Medisplint
Advanced cannulated locking systems engineered to provide optimal interfragmentary compression with micro-invasive fluoroscopic guidance.
Nagoya, as the central economic engine of Japan's Chubu region, maintains an exceptionally high standard for medical hardware. With an aging demographic shifting healthcare priorities, orthopedic clinics require implants that accelerate patient mobilization. The integration of surgical robots and fluoroscopic navigation inside advanced operating suites demands implants manufactured with extreme dimensional repeatability.
To supply municipal hospitals, trauma units, and universities across Nagoya, exporters must reconcile high mechanical load performance with strict regulatory conformity. Our manufacturing line uses surgical-grade titanium alloys (Ti-6Al-4V ELI) to match the rigorous requirements of Japanese clinicians who prioritize bone preservation and mechanical efficiency.
Our hollow-core cannulated screws allow orthopedic surgeons in Nagoya to use guide wires for precise insertion, reducing surgical window sizes and accelerating bone healing in joint-adjacent fractures.
With Japan's focus on senior osteosynthesis rehabilitation, our self-tapping, low-profile Herbert-type screws offer superior compression in low-density cancellous bone profiles.
How we design next-generation osteosynthesis systems that secure mechanical integrity and biological integration.
We source only medical-grade Ti-6Al-4V ELI (ASTM F136). This alloy provides superior tensile strength while maintaining a low elastic modulus comparable to human bone, which prevents stress shielding in the patient.
Designed with differential pitch ratios (Herbert type), our screws pull bone fragments together during the final thread rotations, achieving optimal interfragmentary compression without using head collars.
We offer electrochemical type-II anodization and acid-etched micro-roughening options. These surfaces improve mechanical interlocking and promote stable osteoblast attachment at the healing interface.
| Property / Parameter | Specification Target | Clinical Benefit |
|---|---|---|
| Material Composition | Ti-6Al-4V ELI (ASTM F136, ISO 5832-3) | Biocompatibility, high fatigue limit, zero corrosion. |
| Outer Diameter Range | 2.4mm, 2.5mm, 3.0mm, 3.5mm, 4.0mm, 4.5mm, 6.5mm, 7.3mm | Adapts to various skeletal structures (from scaphoid to femoral neck). |
| Guide Wire Channel | 1.1mm to 3.2mm (Hollow Core) | Enables precise, fluoroscopically-guided wire placement. |
| Tensile Strength Limit | ≥ 860 MPa | Prevents screw breakage under peak postoperative loads. |
| Certification Standards | ISO 13485, CE Mark, PMDA Pathway Registered | Ensures compliant import and utilization within Japanese hospitals. |
A leading OEM/ODM manufacturer specializing in orthopedic implants, fixation systems, and high-precision trauma reconstruction tools.
Founded in 2016, Medisplint Orthopedic Instruments Co., Ltd. has established a comprehensive framework for design, development, and international manufacturing. Operating from an 18,500㎡ modern manufacturing center, the company processes high-precision implants, supporting surgical procedures across Europe, Southeast Asia, the Middle East, South America, and Japan's industrial hubs.
With an annual export revenue of approximately USD 12 million, over 7 years of specialized medical export experience, and 10 years of overall orthopedic development history, Medisplint leverages robust processing equipment to guarantee implant safety. Our quality management system maintains full CE compliance and ISO 13485 certification, backed by a quality control department of 42 inspectors performing rigorous mechanical validation.
Our quality assurance department spans incoming raw material evaluation, In-Process Quality Control (IPQC), Final Quality Control (FQC), and third-party laboratory verification. Utilizing fatigue and tensile testers, we ensure every batch of hollow cannulated screws meets the mechanical load profiles demanded by surgeons.
Visual tour of our state-of-the-art facilities, specialized machining equipment, and mechanical verification laboratory.
Engineered for high-strain anatomical sites requiring controlled stability and micro-surgical options.
Ensuring delivery timeline stability, custom medical packaging, and responsive logistical support to the Chubu region.
We provide implants in bulk non-sterile packaging for clinical washing/sterilization cycles, or pre-sterilized single-use blister packs ready for immediate sterile field entry.
Our engineering team can modify thread lengths, drive configurations (star, hex, or torx), and pitch profiles to align with existing surgical instrument kits in Nagoya.
Shipping channels routed from China to Nagoya Port or Chubu Centrair International Airport ensure short transit windows for high-priority clinical inventory.
Select from our core selection of certified compression screws, surgical instruments, and trauma systems.
Key information regarding compliance pathways, engineering parameters, and shipping logistics.
We supply raw materials testing documents, dimensional inspection data sheets, and ISO 13485 certification details. Our export specialists coordinate with local Japanese primary distributors to complete foreign manufacturer registration and product application files.
We use exclusively Ti-6Al-4V ELI (Extra Low Interstitial), conforming to ASTM F136 and ISO 5832-3 standards. This material features reduced levels of oxygen, nitrogen, and iron, providing high fracture toughness and biocompatibility.
Yes, we design and produce corresponding orthopedic instrument kits—including step drills, depth gauges, guide wires, and screwdrivers—to match our screw systems, available for surgical testing evaluations.
Standard OEM order production takes 30 to 45 days. Shipments routed to Nagoya Port or Chubu Centrair International Airport typically arrive within 5 to 10 working days after departing our facility.
Discuss custom specifications, sizing options, regulatory compliance documents, and bulk pricing schedules for the Japanese market.
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