Valve Stent Microstructure Ni-Ti 7mm WT0.4mm
- Diameter: 7mm
- Wall Thickness: 0.4mm
- הרכב חומר: סגסוגת ניקל-טיטניום (Ni-Ti)
- הסמכה: ISO9001, ISO13485
Valve Stent Microstructure Ni-Ti 7mm WT0.4mm – advanced self-expanding valvular support
The Valve Stent Microstructure Ni-Ti 7mm WT0.4mm represents a state-of-the-art solution for interventional valve repair and replacement. Engineered with a precision Nitinol (Ni-Ti) microstructure, this self-expanding stent provides robust and adaptable support within the cardiovascular system. Its thin-walled design (WT0.4mm) and superior radial force minimize obstruction while ensuring optimal apposition, making it an innovative choice for complex anatomical challenges where sustained valvular integrity is paramount.
תכונות עיקריות:
- Self-Expanding Nitinol: Offers excellent shape memory and superelasticity for precise deployment and sustained radial force.
- Thin-Walled Design (WT0.4mm): Minimizes profile for easier delivery and reduces potential for flow obstruction.
- Optimized Microstructure: Ensures high fatigue resistance and long-term durability in dynamic physiological environments.
- Radiopaque Markers: Facilitate accurate visualization and precise placement during fluoroscopy.
- Biocompatible Surface: Promotes endothelialization and reduces thrombogenicity.
Certification and Standards:
Our Valve Stent Microstructure Ni-Ti 7mm WT0.4mm is manufactured under stringent quality control protocols, adhering to the highest international medical device standards, including ISO 13485:2016 and CE marking requirements. Each device undergoes comprehensive testing to guarantee its safety, performance, and efficacy in clinical applications.
ניטינול (NiTi), סגסוגת ניקל-טיטניום, ידועה באלסטיותה העל ובזיכרון הצורה שלה, מה שהופך אותה לפורצת דרך ביישומים רפואיים. עם חוזק מתיחה של עד 1200 מגה פסקל ומודול אלסטיות של 40-75 ג'יגה פסקל, ניטינול מצטיין בסביבות תובעניות.
The Valve Stent Microstructure Ni-Ti 7mm WT0.4mm is primarily indicated for use in interventional cardiology and vascular surgery for the treatment of valvular diseases. Its self-expanding design and precise microstructure make it suitable for a range of procedures where stable and long-term valvular support is required. Potential applications include, but are not limited to:
- Transcatheter heart valve repair or replacement procedures.
- Support for native or prosthetic valves in complex anatomical situations.
- Management of valvular stenosis or regurgitation.
- Procedures requiring precise and gentle deployment through minimally invasive approaches.
