The 3D Printed Interbody Fusion Cage is a cutting-edge medical device designed to support spinal fusion surgeries. Utilizing advanced 3D printing technology, it offers a highly customizable and biocompatible solution for patients requiring spinal stabilization. Its porous structure mimics natural bone, facilitating better integration and long-term stability.

1. The 3D Printed Interbody Fusion Cage stands out due to its unique porous structure, which promotes bone ingrowth and enhances fusion rates. The use of TC4 titanium alloy ensures durability and biocompatibility, making it suitable for long-term implantation.
2. Structurally, the cage is designed with precision to match the anatomical requirements of the spine. The SLM manufacturing process allows for intricate designs that traditional methods cannot achieve, ensuring a perfect fit and optimal performance.
3. In terms of application, this device is primarily used in spinal fusion surgeries to stabilize the spine and promote bone growth. It is compatible with various spinal fixation systems, making it versatile for different surgical needs.

The 3D Printed Interbody Fusion Cage, also known as the Spinal Fusion Cage, is a revolutionary product in spinal surgery. Its advanced design and material composition make it a reliable choice for surgeons aiming to achieve successful spinal fusion outcomes.

The 3D Printed Interbody Fusion Cage offers several key features, including a porous structure for bone ingrowth, high biocompatibility, and precise anatomical fit. These features make it an ideal choice for spinal fusion surgeries.

1. The porous structure of the cage mimics natural bone, promoting osteointegration and ensuring long-term stability. This feature is crucial for successful spinal fusion.
2. Made from TC4 titanium alloy, the cage is highly biocompatible, reducing the risk of adverse reactions and ensuring patient safety.
3. The SLM manufacturing process allows for precise customization, ensuring that each cage fits perfectly within the patient's spinal anatomy.
4. The cage is designed to be used with various spinal fixation systems, providing flexibility for different surgical approaches.
5. Its irradiation sterilization ensures that the product is safe for implantation, with a shelf life of 5 years.

The 3D Printed Interbody Fusion Cage is a versatile and reliable device for spinal fusion surgeries. Its unique features, such as the porous structure and biocompatibility, make it a preferred choice for surgeons and patients alike.

The 3D Printed Interbody Fusion Cage is widely used in clinical settings for spinal fusion surgeries. It is particularly effective in treating degenerative disc disease, spinal stenosis, and other spinal conditions requiring stabilization.

1. In cervical spine surgeries, the cage is used to stabilize the vertebrae and promote fusion, often in cases of degenerative disc disease or trauma.
2. For thoracolumbar surgeries, the cage provides support and facilitates bone growth, helping to correct deformities and stabilize the spine.
3. The cage is also used in revision surgeries, where previous spinal fusion attempts have failed, offering a reliable solution for complex cases.
4. In minimally invasive surgeries, the cage's design allows for easier insertion and reduced surgical trauma, leading to faster patient recovery.
5. The product is also used in pediatric spinal surgeries, where its customizable design ensures a perfect fit for younger patients.

The 3D Printed Interbody Fusion Cage has proven to be an invaluable tool in spinal surgery. Its clinical applications are vast, ranging from degenerative disc disease to complex revision surgeries, making it a versatile and essential device in modern medicine.

When purchasing the 3D Printed Interbody Fusion Cage, it is important to consider factors such as product specifications, types, budget, and intended use. This guide provides essential information to help make an informed decision.

1. Product specifications: Ensure that the cage meets the required dimensions and material standards, such as TC4 titanium alloy and compliance with GB/T 13810.
2. Product types: Choose between models MC-01B and ML-02B based on the specific surgical requirements and patient anatomy.
3. Budget considerations: While the cage is a premium product, its long-term benefits and durability justify the investment. Consider the overall cost of the surgery and the potential for reduced revision surgeries.
4. Usage scenarios: Evaluate the specific clinical needs, such as cervical or thoracolumbar surgeries, and ensure that the cage is compatible with the intended spinal fixation system.

Purchasing the 3D Printed Interbody Fusion Cage requires careful consideration of various factors. By understanding the product specifications, types, and intended use, healthcare providers can make informed decisions that benefit both the patient and the institution.

Proper handling and usage of the 3D Printed Interbody Fusion Cage are crucial to ensure patient safety and optimal surgical outcomes. This section outlines key precautions to consider before, during, and after surgery.

1. Preoperative planning: Ensure that the cage is the correct size and type for the patient's anatomy. Review imaging studies to confirm the appropriate model and dimensions.
2. Sterilization and handling: The cage is sterilized via irradiation and should be handled with care to maintain its sterility. Avoid exposing the product to contaminants before implantation.
3. Surgical technique: Follow the manufacturer's guidelines for insertion and placement. Ensure that the cage is properly seated and aligned with the spinal fixation system.
4. Postoperative care: Monitor the patient for signs of infection or complications. Provide appropriate rehabilitation and follow-up care to ensure successful fusion.
5. Storage and shelf life: Store the cage in a controlled environment and ensure that it is used within the 5-year shelf life to maintain its sterility and effectiveness.

The 3D Printed Interbody Fusion Cage is a sophisticated medical device that requires careful handling and usage. By adhering to the outlined precautions, healthcare providers can ensure the safety and success of spinal fusion surgeries, ultimately benefiting the patient's long-term health.