TAD insertion guide
Digitally Designed Indirect Bonding Trays for Skeletal Anchorage
Precision Is Critical for Skeletal Anchorage
TAD insertion accuracy directly impacts biomechanics, safety, stability, and predictability. Our service delivers orthodontist-driven digital planning that ensures every guide is designed with clinical intent and anatomical precision.
What We Design
Precision-Engineered Guides
TAD insertion guides designed for accurate placement, controlled angulation, and optimal depth in anatomically stable sites.
Universal Compatibility
Compatible with all TAD-based biomechanics and clinical indications—no system restrictions, no locked protocols.
Orthodontist-Controlled Planning
Planning is driven by the clinician's biomechanical strategy, force vectors, and anchorage requirements—not templates.
CBCT-Driven Accuracy
All guides are designed using CBCT and intraoral scan integration, enabling:
- Safe positioning in zones with adequate bone volume
- Controlled angulation and insertion depth
- Avoidance of critical anatomical structures
- Selection of stable cortical bone zones
CBCT integration is a core requirement for safety and stability. Without volumetric imaging, guides cannot account for bone quality, root proximity, or anatomical variability.
Designed Around Your Biomechanics
Force systems define placement—not the other way around.
Insertion guides are designed according to your intended force systems, anchorage strategy, and planned tooth movements. The guide reflects your biomechanical intent, not a generic template.
Anchorage strategy drives positioning.
Whether you're planning intrusion, distalization, retraction, or asymmetric mechanics, TAD placement is optimized for the force vectors you intend to apply.
Clinician-defined, digitally validated.
You define the biomechanics. We validate anatomical feasibility and translate your plan into a production-ready guide.
Digital Workflow
Step 01 — Clinical Prescription
The clinician defines the indication, biomechanics, and intended use of the TADs.
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Step 02 — CBCT & Intraoral Scan Fusion
CBCT data and intraoral scans are merged to accurately visualize bone anatomy and dental structures.
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Step 03 — Orthodontist-Planned TAD Positioning
Insertion depth, angulation, symmetry, and safety margins are planned by orthodontists based on biomechanical requirements.
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Step 04 — Production-Ready Guide Files
Final guide files are delivered ready for in-office or outsourced 3D printing.
Clinical Value
Higher Placement Accuracy
Digital planning eliminates freehand variability and ensures every TAD is placed exactly where intended.
Improved Safety
CBCT-based design avoids root proximity, sinus perforation, and nerve contact, reducing clinical risk.
Greater Biomechanical Predictability
Consistent placement translates to consistent force delivery, improving treatment outcomes and reducing TAD failure.
Open Workflow & Full Control
No locked systems. No proprietary appliances. No imposed protocols.
You retain full control over TAD brand, appliance design, and activation mechanics. Our guides are designed to fit your workflow—not replace it.
Conclusion
Skeletal anchorage is only as effective as the precision with which it is placed. Digital planning transforms TAD insertion from a freehand procedure into a controlled, reproducible clinical protocol.
👉 Try one TAD insertion guide with us and experience CBCT-driven precision done the orthodontic way.