Bonevia
Direct factory supply featuring precision titanium constructs, certified joint repairs, and high-performance arthroscopy instrumentation.
Unmatched anatomical stability, reduced implant profiles, and advanced surgical flexibility in treating complex cervical pathologies.
Designed to accommodate delicate cervical anatomy. Polyaxial screws feature up to 45° of angular sweep, allowing surgeons to insert anchors with ease even in tight spaces, avoiding vertebral artery damage or nerve root conflicts.
Constructed entirely from premium ASTM F136 compliant Titanium Alloy (Ti-6Al-4V ELI). Provides optimal biocompatibility, eliminates MRI distortion, and ensures robust resistance to fatigue and construct subsidence.
Ultra-low profile design minimizes the footprint above the bone. This feature reduces tissue damage and helps prevent adjacent level disease and dysphagia, speeding up patient recovery.
A premier global innovator specializing in high-grade orthopedic implants and complex spinal/articular surgical solutions.
Established in 2015, Bonevia Orthopedic Technology has developed into a reliable, integrated manufacturer of premium orthopedic solutions. Backed by 6 years of export operations and over 10 years of spinal research expertise, we bridge the gap between advanced bio-materials and real-world clinical requirements.
Our state-of-the-art 320㎡ class-10,000 cleanroom and manufacturing facility features high-end multi-axis CNC machines and automated wire-cutters. We work with more than 850 global supply partners to guarantee steady material sourcing, dependable output, and competitive pricing for international distributors, clinics, and hospitals.
Fully Customizable Systems
CE-Certified Compliance
From raw medical-grade alloys to final double-sterile packaging, our facility ensures full compliance with medical device regulations.
How posterior cervical fixation technologies address structural aging and regional clinical variations.
The market for posterior cervical fixation systems is expanding due to an aging global population and rising rates of degenerative cervical conditions. Growth is focused on polyaxial pedicle screws and occipito-cervical constructs that offer biomechanical stability while reducing surgical times.
In North America and Europe, surgeons increasingly use minimally invasive spine surgery (MISS) to reduce trauma and speed recovery. In developing healthcare markets across Asia-Pacific and Latin America, hospitals seek cost-effective implants that meet rigorous CE/ISO standards.
Future trends point to 3D-printed porous titanium constructs that promote bone integration, along with navigation-ready surgical instruments. Integrated screw sleeves and smart tracking tags help surgical teams place implants accurately under real-time intraoperative guidance.
Engineered for durability and ease of use, with exact measurements to match diverse clinical requirements.
| System Component | Material Composition | Dimension Profiles | Design / Clinical Indication |
|---|---|---|---|
| Polyaxial Mass Screws | ASTM F136 Ti-6Al-4V ELI | Ø3.5mm - Ø4.5mm; L10mm - L30mm | Locking cap system with a self-tapping thread tip for lateral mass and pedicle bone purchase. |
| Smooth Connector Rods | Medical Grade Titanium / CoCr | Ø3.0mm, Ø3.2mm, Ø3.5mm | Pre-bent contouring rods that adapt smoothly to the physiological lordosis of the cervical spine. |
| Cervical Cross-Link Systems | Titanium Alloy | Adjustable Span: 25mm - 45mm | Provides rotational and torsional stability for long-segment cervical reconstructions. |
| Occipital Plates | Biocompatible Titanium (Grade 5) | Thickness: 2.0mm; Multi-hole configuration | Used for occipito-cervical fixation, featuring adjustable angle connectors for customized stabilization. |
Providing complete systems, sterile configurations, and manufacturing services to meet modern healthcare demands.
We supply ready-to-use surgical instrument kits, including torque-limiting drivers, trial templates, and plate benders. This consolidated approach helps reduce prep times and improves cleanroom efficiency.
Every batch undergoes strict inspection by our 35-person quality team. We provide complete material heat-traceability certs, bio-burden testing documentation, and CE/ISO registration files for smooth customs clearance.
Supported by our team of 85 development engineers, we offer custom sizing, specialized rod bends, and proprietary thread profiles to match unique regional surgical techniques.
Answers to common B2B procurement, engineering, and manufacturing questions.
Extending precision orthopedic technology to veterinary surgery and specialized surgical repair systems.