The advanced tracheotomy and intubation training model is of great significance in clinical teaching and skills training. This model highly reproduces the anatomical structure of the human neck, including the skin, trachea, thyroid cartilage, annular cartilage and surrounding tissues, with a realistic texture. It can be trained for the entire process of operations such as incision, separation, dilation and intubation.
Product features and functions
1: It marks the standard anatomical position of the trachea, allowing the trachea to be touched by hand for incision positioning.
2: Simulate the patient's supine position with neck extension;
3: Traditional percutaneous tracheotomy can be performed, including different types of incisions: longitudinal, transverse, cross-shaped, U-shaped and inverted U-shaped incisions.
4: It is possible to conduct puncture and incision training for the conchal cartilage ligament.
5: It allows users to determine the correct incision position when identifying the arterial location and can be observed from the head. The internal operation of the neck;
6: Equipped with multiple simulated tracheas and neck skin;
By using this model, medical staff can repeatedly practice tracheotomy and intubation techniques in a risk-free environment, familiarize themselves with surgical procedures, master the correct incision position and intubation Angle, which helps to reduce accidental injuries and complications during clinical operations. Some advanced models are equipped with electronic sensing and feedback systems, which can monitor the operation time, force and position in real time, assess the skill level of trainees, and simulate sudden situations such as respiratory bleeding and secretion blockage to enhance emergency response capabilities. This model is not only applicable to the training of medical staff in otolaryngology, critical care medicine and emergency departments, but also can play a role in the pre-hospital emergency system, helping rescue personnel quickly and accurately establish artificial airways when patients' respiratory tracts are severely blocked and traditional intubation cannot be implemented. Through systematic training, medical staff can deal with the challenges of critical airway management more calmly in real clinical practice, thereby improving the survival rate of patients and the success rate of rescue