TemREN PRO ათერექტომიის სისტემა

TemREN PRO ათერექტომიის სისტემა

TemREN PRO Atherectomy System; A ბრუნვითი ან მიმართულებითი ათერექტომიის სპეციალიზებული მოწყობილობა ნადების ამოკვეთა პერიფერიულ არტერიებში, რაც აძლიერებს ლუმენი აღდგენა ბაროტრავმის მინიმიზაციისას.

ინფორმაცია

TemREN represents a front-cutting atherectomy device engineered to mechanically debulk და clear plaque within peripheral arteries—especially in challenging PAD (Peripheral Arterial Disease) lesions. By combining დაბალი პროფილის design, direct lesion accessდა reduced vessel trauma, TemREN is poised to enhance both efficacy და procedural confidence in the ენდოვასკულარული management of systemic atherosclerosis.

Front Cutter
  • Direct Lesion Debulking: The front-cutting mechanism addresses atherosclerotic tissue at the lesion core, შემცირება the need for nosecone passage prior to cutting.
  • Minimized Vessel Trauma: By precise plaque shaving rather than forceful pushing, the cutter design aims to lower shear stress or vessel dissection risk.
  • Enhanced Deliverability: A streamlined catheter shaft navigates through tortuous pathways without unnecessary friction, improving trackability and pushability.
  • Wire Guidance: The over-the-wire approach allows stable lesion crossing, facilitating accurate lesion engagement and device alignment.
  • Mechanical Atheromatous Removal: Atherectomy can diminish plaque burden while preserving ან maximizing native vessel patency, potentially limiting adjunctive stenting.
  • Optimized Physiologic Remodeling: By clearing plaque from the lumen, flow dynamics are restored with lower reliance on metallic implants.
  • Femoral, Popliteal, and Infrapopliteal Vessels: Suitable for a range of peripheral segments typically subjected to high shear stress from stenting or angioplasty alone.
  • Adjunct to Balloon Angioplasty: Enhances the efficacy of subsequent balloon dilation or drug delivery.
  • Direct Lesion Debulking: The front-cutting mechanism addresses atherosclerotic tissue at the lesion core, შემცირება the need for nosecone passage prior to cutting.
  • Minimized Vessel Trauma: By precise plaque shaving rather than forceful pushing, the cutter design aims to lower shear stress or vessel dissection risk.
  • Enhanced Deliverability: A streamlined catheter shaft navigates through tortuous pathways without unnecessary friction, improving trackability and pushability.
  • Wire Guidance: The over-the-wire approach allows stable lesion crossing, facilitating accurate lesion engagement and device alignment.
  • Mechanical Atheromatous Removal: Atherectomy can diminish plaque burden while preserving ან maximizing native vessel patency, potentially limiting adjunctive stenting.
  • Optimized Physiologic Remodeling: By clearing plaque from the lumen, flow dynamics are restored with lower reliance on metallic implants.
  • Femoral, Popliteal, and Infrapopliteal Vessels: Suitable for a range of peripheral segments typically subjected to high shear stress from stenting or angioplasty alone.
  • Adjunct to Balloon Angioplasty: Enhances the efficacy of subsequent balloon dilation or drug delivery.

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