy-dispersive X-ray spectrometry --- convergence --- clinical study --- biofilm --- infection --- perio-prosthetic joint infection --- periimplantitis --- electrolytic cleaning --- zirconia --- insertion --- bone-implant interface --- heat --- bone damage --- early loss --- augmentation --- air flow --- re-osseointegration --- classification of bone defects --- dog study