Ürün Özellikleri
| Şartname | Detay / Değer |
| Ürün Adı | AnkaCATH Nörovasküler Distal Erişim Kateteri |
| Amaçlanan Kullanım | Nörovasküler müdahalelerde (örneğin, inme trombektomisi, anevrizma sarmallaması) distal erişimi kolaylaştırır |
| Kateter Tasarımı | Tork ve itme için örgülü veya sarmal şaft, atravmatik navigasyon için daha yumuşak distal segment |
| Malzeme | Paslanmaz çelik veya nitinol takviyeli Pebax/Poliamid |
| Dış Çap (F) | ~3F–5F (ürün koduna bağlı olarak) |
| İç Lümen | Mikrokateterlerle (0,016–0,027” ID) veya doğrudan cihaz geçişiyle uyumludur |
| Çalışma Uzunluğu | ~90–125 cm (koda göre değişir) |
| İpucu Yapılandırması | Yumuşak, radyoopak distal uç, potansiyel olarak hidrofilik kaplama |
| Radyoopak İşaretleyiciler | Hassas floroskopik izleme için distal bölgeye yakın 1–2 |
| Kılıf/Kılavuz Uyumluluğu | Genellikle proksimal destek için 6F veya 7F kılavuz kateterler |
| Kısırlık | Steril, Tek Kullanımlık |
| Raf ömrü | ~15–25 °C'de kapalı ambalajda saklanırsa 2–3 yıl |
| Klinik Endikasyonlar | İntrakranial trombektomi, anevrizma koilleme, distal AVM kateterizasyonu |
| Kontrendikasyonlar | Uygun erişimin ötesinde aşırı kıvrımlı veya dar intrakranial damarlar, bilinen cihaz malzemesi alerjisi |
Sipariş ve Boyut Matrisi
| Dış Çap (F) | Çalışma Uzunluğu (cm) | Lümen ID (inç) | Ürün Kodu | Notlar |
| 3F | 90 | 0,016” | ANK-NV-3F-90-016 | Mikroanevrizma veya distal inme müdahaleleri için daha küçük OD |
| 3F | 105 | 0,016” | ANK-NV-3F-105-016 | Daha uzun yaklaşım, aynı küçük lümen |
| 4F | 90 | 0,021” | ANK-NV-4F-90-021 | Orta düzeyde nörovasküler görevler için ortak distal erişim |
| 4F | 105 | 0,021” | ANK-NV-4F-105-021 | Daha derin intrakraniyal navigasyon için uzatılmış uzunluk |
| 4F | 125 | 0,021” | ANK-NV-4F-125-021 | Uzun boylu hastalar veya karmaşık anatomiler için maksimum uzunluk |
| 5F | 105 | 0,027” | ANK-NV-5F-105-027 | Mekanik trombektomi cihazları için daha büyük lümen |
| 5F | 125 | 0,027” | ANK-NV-5F-125-027 | Gelişmiş nöro cihazlar için maksimum uzunluk artı geniş ID |
Navigate with Precision and Reach with Confidence Using the AnkaCATH
•AnkaCATH is designed for distal placement into the neurovasculature, providing intracranial support and a wide range of device compatibility.
Experience Superior Performance and Unmatched Access
•Exceptionally soft distal segment allows for excellent navigability and trackability into distal anatomy, enabling the AnkaCATH Catheter to provide support close to the treatment site.
Hybrid Design for Maximum Performance
•Hybrid Braid and Coil Design provides 1:1 push/pull control for enhanced trackability.
•Coil reinforcement provides lumen integrity, flexibility and excellent shape retention.
•Proximal variable pitch braid reinforcement provides support and torque control.
•Material: Constructed with a durable, biocompatible Hybrid Braid and Coil Design for enhanced stability.
•Length: Extended sheath length to facilitate access to distal vascular territories.
•Flexibility: Engineered to provide optimal flexibility while maintaining structural integrity.
•Diameter Range: Available in various sizes to accommodate different procedural needs.
•Radiopacity: Enhanced radiopacity for improved visualization under imaging.
•Kink Resistance: Superior hybrid design offers excellent resistance to kinking and deformation.
•Hemostasis: Efficient hemostatic properties to minimize blood loss during procedures.
•Compatibility: Compatible with a wide range of interventional devices and guide wires.
•High bending resistance with excellent torque control and optimum push through from proximal shaft to the distal end.
•Available in a variety of sizes, the AnkaCATH Catheter to diverse procedural requirements, ensuring a perfect fit for every patient.
•The enhanced radiopacity of the sheath allows for excellent visualization under imaging, aiding clinicians in precise navigation and placement.
•Unique hybrid braided design provides stability and support throughout the procedure, providing a sturdy yet flexible solution for expanded vascular access.
•This design contributes to the sheath’s exceptional bending resistance, maintaining integrity even in the most demanding situations.
•The rounded tip and flexible distal zone on the Distal Access Catheter are designed for confident advancement into fragile distal vessels.
•The design of Distal Access Catheter is designed for closer placement to the treatment site. Focus on the intervention, not access challenges.
Variable Stiffness & Braided Shaft
•PE/PEBAX Outer: Balances proximal rigidity for pushability with distal softness for atraumatic navigation in neurovasculature.
•Reinforced Design: A braided core ensures torsional stability, kink resistance, and secure device passage, even in sharply curved intracranial segments.
Non-Conical Large Lumen
•Generous Inner Diameter (0.071” – 0.075”): Accommodates multiple interventional devices or larger guidewires (up to 0.035”), reducing the need for multiple catheters.
•PTFE-Lined: Low-friction lumen supports smooth device transitions, crucial in time-sensitive stroke or aneurysm care.
Hydrophilic Distal Coating
•Friction Reduction: The final centimeters of the distal segment are coated with a slippery surface, easing catheter advancement or repositioning through challenging anatomies.
•Vessel Protection: Minimizes endothelial trauma and reduces the risk of vasospasm or dissection during repeated manipulations.
Radiopaque Marker & Visibility
•1 mm Marker at 2 mm from the Distal Tip: Distinct fluoroscopic marking for precise tip placement, vital in intracranial interventions.
•Radiopaque Distal Segment: Facilitates continuous imaging guidance under X-ray to confirm safe navigation and device deployment.
Multiple Sizes & Lengths
•Proximal Profiles (4F, 5F, 6F): Offer varied support levels, addressing a range of patient anatomies and procedure complexities.
•Usable Lengths (90 cm, 120 cm): Suitable for short or extended vascular paths, from moderate to more proximal femoral/radial entry routes.
Universal Hub Connection
•Luer-Lok Hub: Securely attaches accessories (e.g., hemostatic valve, flush lines), ensuring steady control of infusions or device insertions.
