Composition: Fixed model part: Vagina, uterus, and adnexa (additional embryonal and uterine fibroids can be customized)
Procedure: the cystoscope, ureteroscope, and colposcope, biopsy devices.
Other characteristics: Based on the CT data of the Female reproductive system, this gynecological training model is designed and made of soft silica gel material.
As one of the leading medical simulator manufacturers, our Hysteroscopy Simulator provides highly realistic anatomical structures and operating environments. The models of the vagina, uterus, and adnexa (additional embryonal and uterine fibroids can be customized)are highly close to the relevant anatomical structures of the human body, and the operation feel is realistic.
Hysteroscope training model | MODEL: PLMN1001 (medical simulation training equipment) |
Main Material | Highly soft silica gel, hardness:18A~30A |
Product Size | Model length: 47 cm (18.5 in) |
Model width: 40 cm (15.7 in) | |
Model height: 18 cm (7.1in) | |
Lead Time | 15 days |
Port | Shanghai, China |
Dry lab training support
The PLMN1001 uterus anatomy model uses high-fidelity 3D anatomical models and advanced virtual reality technology. As one of the Endo Sim bestsellers, hysteroscopy simulator ensures that trainees can practice a variety of hysteroscopic operations in a liquid-free environment.
Wet lab training support
The PLMN1001 gynecological training model also performs well in a wet lab environment. The model uterus can simulate a real liquid environment, allowing trainees to practice operations under conditions close to actual surgery. High-resolution visual displays and realistic anatomical models reproduce the real internal structure of the uterine cavity, helping trainees become familiar with operating techniques in liquid media. The model of a uterus also supports the simulation of a variety of clinical scenarios, including bleeding, lesions, and tissue resection, providing a comprehensive clinical training experience.
Preclinic Medtech is a high-tech company dedicated to the development and promotion of high-simulation medical models.