VascuVac Ai is an innovative, AI-assisted vacuum thrombectomy solution designed to rapidly and 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 targeted clot extraction while minimizing collateral vessel damage—enhancing 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, flow 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.
High-Efficiency Vacuum Thrombectomy
•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.
Smart Catheter Sensor System
•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.
Multi-Indication Versatility
•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.
Less Vessel Trauma & Distal Embolization
•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.
Improved Patient Outcomes
•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.
Flexible Implementation
•Multiple Catheter Sizes: Range of diameters and lengths to match arterial vs. venous anatomies or specific lesion complexities.
•Compatibility: Integrates with standard imaging or endovascular approaches, requiring no specialized large-bore introducers unless indicated.
