Experience a single implant ecosystem engineered for every clinical scenario. Precision-matched geometries, shared prosthetic components, and seamless digital workflow integration. From single unit to full-arch restorations, Surcam® delivers surgical efficiency and restorative consistency across our implant line.
Five implant designs, one restorative connection. Engineered for all bone types and workflows using a single instrument platform.
SLA surface accelerate osseointegration, enabling immediate loading and reliable healing in compromised bone conditions.
Grade 5 titanium with precision threading ensures long-term mechanical stability, torque retention, and crestal bone preservation.
Fully integrated with Exocad®, 3Shape®, and Dental Wings® libraries for seamless planning, guided surgery, and CAD/CAM restorations.
The Surcam® U-Type Dental Implant System is a tapered, self-cutting implant designed for immediate stability and long-term success in all bone types.
With its knife-thread design and condensing geometry, it provides powerful mechanical anchorage, enabling immediate placement and loading even in soft or compromised bone.
The U-Type system streamlines every step — from osteotomy to restoration — offering predictable torque control, shorter chair time, and a universal internal-hex 2.42 mm connection compatible with leading implant platforms.
The Surcam® Dental Implant System is developed to meet the functional and biological demands of modern implant dentistry. Each design in the Surcam portfolio, including the A-Type, C-Type, S-Type, SC-Type, and LSA-Type, is engineered for mechanical stability, restorative versatility, and long-term integration.
Surcam® implants are produced under FDA-cleared and ISO 13485-certified quality systems using Grade 5 titanium (Ti-6Al-4V ELI). Surface treatments such as SLA enhance early bone formation and support immediate or early loading protocols.
From research and design to final packaging, every implant and prosthetic component is manufactured with strict dimensional control, ensuring full compatibility with leading restorative platforms. Surcam® provides clinicians with a dependable, accessible system designed for efficiency, accuracy, and lasting clinical performance.
Tapered, self-cutting implant with knife-thread design for maximum primary stability in all bone types. SLA surface enhances rapid osseointegration.
Parallel-wall bone-level self-drilling implant providing optimal load distribution and precise fit in internal-hex workflows.
Self-tapping root-form implant designed for high primary stability in immediate or extraction-site placement.
Cylindrical bone-level implant engineered for soft-tissue health and predictable one-stage restorations.
Angled implant for maxillary atrophy cases, enabling stable anchorage in the pterygoid plate.
Extra-long implant designed for zygomatic fixation in severe maxillary resorption and full-arch restorations.
Cortical-condensing design offering immediate loading and high stability in soft or low-density bone.
Pterygoid implant with a TiN-coated surface for enhanced hardness, wear resistance, and torque control.
Tissue-level C-Type implant featuring PVD TiN coating for smoother insertion and superior soft-tissue response.
Laser-surface–activated implant with high primary stability and rapid osseointegration. Available in NP 3.5 mm and RP 4.3 mm platforms.
Regular-platform (RP 4.3 mm) LSA implant providing secure placement in limited ridge width and high primary stability.
Tissue-level C-Type implant with laser-surface activation, RP platform, and optimized soft-tissue contour for long-term integration.
Confidence in Every Insertion.
A complete internal hex dental implant system featuring titanium dental implants, abutments, healing caps, impression transfers, and laboratory analogs. Designed for precise fit, torque control, and restorative reliability in single-tooth and full-arch implant restorations.
Designed for Perfect Integration.
An advanced conical connection dental implant system including titanium implants, abutments, healing components, impression transfers, and analogs. Engineered for secure sealing, mechanical stability, and esthetic predictability in full-arch implant rehabilitations.
