ABSTRACT
Dental implants have been used as an effective treatment for missing teeth. Dental implantology has a long history that reaches back to ancient times when attempts were made to replace missing teeth with various materials. Modern dental implants are designed to osseointegrate, where the implant fixture fuses with the jawbone. The surgical procedure involves placing the implant, followed by the adaptation of the surrounding tissue. There are two main surgical techniques: one-stage surgery and two-stage surgery. One-stage surgery involves placing the implant and allowing a healing abutment to protrude through the gums. This eliminates the need for a second surgery but carries the risk of overloading the implant during the healing phase. Two-stage surgery is the standard approach, where the implant is initially submerged, and a second surgery is performed to connect the abutment. The choice between one-stage and two-stage surgery depends on many factors, including bone quality, clinical parameters, and aesthetic considerations. One-stage surgery offers quick aesthetics but can pose a higher risk of implant failure due to early loading. Two-stage surgery provides a higher success rate but requires two surgical procedures.
ABSTRACT
Implant-supported fixed prostheses are a highly successful treatment option for replacing missing teeth, offering improved esthetics, function, and patient satisfaction. Design considerations play a crucial role in achieving optimal outcomes. Implant distribution and angulation should be carefully planned to ensure balanced load distribution and biomechanical stability. Occlusal considerations are vital to minimize mechanical complications and implant overloading, with proper adjustments and occlusal schemes implemented. The emergence profile should replicate natural tooth contours for esthetic integration and ease of oral hygiene maintenance. Material selection is essential, considering factors such as occlusal loading, esthetic requirements, and patient-specific considerations. Biomechanical analysis helps identify stress distribution patterns and optimize prosthesis design for long-term success. Patient satisfaction is high, with improved chewing ability, speech, and overall quality of life reported. Long-term success rates exceed 90%, influenced by implant survival, peri-implant health, maintenance of prosthesis integrity, and patient satisfaction. Thorough patient assessment, treatment planning, precise surgical and prosthetic execution, and comprehensive follow-up care are crucial for favorable outcomes. Implant-supported fixed prostheses provide functional and esthetic restorations, enhancing oral health and overall well-being.