Indications

• Mechanical axis abnormalities (varus/valgus, rotation, recurvatum/antecurvatum).
• Joint step-off or incongruity.
• Post-traumatic deformities of the distal tibia.
• Congenital or developmental deformities.
• Loss of tibial length due to previous fractures, infections, or resections.

Benefits

• Mechanical assessment of the lower limb to determine the exact correction.
• Surgical simulation and analysis of the postoperative limb alignment.
• Quantification of the correction and planned shortening or lengthening.
• Precision drilling and osteotomy using patient-specific guides adapted to the patient’s anatomy.
• Personalized implant tailored to the corrected anatomy.
• Planned screw trajectory, diameter, and length according to the patient’s anatomy.
• Planned reconstruction with vascularized fibular allograft or iliac crest bone graft.

Indications

• Severe post-traumatic or degenerative arthritis with persistent pain and functional impairment.
• Nonunion, pseudarthrosis, or malalignment following previous tibiotalar or tibiotalocalcaneal arthrodesis.
• Sequelae of ankle, tibial pilon, or talar fractures.
• Residual rotational or angular deformities.

Benefits

• Personalized fusion angle tailored to the patient’s needs.
• Bone preparation of the contact surfaces using patient-specific guides adapted to the patient’s anatomy.
• Personalized implant designed to fit the corrected anatomy.
• Controlled and homogeneous compression.
• Planned screw trajectory, diameter, and length according to the patient’s anatomy.

Indications

• Osteochondral lesions of the talus.

Benefits

• Accurate identification of the osteochondral lesion.
• Patient-specific guides for precise resection and drilling, adapted to the patient’s anatomy.
• Preservation of healthy bone with complete removal of pathological tissue.
• Harvesting of the allograft with preplanned diameter, depth, and orientation to optimize joint congruence.