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Sensor Business Division
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Sensor Business Division
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Sensor Business Division
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Sensor Business Division
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Neurovascular Segment Model – Brain Parenchyma Edition
The liver and kidney artery model consists entirely of an acrylic housing paired with a highly realistic, soft silicone vascular model.
Keywords:
隐藏域元素占位
Full Body Arteriovenous Model
The whole body arteriovenous model adopts a humanoid appearance design, including a transparent humanoid shell, a white hemodynamic platform, a high transparency soft silicone vascular model, touch screen fluid parameter setting, integrated design concept, and can be equipped with a multimodal fluid measurement and control system for real-time measurement and control of blood flow dynamics. The anatomical structure and dimensions of the vascular model are derived from real human CTA/MRI data, and are printed from 1:1 3D reconstruction. The vascular model material adopts high transparency soft silicone, with high simulation degree and friction coefficient close to real human blood vessels. The white blood flow platform has a dual pump system with one circulation pump and one heart pulsation pump built-in. The simulated blood flow technology achieves consistency between the phantom and the real human blood flow mode. The built-in fluid touch screen can adjust various fluid parameters such as fluid temperature, pressure, flow rate, heart rate, etc., supporting the entire system to achieve the effect of simulating real human blood flow dynamics. This product strictly complies with domestic standards and FDA related requirements, and can provide professional and detailed literature support and data reports, effectively promoting the transformation of scientific research achievements.
Keywords:
隐藏域元素占位
Neurovascular Interventional Model (R&D)
The neurovascular model consists of a white hemodynamic platform equipped with a highly transparent soft silicone vascular model. It features a touch screen fluid parameter setting, integrated design concept, and can be equipped with a multimodal fluid measurement and control system for real-time monitoring of blood flow dynamics. The anatomical structure and dimensions of the vascular model are derived from real human CTA/MRI data, and are printed from 1:1 3D reconstruction. The vascular model material adopts high transparency soft silicone, with high simulation degree and friction coefficient close to real human blood vessels. The white blood flow platform is equipped with one heart pulsation pump, which simulates blood flow technology to achieve consistency between the phantom and the real human blood flow. It comes with a fluid touch screen that can adjust various fluid parameters such as fluid temperature, pressure, flow rate, heart rate, etc., supporting the entire system to achieve the effect of simulating real human blood flow dynamics. This product strictly complies with domestic standards and FDA related standard requirements (ASTM F3575-24), and can provide professional and detailed literature support and data reports on neurovascular anatomy, effectively promoting the transformation of scientific research achievements.
Keywords:
隐藏域元素占位
Full body Interventional Vascular Model
The full-body Interventional vascular model features a humanoid design with a transparent shell, a white hemodynamic platform, and a soft, high-transparency silicone vascular structure. Based on 1:1 human CTA/MRI data, it supports 90% of arterial interventions and advanced hemodynamic research. The dual-pump system, including a cardiac pulsatile pump, replicates realistic blood flow. A touch-screen interface enables real-time control of fluid temperature, pressure, flow rate, and heart rate. Compliant with FDA standards, the system includes detailed technical documentation to support scientific research and clinical translation.
Keywords:
隐藏域元素占位
Microparticle Testing System
Based on the development of silicone lubricating coating technology and complex electromechanical systems, our company has launched a microparticle testing system for evaluating the adhesion durability of hydrophilic coatings on intravascular catheters and guidewires using the vascular model friction method specified in YYT 1898-2024. We are currently the only manufacturer in China that provides a complete solution for this test. The system comprises a lubricated vascular model, a temperature control unit, a pump circulation system, and a microparticle detector. The vascular model is 3D-printed with our proprietary bionic elastic silicone, and its inner wall is treated with our unique coating process, offering near-real vascular lubrication and strong adhesion. Catheters and guidewires can be smoothly advanced and retracted without additional lubricants or contaminants. The temperature and circulation systems provide a stable bionic fluid environment according to industry standards, and the pump adopts a non-contact drive to prevent extra particle generation. The high-precision detector delivers accurate microparticle data to assess coating durability, supporting vascular interventional devices with lubricious coatings and helping enterprises and research institutions improve quality, enhance R&D efficiency, and ensure product safety and effectiveness. The system complies with the Guideline for Registration Review of Vascular Interventional Devices with Lubricious Coatings issued by the NMPA CMDE and the testing requirements of the Chinese Pharmacopoeia (CHP), ensuring standardized and comparable results.
Keywords:
隐藏域元素占位
Respiratory Endoscopy Training Model
The vascular model is made from highly transparent, soft silicone material, offering a high degree of simulation and a friction coefficient that closely matches that of real human blood vessels.
Keywords:
隐藏域元素占位
Rigid Aortic Dissection Model
Rigid Aortic Dissection Model,1:1 scale accurately replicates the real anatomical structure, including ascending aorta, thoracic aorta, and aortic dissection.
Keywords:
隐藏域元素占位
Rigid Intracranial Aneurysm&Flow-Diverter Stent Model
Rigid Intracranial Aneurysm&Flow-Diverter Stent Model,1:1 scale accurately replicates the real anatomical structure, including carotid artery, balloon, flow-diverter stent, plaque stenosis.
Keywords:
隐藏域元素占位
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