Ti-bar (Pure Titanium metal frame)

• Our Zirconia bridge with titanium substructure delivers an engineered solution for space-limited full arch cases, combining titanium's proven strength with zirconia's superior esthetics through direct-to-implant engagement that eliminates traditional multi-component complexity.

• This streamlined design is perfect for cases where vertical height is limited, providing exceptional passive fit and predictable long-term outcomes without the bulk and maintenance issues of conventional hybrids.

  
  

Enhanced Structural Performance:

• Direct-to-implant engagement eliminates intermediate components and potential failure points
• Highly resistant to chipping and fracture through the engineered titanium framework
• Superior strength-to-thickness ratio optimized for space-limited situations
• Exceptional passive fit due to titanium's precision machinability and biocompatibility

Elimination of Common Prosthetic Failures:

• No more teeth "popping out", acrylic fractures, or denture tooth wear
• Reduced mechanical variables leading to more predictable outcomes
• Enhanced mechanical stability through direct implant connection
• Reduced risk of screw loosening compared to multi-component systems

Superior Esthetics:

• Beautiful ceramic esthetics with new translucent liquid ceramics
• Natural looking gingival esthetics also with new translucent liquid ceramics
• Maintains natural appearance while eliminating the bulk of traditional hybrids
• Combines titanium's proven track record with zirconia's esthetic advantages

Clinical Efficiency:

• Works with all major implant brands for universal compatibility
• Functional prototype is tried-in and worn to verify function and esthetics
• Fewer components minimize complexity during delivery and maintenance
• Streamlined design reduces chair time for adjustments and troubleshooting

Conservative Treatment Approach:

• Can accommodate cases with less than 10mm of vertical space, often allowing more conservative surgery
• Refined profile without compromising structural integrity

• Maximum strength within minimal space requirements