VascuVac Tecnologías de trombectomía de vacío asistida por Ai

VascuVac Tecnologías de trombectomía de vacío asistida por Ai

Un sistema innovador que utiliza tecnología asistida por IA para una trombectomía de vacío eficaz, diseñado para eliminar rápidamente los trombos de los vasos sanguíneos, restablecer el flujo sanguíneo, y minimizar los riesgos del procedimiento en intervenciones vasculares.

Información

VascuVac Ai is an innovative, AI-assisted vacuum thrombectomy solution designed to rapidly y efficiently remove both arterial and venous thrombi, offering improved patient outcomes and streamlined procedural workflows. By integrating advanced vacuum aspiration with real-time AI analytics, VascuVac facilitates objetivo clot extraction while minimizing collateral vessel damage—mejorar safety, speeding time-to-reperfusion, and supporting reduced re-interventions.

Key Features & Technology

AI-Assisted Clot Detection & Guidance
  • Real-Time Analytics: Built-in AI algorithms evaluate pressure, flujo rates, or imaging data to optimize clot capture, automatically adjusting suction parameters.
  • Adaptive Suction Control: Minimizes vessel trauma by modulating vacuum force, ensuring precise clot engagement rather than generalized suction.
  • Powerful Aspiration: Generates a consistent negative pressure to draw thrombus directly into the catheter’s lumen.
  • Low Profile & Flexible Catheter: Navigates tortuous anatomies, crossing tight stenoses or occlusions with minimal risk of vessel injury.
  • Real-Time Feedback: Pressure or flow sensors within the catheter tip provide immediate feedback to the AI module, refining suction and retrieval approach.
  • Reduced Fragmentation: By maintaining a stable vacuum seal around the clot, the system cuts down risk of distal embolization or clot fragmentation.
  • Arterial & Venous Thrombectomy: Suitable for limb-threatening ischemia, deep vein thrombosis, pulmonary embolism (depending on local guidelines), or other obstructive events.
  • Adjunct to Lytic Therapies: Optionally integrates with catheters that deliver lytic agents, assisting pharmaco-mechanical thrombectomy.
  • Real-Time Analytics: Built-in AI algorithms evaluate pressure, flujo rates, or imaging data to optimize clot capture, automatically adjusting suction parameters.
  • Adaptive Suction Control: Minimizes vessel trauma by modulating vacuum force, ensuring precise clot engagement rather than generalized suction.
  • Powerful Aspiration: Generates a consistent negative pressure to draw thrombus directly into the catheter’s lumen.
  • Low Profile & Flexible Catheter: Navigates tortuous anatomies, crossing tight stenoses or occlusions with minimal risk of vessel injury.
  • Real-Time Feedback: Pressure or flow sensors within the catheter tip provide immediate feedback to the AI module, refining suction and retrieval approach.
  • Reduced Fragmentation: By maintaining a stable vacuum seal around the clot, the system cuts down risk of distal embolization or clot fragmentation.
  • Arterial & Venous Thrombectomy: Suitable for limb-threatening ischemia, deep vein thrombosis, pulmonary embolism (depending on local guidelines), or other obstructive events.
  • Adjunct to Lytic Therapies: Optionally integrates with catheters that deliver lytic agents, assisting pharmaco-mechanical thrombectomy.

Clinical Advantages & Applications

Prompt Restoration of Blood Flow
  • Rapid Debulking: The robust vacuum quickly extracts large clot burdens, restoring perfusion and reducing ischemic damage.
  • Shorter Procedure Times: AI-driven automation helps reduce repeated passes or catheter exchanges, streamlining the overall thrombectomy workflow.
  • Targeted Suction: Real-time sensor feedback prevents excessive negative pressure or abrupt aspiration.
  • Fragmentation Prevention: Maintains stable clot capture, preventing micro-emboli that can migrate distally and cause secondary occlusions.
  • Reduced Procedure Costs: Efficient clot retrieval often decreases total device usage, sedation time, or hospital resources.
  • Enhanced Safety: Automated suction control curtails vessel wall contact or over-torquing, mitigating potential complications.
  • Multiple Catheter Sizes: Range of diameters and lengths to match arterial vs. venous anatomies or specific lesion complexities.
  • Compatibilidad: Integrates with standard imaging or endovascular approaches, requiring no specialized large-bore introducers unless indicated.
  • Rapid Debulking: The robust vacuum quickly extracts large clot burdens, restoring perfusion and reducing ischemic damage.
  • Shorter Procedure Times: AI-driven automation helps reduce repeated passes or catheter exchanges, streamlining the overall thrombectomy workflow.
  • Targeted Suction: Real-time sensor feedback prevents excessive negative pressure or abrupt aspiration.
  • Fragmentation Prevention: Maintains stable clot capture, preventing micro-emboli that can migrate distally and cause secondary occlusions.
  • Reduced Procedure Costs: Efficient clot retrieval often decreases total device usage, sedation time, or hospital resources.
  • Enhanced Safety: Automated suction control curtails vessel wall contact or over-torquing, mitigating potential complications.
  • Multiple Catheter Sizes: Range of diameters and lengths to match arterial vs. venous anatomies or specific lesion complexities.
  • Compatibilidad: Integrates with standard imaging or endovascular approaches, requiring no specialized large-bore introducers unless indicated.

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