Cervical Fluoroscopy Spine Surgery Simulator for C-Arm Guided Training
Product Specification Sheet
Cervical Fluoroscopy Spine Surgery Simulator for C-Arm Guided Training
Model Number: MT-SP008
The Cervical Fluoroscopy Spine Surgery Simulator is an advanced training model designed for upper spine surgical procedures and imaging-based interventions. It features realistic cervical spine anatomy with fluoroscopic compatibility for C-arm guided training. Ideal for medical colleges, hospitals, and surgical workshops, this model from Micro Technologies provides an ethical, cost-effective, and practical alternative to cadaver-based training while enhancing clinical precision and skills.
Product Specification
The Cervical Fluoroscopy Spine Surgery Simulator for C-Arm Guided Training is a high-fidelity medical simulation model developed to replicate the anatomy of the upper spine. It includes a detailed cervical spine structure from the occiput to T1, along with posterior ligament representation, ensuring anatomical accuracy for surgical training.
This simulator supports both anterior and posterior surgical approaches, allowing users to practice procedures such as implant placement, including cages, plates, and screws. The bones are coated with an X-ray opaque material, enabling realistic fluoroscopic imaging under a C-arm system for guided procedures.
Its versatile design allows trainees to perform multiple surgical techniques in realistic conditions, making it ideal for workshops and hands-on demonstrations. Built with durable materials, it ensures long-term usability. Micro Technologies offers this advanced simulator as a reliable solution for improving spine surgery skills, imaging accuracy, and clinical training outcomes.
Features
- Cervical spine model from occiput to T1
- Includes posterior ligament structure
- Supports anterior and posterior surgical approaches
- X-ray opaque bones for fluoroscopy training
- Suitable for implant placement (cages, plates, screws)
- Realistic anatomical design for spine procedures
- Durable and reusable construction
Benefits
- Enhances accuracy in cervical spine surgical procedures
- Provides realistic fluoroscopy-guided training experience
- Supports multiple surgical techniques and approaches
- Offers ethical and cost-effective training solution
- Ideal for workshops, demonstrations, and clinical education
Product Specifications
| Specification | Details |
|---|---|
| Product Name | Cervical Fluoroscopy Spine Surgery Simulator |
| Model No. | MT-SP008 |
| Type | Medical Training Simulation Model |
| Material | High-Quality Synthetic Material with X-ray Opaque Coating |
| Size / Model | Cervical Spine Model (Occiput to T1) |
| Usage | Medical, Radiology, Orthopedic & Training Institutes |
FAQs
What procedures can be practiced using this cervical spine simulator?
This simulator allows users to practice cervical spine surgical procedures including implant placement such as cages, plates, and screws. It also supports both anterior and posterior surgical approaches, making it versatile for training.
How does fluoroscopic compatibility improve training?
The model features X-ray opaque bones, allowing it to be used under C-arm imaging. This enables users to practice real-time guided procedures and understand anatomical positioning with high accuracy.
Is this model suitable for professional surgical training?
Yes, the simulator is designed for use in medical colleges, hospitals, and surgical workshops. It provides realistic anatomical structures and supports advanced surgical techniques for professional training.
Can the simulator be used repeatedly?
Yes, the model is constructed with durable materials that allow repeated use in training environments. It is designed to withstand intensive use while maintaining performance and realism.
Why Choose Our Products
- Manufactured with premium-grade materials for high performance
- Designed for durability and long-term repeated use
- Provides realistic training for accurate skill development
- Trusted by medical institutions, hospitals, and training centers
