English
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TOOLMED
TA3
/
/
1 Pcs
5-7 days
Product Description
Constructed from Ti6Al4V ELI (Extra Low Interstitial) alloy, ensuring high strength, excellent biocompatibility, and minimal interference with post-operative radiological imaging (MRI/CT).
Plates and screws are designed with an ultra-thin profile, reducing palpability and improving cosmetic outcomes, particularly critical in the facial and cranial areas.
The system offers a large selection of fixation components, including malleable mesh, straight strips, and pre-formed anatomical plates to address the vast complexities of skull and craniofacial defects.
Includes a range of self-drilling and self-tapping screws, allowing for simplified, faster placement and ensuring reliable fixation in the thin, dense cortical bone of the cranium.
Reattachment of the bone flap following a craniotomy procedure, including both fresh bone flaps and previously frozen/stored bone.
Fixation of fractures in the orbital, zygomatic, nasal, and frontal bones, particularly in complex defects.
Repair of skull defects due to tumor resection, osteomyelitis, or congenital anomalies using custom or standard mesh plates.
| Product name | Neurosurgery Restoration and Reconstruction System |
| Material | TA3 |
| Diameter | / |
| Length | / |
| Application | / |
| Certificate | CE Certificate |
| Brand | TOOLMED |
| MOQ | 1 Pcs |
| OEM | Avaliable |
| Package | PE Inner Bag+Carton |
| Payment Method | T/T,Bank transfer, Western Union |
| Delivery Time | 5-7 days |
| Shipping | DHL EMS UPS TNT FEDEX |
The Neurosurgery Restoration and Reconstruction System is a dedicated set of titanium implants (plates, screws) and specialized instruments used by neurosurgeons and craniofacial specialists. Its function is to provide long-term, stable fixation of bone fragments or bone grafts, primarily for reattaching the cranial bone flap (cranioplasty) and repairing traumatic or surgically created defects in the skull and facial skeleton.
Key applications include reattaching the bone flap following procedures like craniotomy, fixing fractures in the delicate facial structures (maxillo-facial trauma), and reconstructing areas of the skull or orbit using titanium mesh or custom plates. The system ensures the bone maintains its anatomical position during the healing and restoration process.
The primary advantage is the stability of fixation combined with a minimal profile. The titanium construction is highly inert and strong, providing permanent support without causing chronic inflammatory reactions. The low-profile design is particularly crucial for cranial implants, where minimizing the cosmetic bump or ridge under the scalp is essential.
The system is designed to provide rigid fixation, effectively neutralizing the small forces applied to the cranial bone flap. The micro-screws, in conjunction with the plates, provide compression and angular stability in the thin bone. This rigid fixation is critical for promoting primary bone healing and preventing movement that could compromise cerebral protection.
Following the primary neurosurgical procedure, the bone flap is repositioned. The surgeon selects the appropriate plate (often three or four are used) and molds it gently to the bone contour using bending pliers. The plate is secured to the skull using small, high-precision self-tapping screws, often utilizing a dedicated micro-drill (like the T-12) and torque-limiting screwdriver to prevent stripping the thin bone threads.
Due to the titanium material's inert nature, the risk of immunological rejection or chronic infection is extremely low. The stable fixation provided by the system eliminates the need for external bracing in the fixation area and ensures the patient has full cranial protection, supporting rapid wound healing and neurological recovery.
The Neurosurgery Restoration and Reconstruction System is a cornerstone product for safe and reliable craniofacial bone repair. Its use of high-quality titanium and its ergonomic design ensures stable, low-profile fixation, which is fundamental to successful outcomes in both elective and emergency neurosurgical and craniofacial procedures.
No. This micro-system is designed for the thin, delicate bone of the skull and face. Spinal fixation requires much larger, higher-torque plates, rods, and screws designed to withstand massive biomechanical loading.
Titanium is non-ferromagnetic, so the implants are safe in an MRI environment. They will, however, create a localized "artifact" (a small shadow or distortion) on the image, though this artifact is typically much smaller than that caused by stainless steel implants.
The system includes both. Self-drilling screws can create their own pilot hole and threads in one step, while self-tapping screws require a pre-drilled pilot hole before they cut the threads. Both simplify and speed up the fixation process.
Yes, the titanium plates and screws are intended to be permanent implants. They provide structural stability for the rest of the patient’s life unless their removal is required due to infection, fracture, or other complications.
The titanium plates in this system are malleable and can be gently contoured intraoperatively using specialized plate bending pliers supplied in the instrumentation set, allowing the surgeon to perfectly match the plate to the complex curvature of the skull.
We offer fast and reliable global shipping. Standard lead times range from 7 to 15 working days, depending on order quantity and customization requirements. Express delivery options are also available upon request.
Yes, we ship to most countries worldwide. We work with trusted logistics partners to ensure timely and secure delivery.
We accept a variety of payment options, including T/T (bank transfer), L/C, and PayPal for smaller orders. Payment terms can be discussed based on order volume and partnership agreements.
Yes, samples are available for evaluation. Please contact our sales team to request product samples and shipping arrangements.
Absolutely. We offer OEM/ODM services including custom packaging, branding, and product development tailored to your specifications.
