Contemporary Implant DentistryMosby Elsevier, 2008 - 1102 pagina's Turn to this new third edition for consistent outcomes on even your most complex implant cases! World-renowned dental implantologist Carl E. Misch gives you expert advice and guidance on the various surgical approaches to placing implants in the revision of his best-selling classic. Over 1,000 full-color illustrations depict details of implants, related materials, and surgical procedures, while well-known contributors (Mohamed Sharawy, Martha Warren Bidez, Adriano Piatelli, and others) share a wealth of knowledge in their respective fields. This third edition provides an excellent opportunity for you to develop and refine your skills and experience more consistent, predictable clinical outcomes.
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Pagina 84
... stress - related theory for one of the etiologies of crestal bone loss is further enhanced ( Figure 4-31 ) . Literature from cellular biomechanics , engineering principles , differences in bone loss related to bone density , animal ...
... stress - related theory for one of the etiologies of crestal bone loss is further enhanced ( Figure 4-31 ) . Literature from cellular biomechanics , engineering principles , differences in bone loss related to bone density , animal ...
Pagina 86
... stress and minimize its initial and long - term complications . Several parameters are in the doctor's control to improve the environment of the transosteal region to manage stress around and within endosteal implants . The definition of ...
... stress and minimize its initial and long - term complications . Several parameters are in the doctor's control to improve the environment of the transosteal region to manage stress around and within endosteal implants . The definition of ...
Pagina 548
... stress element under action of a pure shearing load ( Fs ) . to a final length ( +41 ) ( Figure 25-3 ) . Engineering strain , which is unitless , is defined as elongation per unit length and is described as : 1-1 ΔΙ e = = 10 10 where Al ...
... stress element under action of a pure shearing load ( Fs ) . to a final length ( +41 ) ( Figure 25-3 ) . Engineering strain , which is unitless , is defined as elongation per unit length and is described as : 1-1 ΔΙ e = = 10 10 where Al ...
Inhoudsopgave
Applied Anatomy for Dental Implants 490 Carl E Misch | 22 |
Biomaterials for Dental Implants 511 and Incisive Foramen Implants | 769 |
Clinical Biomechanics in Implant 35 Immediate Load and Restoration in Implant | 799 |
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adjacent teeth alloy alveolar available bone biological width Biomaterials biomechanical bite force bone density bone graft bone height bone loss Brånemark bruxism calcium canine cantilever Clin Oral Implants clinical completely edentulous complications cortical bone crest module crestal bone loss crown height decrease dental implants dentist diameter disease distal Division edentulous edentulous patients endodontic endosteal implants esthetic evaluation facial Figure fixed prosthesis fixed restoration fracture function greater healing imaging implant body implant dentistry implant design implant failure implant insertion implant placement implant positions implant support increase infection Int J Oral interface mandible mandibular maxilla maxillary sinus mechanical mesiodistal Misch molar muscle natural teeth Oral Implants Res Oral Maxillofac Implants orthodontic osseointegrated osteoblasts overdenture parafunction periodontal premaxilla premolar procedures prosthesis Prosthet Dent Prosthodont radiograph remodeling replacement reported resorption result ridge risk soft tissue space splinted stress surface area surgical thread titanium titanium implants tooth trabecular bone treatment plan vertical width