Crown & Bridge
Our crown and bridge restorations are expertly designed using advanced CAD/CAM technology to ensure precise fit, proper occlusal anatomy, and accurate proximal contacts. Each restoration is digitally crafted to achieve ideal marginal integrity, anatomical contouring, and natural emergence profiles, supporting both periodontal health and long-term functionality. Our designs accommodate various clinical scenarios, including single-unit crowns, multi-unit bridges, and full-arch fixed prostheses, with meticulous attention to occlusal schemes, pontic design, and spatial harmony. With a deep understanding of dental morphology and functional dynamics, we deliver prosthetic designs that streamline the fabrication process and elevate clinical outcomes.
Veneers
Our veneer designs are digitally crafted with high anatomical precision to replicate natural tooth morphology, ideal facial contours, and seamless incisal edge transitions. Utilizing advanced CAD/CAM design protocols, we focus on achieving perfect symmetry, proportional harmony, and accurate contact points while preserving optimal facial, incisal, and gingival contours. Each veneer is customized to support minimal-prep or no-prep approaches, with attention to cervical fit, surface texture, and esthetic integration for natural light reflection. Our designs enhance facial esthetics, correct tooth form discrepancies, and support long-term functional stability, making them ideal for smile design, diastema closure, and enamel restoration cases.
custom abutment
Our custom abutment designs are digitally engineered to provide ideal emergence profiles, precise soft tissue management, and optimal support for the final restoration. Each abutment is individually designed based on the implant position, gingival architecture, and prosthetic requirements to ensure proper margin placement, axial alignment, and crown retention. Our design process accounts for tissue depth, interocclusal space, and esthetic zone demands, resulting in abutments that enhance both biological integration and prosthetic function. Whether for single units, multi-unit bridges, or full-arch cases, our custom abutments ensure a seamless connection between implant and restoration, promoting long-term stability and esthetic excellence.
All on X
Our All-on-X prosthetic designs are digitally engineered to ensure full-arch rehabilitation with precise implant positioning, optimal occlusal load distribution, and accurate anatomical contouring. Each case is meticulously planned using implant scan data and virtual articulation to achieve ideal A-P spread, proper cantilever control, and functional occlusal schemes. We design both screw-retained and hybrid prostheses with attention to gingival emergence profiles, esthetic tooth arrangement, and phonetic support. Our All-on-X workflows integrate prosthetic-driven planning and soft tissue considerations to deliver stable, functional, and esthetically pleasing full-arch restorations that streamline surgical coordination and enhance long-term patient outcomes.
Surgical guide
Our surgical guide designs are digitally planned to ensure precise implant placement with optimal angulation, depth control, and prosthetically driven positioning. Using CBCT data merged with intraoral or model scans, we create highly accurate guides that support flapless or open-flap protocols while maintaining critical anatomical safety, such as avoiding nerve pathways and sinus cavities. Each guide is tailored for implant type, surgical approach, and restorative plan, incorporating sleeve positioning, drill sequencing, and fixation pin placement for maximum stability during surgery. Our guides enhance clinical efficiency, reduce chair time, and increase predictability in single, multiple, and full-arch implant procedures.
Digital Smile Design
our Digital Smile Design (DSD) service integrates facial analysis, dental proportions, and dynamic function to create highly individualized, esthetically driven treatment plans. Using high-resolution photography, 3D scans, and advanced CAD software, we digitally map the patient’s facial and dental parameters to design smiles that are in harmony with facial features, lip dynamics, and phonetics. Each design considers midline alignment, incisal edge position, buccal corridor width, and gingival architecture to achieve a balanced, natural appearance. Our DSD workflows provide clinicians with a clear visualization of the final outcome, enhancing patient communication, treatment planning accuracy, and clinical predictability in esthetic and restorative cases.
All on X
Our All-on-X prosthetic designs are digitally engineered to ensure full-arch rehabilitation with precise implant positioning, optimal occlusal load distribution, and accurate anatomical contouring. Each case is meticulously planned using implant scan data and virtual articulation to achieve ideal A-P spread, proper cantilever control, and functional occlusal schemes. We design both screw-retained and hybrid prostheses with attention to gingival emergence profiles, esthetic tooth arrangement, and phonetic support. Our All-on-X workflows integrate prosthetic-driven planning and soft tissue considerations to deliver stable, functional, and esthetically pleasing full-arch restorations that streamline surgical coordination and enhance long-term patient outcomes.
What Sets Us Apart:
Expert Team
Designs created by experienced technicians and reviewed by practicing clinicians for unmatched accuracy.
Milling & Printing Ready
STL files optimized for seamless integration with your systems—no extra editing required.
Simple Case Submission
Quick and easy file uploads with clear instructions—we handle the rest.
Flexible Service Plans
Pay per case or subscribe monthly—scale your service as your practice grows.
Minimal Adjustments, Fewer Remakes
High precision and strict QC = better fit, less chairside time, more satisfied patients.
Real-Time Support
We’re available when you need us. Every case can include personalized design consultation.
Fast Turnaround Options
Standard or rush delivery to meet your deadlines—without compromising quality.
