Engineered for Radiolucency
Our polymer implant systems are designed around biomechanical matching, imaging clarity, and clinically validated performance — starting with research at IIT Delhi and ending with patient-ready clinical adoption.
Evidence-led design for real-world outcomes
Every ANATOMICA system is validated through biomechanical testing, clinical workflows, and radiology-safe design so surgeons can plan confidently and assess healing clearly post-operation.
Biomechanical Matching
PEEK-OPTIMA® modulus tuned for load-sharing with cortical bone to reduce stress shielding risk.
Imaging Clarity
Radiolucent implants support unobstructed X-ray and CT interpretation with less post-op artifact interference.
Clinical Workflow Fit
Surgical technique documentation, distributor support, and patient-ready device readiness aligned to clinical realities.
Science-First Engineering
Every ANATOMICA implant begins as a research hypothesis at IIT Delhi and exits as a clinically validated, CDSCO-compliant device.
Biomechanical Studies
Peer-reviewed studies on PEEK fixation strength
Load Cycles Tested
Fatigue validation cycles per implant design
Modulus Match
Elastic modulus similarity to cortical bone
Year Founded
IIT Delhi joint research partnership initiated
Research Timeline
Material Research Begins
IIT Delhi biomaterials lab initiates PEEK-OPTIMA® characterisation studies for Indian patient anatomy.
First Biomechanical Validation
Four-point bending and torsional fatigue tests confirm PEEK locking plate matches titanium in 4-cortex constructs.
Anatomica Founded
Research team spins out to commercialise PEEK implant technology. CDSCO registration process initiated.
Clinical Cadaveric Studies
Proximal tibia and distal radius cadaveric biomechanics at AIIMS confirms equivalent fracture fixation stability.
First Surgeon Cases
Controlled pilot cases at partner hospitals. Six-month follow-up shows zero hardware failure, clear healing X-rays.
Join the polymer engineering team
We’re looking for engineers and clinicians who enjoy turning research into dependable medical-device outcomes.
Biomedical Engineer
Validation, testing, and biomechanics modelling.
Open applications
3D Visualization Specialist
GLB pipelines, rendering QA, and UX performance.
Open applications
Regulatory & Clinical Ops
Documentation workflows and clinical readiness.
Open applications
Full-Stack Developer
Next.js product UX with performance and accessibility.
Open applications