The integration of robotics into implant dentistry holds transformative potential for bridging the surgical-prosthetic gap that has long challenged clinicians. Traditional implant placement often suffers from misalignment between surgical positioning and prosthetic outcomes, leading to compromised function, esthetics, and patient satisfaction. Robotic-assisted implant placement introduces a new level of precision, enabling real-time adaptation and highly accurate execution of preoperative prosthetically driven treatment plans. By incorporating dynamic navigation, haptic feedback, and virtual CBCT planning, robotic systems can ensure that implants are placed in optimal positions relative to the final prosthetic design, minimizing the risk of restorative complications. This technology enhances communication between surgical and restorative teams, reducing human error, especially in complex cases or anatomically challenging scenarios. Moreover, robotic systems can improve clinical efficiency, reduce surgical time, and potentially expand the scope of care for less experienced practitioners under digitally full-guided workflows. As evidence continues to grow, robotically assisted implantology is poised to redefine the standard of care by harmonizing surgical accuracy with prosthetic intent. Ultimately, this convergence promises to enhance long-term clinical outcomes, promote patient-centered and individualized care, and establish a more seamless digital workflow in implant dentistry
Wiedemann et al. (Mon,) studied this question.