Innovation to unleash potential.
Thin film nitinol (TFN) has unique mechanical properties, excellent biocompatibility, and an ultra-smooth surface, as well as shape memory behavior. All these features along with its ultra low-profile physical dimension make this material an ideal candidate in developing the next generation of medical devices.
We use fabrication techniques from the semi conductor industry to unleash the potential of the remarkable material.
Shape Memory
TFN adapts seamlessly to the smallest non-invasive techniques, ensuring optimal placement and efficacy.
Superelasticity
Thin film nitinol's unique flexibility mirrors the natural movement of the body, enhancing patient comfort and device integration.
Biocompatability
Nitinol's compatibility with the human body minimizes the risk of adverse reactions, making it a safer choice for implants.
Micrometer Thickness
Conventional devices are designed at the millimeter level. TFN unlocks building devices with biological units sizes at the micrometer level.
Introducing the Titan Flow Diverting Stent, a transformative solution in the management of brain aneurysms.
Born from the advanced methodologies of the semiconductor industry, this stent utilizes the exceptional properties of thin film nitinol, a material renowned for its flexibility and resilience.
Specifically tailored for the cerebral vasculature, the Titan Stent offers a unique combination of efficacy and flexibility, essential for precise and effective treatment of brain aneurysms. Its design unlocks access and precision placement placement the brain's complex vascular network, elevating the standard of neurovascular care.
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Embrace a new era in aneurysm management with the Titan Flow Diverting Stent, where cutting-edge technology meets unparalleled clinical precision.
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