Product Center
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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
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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
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
Upper GI Endoscopy Model
The Upper Gastrointestinal(GI) Model consists of an upper endoscopy model and corresponding pathological modules. It is made of biomimetic elastic silicone and 3D printed using a patented silicone formulation based on real human CT/MRA data. The model reproduces the spatial structure, curvature, and precise dimensions of the upper digestive tract at a 1:1 scale, simulating pathological conditions such as ulcers, polyps, and tumors, perfectly supporting endoscopic instrument simulation and training.
Keywords:
隐藏域元素占位
Colonoscopy (Lower GI) Model
The Lower Gastrointestinal (GI) Model consists of a lower GI endoscope with supporting pathological modules, real surgical instruments, and teaching management software. The model is made of biomimetic elastic silicone and 3D printed based on real human CT/MRA data to reconstruct the human lower GI tract. It reproduces the spatial structure, curvature, and fine dimensions of the human lower GI tract at a 1:1 scale, simulating pathological conditions such as polyps and tumors, and perfectly supports endoscopic instrument simulation and operation training.
Keywords:
隐藏域元素占位
ERCP Model
The ERCP Model consists of an endoscopic retrograde cholangiopancreatography model and its corresponding pathological modules. The model is made of biomimetic elastic silicone and is 3D reconstructed based on real human CT data of the pancreaticobiliary system. Using a patented silicone formula as the raw material for 3D printing, it reproduces the spatial structure, curvature, and fine dimensions of the human pancreaticobiliary system at a 1:1 scale. It simulates pathological conditions such as gastric ulcers, gastric cancer, esophageal polyps, and gastric polyps, perfectly supporting surgical instrument simulation for gastroscopy, duodenoscopy, guidewires, stents, and other procedures.
Keywords:
隐藏域元素占位
Bronchoscopy Model
The Bronchoscope Model consists of a bronchoscopy surgical model and corresponding pathological modules. Made of biomimetic elastic silicone and based on 3D reconstruction from real human CT/MRA data, the model is 3D printed using a patented silicone formula, reproducing the bronchial spatial structure, all branching levels, and fine dimensions at a 1:1 scale. It simulates foreign bodies and pathological conditions, fully supporting bronchoscopy and other surgical instrument simulation operations.
Keywords:
隐藏域元素占位
Hysteroscopy Model
The Hysteroscopy Model consists of a hysteroscope model and corresponding pathological modules. Made of biomimetic elastic silicone, it is 3D reconstructed from real human CT/MRA data to replicate the uterus and vaginal structures. Using a patented silicone formulation as the printing material, the model is 3D printed at a 1:1 scale to accurately reproduce the spatial structure, curvature, and fine dimensions of the human uterus and vagina. It simulates pathological conditions such as endometrial polyps and uterine fibroids, fully supporting instrument simulation for procedures like hysteroscopy and biopsy.
Keywords:
隐藏域元素占位
Urologic Endoscopy Model
The Urological Endoscopy Model consists of a ureteroscope model and corresponding pathological modules. Made of bionic elastic silicone, the model is 3D reconstructed from real human CT/MRA data to replicate the urinary system. Using a patented silicone formulation as the raw material for 3D printing, it reproduces the spatial structure, curvature, and precise dimensions of the human urinary system at a 1:1 scale, simulating realistic anatomy. Pathological structures can be customized, perfectly supporting procedural simulations such as cystoscopy, ureteroscopic lithotripsy, ureteral stricture incision, and retrograde ureteral catheterization.
Keywords:
隐藏域元素占位
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