Design and Development Scale Up
Contract Manufacturing Raw Material
Polymer Treatment Sutureless Laminations ePTFE Sintering Microlayer Polymer deposition Dip & Spray Coating Post Processes
Fusicloth ePTFE Fusicloth Fabric ePTFE Membranes/ Sleeve Microlayer Tubing
Neurovascular Structural Heart Endovascular Peripheral Vascular
In today’s world of advanced medical technologies, precision is paramount, especially in the development of minimally invasive medical devices.
We are thrilled to announce that our team member, Elad Einav, was a recent guest on the Med-Ex podcast. He shared some fascinating insights about Medibrane’s innovative technology platforms…
The world of neurological surgeries is vast and complex, and so are its challenges:
Struggling with loading forces in your catheter? Watch our case study demonstrating the great value of Medibrane’s propriety “Selective bonding” technology…
Abstract: Leachables are traces of chemicals that may be found in medical devices originating from raw materials and fabrication processes that may result in exposure to patients….
A hypotube is a component in advanced minimally-invasive catheters used in the medical device industry. It is used for the deployment of self- or balloon-expandable medical devices…
Covered stents and scaffold-based medical applications are used to treat a variety of medical conditions in cardiology, gastroenterology, urology, Pulmonology, etc. ….
Covers with Selective Bonding Stent-grafts and scaffold-based medical applications are used to treat a variety of medical conditions in cardiology,….
Many medical applications require covering for a variety of clinical outcomes such as; leak prevention, tissue ingrowth of tissue restriction, managing blood flow, etc….
The base for every medical innovation is an idea waiting to become a product. Our team of experienced engineers will assist you in choosing the right polymer and technology…..
Medibrane’s unique technology, Sutureless lamination, was developed by our team of experts, following an ongoing journey to better understand medical device clinical requirements,….
ePTFE, expanded Polytetrafluoroethylene, is a lightweight, yet strong, biocompatible and biostable material, chemically inert, and so, resistant to degradation by biological fluids,…
