Axiora Medical
Engineered to restore mobility and stability. Examine our key product selections deployed globally in Level I trauma centers.
Advanced Production Base
Industry Expertise
Annual Export Value
Supply Chain Partners
Modern internal osteosynthesis demands implants that not only resist physiological load states but also preserve local vascularity. Axiora’s anatomical locking plates function as internal fixators, combining dynamic compression with rigid angular stability.
Traditional compression plates rely heavily on plate-to-bone friction, which often compromises the periosteal blood supply, leading to bone necrosis or delayed union. The locking plate technology designed by Axiora circumvents this by utilizing threaded screw-plate connections. This mechanism transforms the construct into a rigid frame, ensuring that the plate does not need to be compressed tightly against the cortex. By maintaining a micro-gap between the plate and the bone surface, periosteal perfusion is preserved, accelerating biological healing pathways (secondary healing via callus formation).
Our locking plates are manufactured utilizing medical-grade titanium alloys (specifically Ti-6Al-4V ELI, conforming to ASTM F136 / ISO 5832-3) and premium stainless steels (316LVM, ASTM F138). These materials provide the ideal balance of fatigue strength, high corrosion resistance, and excellent biocompatibility, keeping implant failure rates close to zero under complex loads.
Unifying structural cost efficiency, industrial scale, and uncompromising quality controls.
Located within China's premier medical device cluster, Axiora leverages direct access to raw titanium mills, specialized heat treatment facilities, and advanced surface finishing labs. This dense ecosystem drastically reduces lead times and cuts intermediate logistics costs.
Our 18,600 m² factory floor runs 5-axis longitudinal cutting lathes and specialized machining centers around the clock. Automation guarantees highly repeatable tolerances (±0.005 mm) and scales seamlessly to accommodate bulk government tenders or global OEM orders.
By blending low structural overhead with high output and 100% in-house testing (tensile, fatigue, coordinate measurements), we offer savings of up to 40% compared to Western manufacturers, without shifting the risk profile onto clinical patients.
A professional manufacturer specializing in the research, development, production, and global supply of high-quality orthopedic implants and surgical instruments.
| Operating Factor | Details & Verified Specifications |
|---|---|
| Company Name | Axiora Medical Technology (China) Co., Ltd. |
| Brand | Axiora |
| Website | www.axioraortho.com |
| Established | 2017 |
| Factory Area | 18,600 m² |
| Annual Export Revenue | USD 26 Million |
| Export Experience | 8 Years |
| Industry Experience | 15 Years |
| Quality Inspection | 100% Finished Product Inspection & Incoming Material Inspection |
| Product Inspection Methods | Coordinate Measuring Machine (CMM), Tensile Testing, Hardness Testing, Surface Roughness Inspection, Salt Spray Testing |
| Quality Control Staff | 48 Dedicated Specialists |
| Business Type | Manufacturer & Exporter (OEM/ODM) |
| Main Markets | Europe, North America, Middle East, Southeast Asia, South America |
| Supply Chain Partners | 1,120 Globally Active Partners |
| Main Customer Types | Medical Device Brands, Importers, Distributors, Hospitals, Government Procurement Projects |
| R&D Capability | Independent Product Development, Reverse Engineering, OEM & ODM Solutions |
| Customization Options | Logo Printing, Private Label, Custom Packaging, Product Design, Material Selection, Drawing-Based Manufacturing |
| New Products Released Last Year | 126 Innovative SKUs |
| R&D Engineers | 86 Advanced Engineers |
Trace the 24 key manufacturing steps and high-tech equipment deployed at the Axiora facilities.
Commercializing orthopedic implants demands unwavering alignment with health authorities. Axiora removes regulatory friction by providing complete technical dossiers under key frameworks.
MDR (EU) 2017/745 & CE Certification: As Class IIb (implants) and Class Ir/I (instruments) devices, orthopedic locking plates must undergo rigorous conformity assessments. Axiora prepares complete Technical Documentation Files (TDF) containing clinical evaluation report summaries (CER), risk analysis according to ISO 14971, and biocompability data under ISO 10993. Our international team is fully geared to assist distributors with national registrations across the EU, Latin America, and Asia.
FDA 510(k) Fast-tracking: For distributors targetting US markets, we supply complete mechanical validation studies (static and dynamic fatigue testing under ASTM F382 protocols). Our raw material traceability certifies that every batch of titanium used originates from approved, medical-grade suppliers with mill test certificates readily available.
Cleanroom Control: Our final ultrasonic washing and packaging steps are executed in Class 100,000 (ISO Class 8) cleanrooms. Microbiological bioburden monitoring is performed regularly to guarantee absolute safety prior to sterilization (gamma radiation or ethylene oxide processing).
Adapting to modern surgical innovations and emerging demographic demands.
Modern clinical practices favor anatomically pre-contoured plates. Minimizing intraoperative bending not only reduces surgery times but preserves mechanical integrity by preventing stress concentration points. Axiora utilizes advanced 3D CT scan reconstruction modeling to verify that plate contours perfectly match ethnic-specific skeletal structures.
Surgically introducing implants through small incisions reduces soft tissue dissection and accelerates healing. Axiora designs corresponding carbon-fiber target guides and radiolucent instruments, facilitating precise submuscular plate insertion under C-arm fluoroscopy control.
With an aging global population, osteoporotic fractures are rising exponentially. Locking screws provide vital angular stability, avoiding screw pullout in poor-quality cancellous bone. Our combi-holes allow surgeons to alternate between dynamic compression (using cortex/cancellous screws) and rigid locking configurations on the fly.
Crucial procurement insights and biomechanical explanations direct from our engineering desk.
Advanced spinal hardware, joint replacements, and specialized orthopedic tools designed for demanding clinical surgical settings.