objective: despite the wide clinical use of translucent zirconia for full-arch implant prostheses, reduced flexural strength and fracture toughness compared with high-strength opaque zirconia needs to be addressed. a novel proof of concept for FP1 full-arch prosthesis featured by translucent monolithic zirconia and titanium framework was presented.clinical considerations: computer-guided implant planning and surgery were executed and digitally designed FP1 temporary prosthesis prefabricated. implant and prosthetic placement were achieved with a set of three-dimensional (3D)-printed templates. implants were immediately loaded. after 4 months intraoral optical scan was taken to record implant coordinates, soft tissue anatomy, and temporary FP1 prosthesis. a novel digital workflow was used to design and mill overlaying translucent zirconia and anatomically shaped titanium framework with a scalloped soft-tissue interface. final FP1 prosthesis was assembled cementing zirconia jacket on titanium counterpart. conclusions: translucent zirconia supported by titanium framework can address esthetic and mechanical requirements of FP1 full-arch prosthesis, minimizing risk of fracture and providing a rigid and passive joint with supporting implants. the smooth and highly polished titanium surface with an anatomic design, tightly matching scalloped soft tissue interface, can limit food impaction, air and saliva leakage and contribute to overall biologic integration of FP1 full-arch prosthesis. clinical significance: translucent monolithic zirconia featured with anatomically shaped titanium framework with scalloped transmucosal part, combining a pleasant esthetic outcome with increased flexural strength and fracture toughness, may be indicated to increase the clinical performance of FP1 full-arch prosthesis.
Pelekanos, S., Ntovas, P., Rizou, V., Pozzi, A. (2024). Translucent monolithic zirconia titanium‐supported FP1 full‐arch prosthesis: A novel proof of concept to address esthetic, functional, and biologic challenges. JOURNAL OF ESTHETIC AND RESTORATIVE DENTISTRY, 36(1), 197-206 [10.1111/jerd.13167].
Translucent monolithic zirconia titanium‐supported FP1 full‐arch prosthesis: A novel proof of concept to address esthetic, functional, and biologic challenges
Alessandro Pozzi
2024-01-01
Abstract
objective: despite the wide clinical use of translucent zirconia for full-arch implant prostheses, reduced flexural strength and fracture toughness compared with high-strength opaque zirconia needs to be addressed. a novel proof of concept for FP1 full-arch prosthesis featured by translucent monolithic zirconia and titanium framework was presented.clinical considerations: computer-guided implant planning and surgery were executed and digitally designed FP1 temporary prosthesis prefabricated. implant and prosthetic placement were achieved with a set of three-dimensional (3D)-printed templates. implants were immediately loaded. after 4 months intraoral optical scan was taken to record implant coordinates, soft tissue anatomy, and temporary FP1 prosthesis. a novel digital workflow was used to design and mill overlaying translucent zirconia and anatomically shaped titanium framework with a scalloped soft-tissue interface. final FP1 prosthesis was assembled cementing zirconia jacket on titanium counterpart. conclusions: translucent zirconia supported by titanium framework can address esthetic and mechanical requirements of FP1 full-arch prosthesis, minimizing risk of fracture and providing a rigid and passive joint with supporting implants. the smooth and highly polished titanium surface with an anatomic design, tightly matching scalloped soft tissue interface, can limit food impaction, air and saliva leakage and contribute to overall biologic integration of FP1 full-arch prosthesis. clinical significance: translucent monolithic zirconia featured with anatomically shaped titanium framework with scalloped transmucosal part, combining a pleasant esthetic outcome with increased flexural strength and fracture toughness, may be indicated to increase the clinical performance of FP1 full-arch prosthesis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.