SELECTION D'ARTICLES SCIENTIFIQUES 

L'importance de la force de morsure lors de la planification du traitement.

  1.         Fracture Resistance of Endodontically Treated Teeth: Three Walls versus Four Walls of Remaining Coronal Tooth Structure. Arunpraditkul, S., Saengsanon, S., & Pakviwat, W. (2009) , 49-83.    

  2. Bite Force and Occlusion, Bakke, M. (2006). (2), 120-126.

  3. Load-bearing capacity of various CAD/CAM monolithic molar crowns under recommended occlusal thickness and reduce occlusal thickness conditions , Choi, S., Yoon, H.-I., & Park, E.-J. (2017). , 423-431.

  4. Chewing efficiency and maximum bite force with different attachment systems of implant overdentures: a crossover study, Elsyad, M. A., & Khairallah, A. S. (2016). , 1-6.

  5. Correlation Between Implant Geometry, Implant Surface, Insertion Torque, and Primary Stability: In vitro Biomechanical Analysis, Falco, A., Berardini, M., & Trisi, P. (2018). (4), 824-830.

  6. Diet and Implant Complications, Flanagan, D. (2016). (3), 305-310.

  7. Bite force and dental implant treatment: a short review, Flanagan, D. (2017). , 141-148.

  8. Maximum Bite Force of Edentulous Patients before and after Dental Implant Rehabilitation: Long‐Term Follow‐Up and Facial Type Influence, Melo, A. M., Ledras, I. M., Vieira, R. A., Coro, E. R., & Sartori, I. d. (2016). (6), 523-527.

  9. Rationale for Dental Implants, Misch, C. E. (2014). In C. E. Misch,  (pp. 1-17). Mosby: Elsevier.

  10. Available Bone and Dental Implant Treatment Plans, Misch, C. E., & Resnik, R. R. (2020). In R. R. Resnik,  (pp. 415-435).

  11. Assessment of Maximum Voluntary Bite Force in Adults with Normal Occlusion and Different Types of Malocclusions, Sathyanarayana, H. P., Premkum, S., & Manjula, W. S. (2012). (4), 534-538.

  12. Electromyography evaluation of masseter and temporalis, bite force, and quality of life in elderly patients during the adaptation of mandibular implant‐supported overdentures, Sonego, M. V., Goiato, M. C., & dos Santos, D. M. (2016). (10), 169-174.

  13. Cyclic fatigue in water of veneer–framework composites for all-ceramic dental bridges, Studart, A. R., Filser, F., Kocher, P., Luthy, H., & Gauckler, L. J. (2007). , 177-185.            

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MD 2015-2020 

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