TemREN PRO Atherectomy System

TemREN PRO Atherectomy System

TemREN PRO Atherectomy System; A rotationnel ou directional atherectomy device specialized for plaque excision in peripheral arteries, augmenting lumen restoration while minimizing barotrauma.

Information

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

Front Cutter
  • Direct Lesion Debulking: The front-cutting mechanism addresses atherosclerotic tissue at the lesion core, reducing 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 ou 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, reducing 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 ou 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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