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THE NEW ERA OF IMPLANTATION OF TEETH
Kamiljanov Fayzullakh Kabiljon o’g’li
Student of Kokand university Andijan Branch
Dentistry faculty group 24-01
https://doi.org/10.5281/zenodo.15628859
Abstract. This article discusses the recent advancements and innovations in dental
implantation. It highlights the evolution of dental implantology, from traditional titanium screw
implants to novel biocompatible materials, digital technologies, and regenerative techniques.
The article also explores how artificial intelligence (AI), computer-guided surgery, and
3D printing have improved success rates, reduced healing time, and enhanced patient outcomes.
Finally, it addresses future trends and challenges in modern dental implantation.
Keywords: Dental implants, osseointegration, 3D printing, guided implant surgery,
zirconia implants, digital dentistry, bone regeneration, AI in dentistry.
Introduction
Dental implantation has revolutionized the way missing teeth are replaced. Since the
1960s, when osseointegration was first introduced by Dr. Per-Ingvar Brånemark, dental implants
have become the gold standard for tooth replacement. Today, a “new era” of implantation is
underway—characterized by rapid technological progress and interdisciplinary integration—
pushing the boundaries of precision, durability, aesthetics, and patient comfort.
Discussion
1. Evolution of Implant Materials
Traditionally, titanium has been the material of choice due to its high biocompatibility
and osseointegrative properties. However, recent developments have introduced zirconia
implants as a metal-free, aesthetically superior alternative with low plaque affinity and excellent
soft tissue response.
2. Digital and Guided Implant Surgery
The integration of Cone Beam Computed Tomography (CBCT) and computer-aided
design/computer-aided manufacturing (CAD/CAM) allows for precise preoperative planning.
Using surgical guides, clinicians can place implants with unparalleled accuracy, reducing
the risk of nerve injury and sinus perforation.
3. 3D Printing and Customization
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ResearchBib IF - 11.01, ISSN: 3030-3753, Volume 2 Issue 6
3D-printed surgical guides and even customized implants tailored to the patient’s
anatomy have become a reality. This personalization not only improves functionality and
esthetics but also reduces chair time and post-operative complications.
4. Immediate Loading and Minimally Invasive Techniques
Immediate implant placement and immediate loading protocols have become increasingly
common, thanks to improved implant designs and surface technologies. Minimally invasive
flapless surgeries also contribute to faster healing and reduced discomfort.
5. Regenerative and Bioactive Approaches
Bone augmentation with platelet-rich fibrin (PRF), stem cells, and biomimetic scaffolds
has expanded the pool of patients eligible for implants. These regenerative techniques help
overcome the limitations of inadequate bone volume.
6. Artificial Intelligence and Robotics
AI is being utilized for predictive modeling of implant success, automatic image
segmentation, and even in robotic-assisted implant placement. AI-driven diagnostics reduce
human error and enhance decision-making in treatment planning.
Conclusion
The new era of dental implantation reflects a convergence of biology, engineering, and
digital innovation. As materials become more biocompatible, techniques more precise, and
surgeries less invasive, dental implants are now more accessible, efficient, and patient-friendly
than ever before. However, challenges remain, including cost, training, and the need for long-
term data on emerging technologies. Future developments will likely focus on improving
accessibility, integrating AI more deeply, and further enhancing tissue regeneration.
References
1.
Brånemark, P. I., et al. (1977). “Osseointegrated implants in the treatment of the edentulous
jaw. Experience from a 10-year period.” Scandinavian Journal of Plastic and
Reconstructive Surgery.
2.
Albrektsson, T., & Wennerberg, A. (2004).
3.
“Oral implant surfaces: Part 1—review focusing on topographic and chemical properties of
different surfaces and in vivo responses to them.” International Journal of Prosthodontics,
17(5), 536–543.
4.
Sclar, A. G. (2007). Soft Tissue and Esthetic Considerations in Implant Therapy.
Quintessence Publishing.
5.
Mangano, F., et al. (2020). “Digital workflow in dental implantology: The future is now.”
Journal of Dentistry, 94, 103306.
6.
Chen, S., & Buser, D. (2014). ITC Consensus Statements on Immediate Implant Placement
and Loading. Clinical Oral Implants Research, 25(Suppl. 2), 26–28.
7.
El Chaar, E., et al. (2019). “Artificial intelligence in implant dentistry: Current applications
and future perspectives.” Journal of Oral Implantology, 45(5), 411–416.
8.
Mangano, F., et al. (2018). “Custom-made 3D-printed titanium mesh for guided bone
regeneration of severe mandibular bone defects: A pilot study.” Materials, 11(1), 30.
