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Sensor Business Division
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Sensor Business Division
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Sensor Business Division
Phone: 0000-00000000
Fax: 0000-00000000
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Sensor Business Division
Phone: 0000-00000000
Fax: 0000-00000000
Peripheral Arteriovenous Vessel Model
The peripheral arteriovenous vessel 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 FDA standards 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
TACE Hepatic Artery Vascular Model
The TACE hepatic artery vascular model is composed of an acrylic box with a highly transparent soft silicone vascular model. The anatomical structure and size of the vascular model are derived from real human CTA/MRI data, and are printed from 1:1 3D reconstruction. The tumor morphology and size are derived from real human data. The vascular model material adopts high transparency soft silicone, with high simulation degree and friction coefficient close to real human blood vessels. An external intelligent teaching simulation pump is used to simulate blood flow technology, achieving consistency between the body model and real human blood flow. The 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 FDA standards 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
Electrophysiology (EP) Model
The Electrophysiological Model Pro adopts a humanoid appearance design, with a white hemodynamic platform and a high transparency soft silicone vascular model. It features a touch screen fluid parameter setting and 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. Equipped with one heart pulsation pump, the simulation blood flow technology achieves consistency between the phantom and the real human blood flow pattern. 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 FDA standards 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
TAVR Model
The TAVR model consists of a highly transparent soft silicone blood vessel model, a TAVR specific pump, a channel pressure measurement module, and a transparent water tank. 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 external TAVR dedicated pump carries an intelligent touch screen that can adjust flow rate, temperature, pulsation frequency, etc., supporting the simulation of arterial physiological flow conditions throughout the system, achieving the effect of simulating real human hemodynamics. 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
Transseptal Puncture Model
The room septum puncture model consists of a highly transparent soft silicone blood vessel model, a transparent acrylic bottom plate, and an acrylic water tank. Can be connected to an external pump or used for water injection. 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 partition of the room is made of ultra soft biomimetic puncture material, with a realistic puncture feel. 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
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