Bridging clinical expertise and advanced manufacturing to design, validate, and deliver patient-specific solutions for personalized healthcare.
To transform healthcare through intelligent, patient-specific solutions that integrate clinical expertise, engineering innovation, and advanced manufacturing for better patient outcomes.
Four pillars spanning personalized healthcare, medical device innovation, training, and research.
From CT/MRI acquisition to clinical delivery — our workflow integrates imaging, engineering, and manufacturing at every step.
Patient imaging data acquired via CT or MRI scan.
Segmentation of anatomical structures using Materialise Mimics.
Generation of validated 3D anatomical models from segmented data.
Physical or digital pre-operative surgical planning.
Patient-specific implant and surgical guide design using Geomagic Freeform.
Finite Element Analysis (FEA) using 3DEXPERIENCE SIMULIA.
3D printing of validated implants, guides, and anatomical models.
Final clinical review and assessment ahead of surgery.
Validated solution delivered to the clinical team.
A government-supported centre bridging clinical expertise and advanced manufacturing for personalized healthcare.
Advanced surgical planning for complex clinical cases.
Patient-specific implants validated before surgery.
End-to-end workflow from CT scan to design to delivery.
Government-supported medical innovation centre with a research, training, and innovation ecosystem.
Dedicated laboratories and facilities covering the full path from medical imaging to additive manufacturing and training.
Physical and digital pre-operative planning for complex surgical cases.
CT/MRI segmentation and 3D anatomical reconstruction using Materialise Mimics.
Additive manufacturing of anatomical models, guides, and patient-specific implants.
High-fidelity scanning and reverse engineering for design and validation.
Immersive VR-based training for medical imaging, segmentation, and surgical planning.
Real patient-specific implant and digital surgical planning cases completed at TANCAM MIC.
Giant cell tumor of the distal radius requiring a patient-specific implant solution.
Implant design, validation, and manufacturing completed.
Giant cell tumor of the distal tibia requiring a patient-specific implant solution.
Implant design and manufacturing completed.
Soft tissue sarcoma near the tibia requiring digital surgical planning.
Segmentation, digital model development, and preoperative planning completed.
Femoral head tumor requiring digital surgical planning.
Segmentation, digital model development, and preoperative planning completed.
Total hip replacement (THR) for protrusio acetabuli.
Segmentation, digital model development, and preoperative planning in progress.
An end-to-end biomedical engineering stack — from medical imaging to engineering validation.
Medical imaging and segmentation for converting CT/MRI scans into validated 3D anatomical models.
Haptic-enabled design of patient-specific implants and surgical guides.
Finite Element Analysis (FEA) for engineering validation of implant and guide designs.
All patient scan data is encrypted in transit (TLS 1.3) and at rest (AES-256). Files are stored in private, access-controlled cloud storage. No patient data is shared with third parties. Access is restricted to authorized clinical and engineering personnel only.
Experience the platform that is redefining precision for surgical teams across Asia's leading medical institutions.
"The 3D models provided by TANCAM are game-changers for complex orthopaedic reconstructions. My intraoperative time was cut significantly."
"The precision of their patient-specific cutting guides changed my approach to maxillofacial tumours. Truly world-class engineering support."
"Excellent DICOM to 3D platform. The 24-hour turnaround allows us to plan even semi-emergent cases with high confidence."
Get quick answers to the most common inquiries regarding our surgical planning and 3D modeling services.
Reach out for clinical collaboration, design & manufacturing support, or training & capacity building programs.