Trando 3D Bronchoscope Model Accelerates R&D and Testing of Airway Surgical Robots!

Trando 3D Bronchoscope Model Accelerates R&D and Testing of Airway Surgical Robots!

Trando 3D's independently developed and designed airway intervention training model provides a high-fidelity solution for the R&D and testing of intelligent airway diagnostic and treatment robots, facilitating a smoother development process! The model's specific features are as follows:

I. 1:1 Reproduction of Real Human Data, Accurate Anatomical Structure and Realistic Internal Texture

Trando 3D's model accurately replicates the anatomical structure of the human airway, with spatial position and internal texture highly similar to the real human body. The model's head is tilted back, and the entire structure includes: the oral cavity, nasal cavity, pharynx, left/right main bronchi, tracheal cartilage rings, and carina. The left/right segmental bronchi can reach 5 levels of branching, with some branch tips reaching level 7. The internal diameter is consistent with the internal dimensions of the real human body. The narrowing angle from the main bronchi to the subsegmental branches and the texture and feel of the tracheal mucosa are highly realistic. Furthermore, through special processing, the model is more stable when inserted into the endoscope, solving the problem of bronchial deformation caused by silicone collapse. The aforementioned highly realistic anatomical features allow R&D engineers to better assist in accurately testing the robot's navigation algorithms and flexible operation performance on the model, helping to achieve a leap from centimeter-level positioning to sub-millimeter-level recognition.

II. Customization of Multiple Lesions and Simulation of Multiple Surgical Scenarios

This bronchoscope can simulate pathological states such as foreign bodies and lesions in the trachea, including ulcers and polyps. Customizable replacement lesion blocks can be installed within the lumen for simulating endobronchial bronchoscopic examinations and treatments. Engineers and physicians can simulate CBCT-guided lesion biopsies and the shuttle control of multi-degree-of-freedom robotic arms on the model, experiencing the operational precision brought by the force feedback system in advance, making clinical practice more reliable.

III. Support for Multiple Instrument Operations

Engineers and physicians can use the model to perform a wide range of operations: not only simulating CBCT-guided lesion biopsies and multi-degree-of-freedom robotic arm shuttle control, but also supporting basic operations such as fiberoptic/electronic bronchoscopy, brushing, and endotracheal intubation, as well as specialized training in high-frequency electrosurgical units, snares, and endobronchial lasers. Trando 3D bronchoscopic interventional customized model is like a "dedicated testing ground" for intelligent surgical robots, clearing obstacles throughout the entire process from technology verification to clinical adaptation, and helping the core strengths of domestically produced robots to be transformed into clinical diagnosis and treatment capabilities more quickly.