Bronchoscopy Simulator Intervention Training Model A

The Bronchoscopy Simulator intervention training model simulates the branching structure of the human bronchial tree based on 3D modeling of human anatomical data. It can be reversed to a four-level bronchial branch configuration and is compatible with any commercially available real fiberoptic bronchoscope for procedural exploration training, sputum suction, foreign body removal, and other operations. Head A can be inserted into the bronchi via the mouth or nose, while head B can be directly inserted into the main bronchus. The model is reusable and cost-effective.

Bronchoscopy Simulator Intervention Training Model B

Bronchoscopy Simulator Intervention Training model

The Bronchoscopy Simulator intervention training model simulates the branching structure of the human bronchial tree based on 3D modeling of human anatomical data. It can be reversed to a four-level bronchial branch configuration and is compatible with any commercially available real fiberoptic bronchoscope for procedural exploration training, sputum suction, foreign body removal, and other operations. Head A can be inserted into the bronchi via the mouth or nose, while head B can be directly inserted into the main bronchus. The model is reusable and cost-effective.

The Bronchoscopy Simulator intervention training model simulates the branching structure of the human bronchial tree based on 3D modeling of human anatomical data. It can be reversed to a four-level bronchial branch configuration and is compatible with any commercially available real fiberoptic bronchoscope for procedural exploration training, sputum suction, foreign body removal, and other operations. Head A can be inserted into the bronchi via the mouth or nose, while head B can be directly inserted into the main bronchus. The model is reusable and cost-effective.

Pediatric Bronchoscopy Simulator Interventional Training Model

The Pediatric Bronchoscopy Simulator Training Model, composed of a head model, tracheobronchial model, base, and replaceable foreign body components, is designed based on children's lung CT data with soft silicone material. It supports procedures like pediatric laryngoscopy, bronchoscopy, and biopsy, featuring anatomical accuracy and realistic operation feel, with specifications including model size 68×40×35cm and material hardness 18A~30A.

Ultrasound Bronchoscopy Simulator Intervention Training Model

The Ultrasound Bronchoscopy Simulator Intervention Training Model by Frank is a soft silicone simulator based on adult lung CT data, replicating main airways and 2nd-5th level bronchi. It supports EBUS-TBNA training with seven enlarged lymph nodes, enabling ultrasound-guided needle aspiration and realistic procedural practice for respiratory endoscopy skills.

Bronchial Lumen Simulator Treatment Training Model

The Bronchial Lumen Simulator Treatment Training Model by Preclinic is a high-fidelity simulator made of soft silicone, designed based on adult lung CT data. It replicates human bronchial anatomy (main airways, 2nd-5th level bronchi) and supports procedures like bronchoscopy, biopsy, brush examination, and foreign body simulation, with replaceable components for repeated, cost-effective training.

Pediatric ENT Endoscopy Simulator Interventional Training Model

The ENT Endoscopy Simulator Surgery Training Model (FKEBNJ002) consists of a movable support, high-fidelity ENT model, and white acrylic base, made of SLD silicone. It supports ENT endoscopic examination/surgery training, instrument performance testing, and specific procedures like eustachian tube balloon dilation, catering to ENT skill development.

Gastrointestinal Endoscopy Simulator Intervention Training Model

The Gastrointestinal Endoscopy Simulator Intervention Training Model including the stomach, gallbladder, pancreatic duct, bile duct, and duodenal papilla. Four positioning markers are designed within the digestive tract to determine endoscopic training direction, supporting training with any brand of gastroscope available on the market.

Hysteroscopy Simulator Intervention Training Model

The Hysteroscopy Simulator Intervention Training Model for Performance Testing and Functional Demonstration Training of Interventional Instruments for Colposcopy and Biopsy Equipment Vagina, Cervix, Uterine Cavity, Fundus, Ureteral Orifice.

Colonoscopy Simulator interventionTraining Model

The Colonoscopy interventionTraining Model based on real human data to restore the intestinalsystem environment, soft texture, strong sense ofreality, with 6 lesions: polyps, tumors. The material of the intestinal body is close to thereal human body, and the progress of the endoscope can be observed through the lightsource during use.When the product is used, it should be filled with lubricating liquid or glycerin, and it can be washed with water. No consumables can be used repeatedly.

Urological Endoscopy Simulator Intervention Training Model

The Urological Endoscopy Simulator Training Model is designed to simulate male reproductive and urinary organs, providing a realistic experience for medical training. The model is made of polymer simulation material that mimics the texture and touch of real organs, offering training opportunities in various urological procedures, such as stone removal, catheterization, and bladder irrigation.

ERCP Surgery Simulator Training Model

The ERCP Surgery Training Model is a medical simulation tool featuring 1:1 human upper gastrointestinal anatomical structure via 3D printing, using modified ex vivo porcine stomach/esophagus as training materials. It supports high-difficulty procedures like ESD, STER, and POEM, with replaceable components for realistic and repeated skill practice.

Upper Gastrointestinal Endoscopy Simulator Intervention Training Model

The Upper Gastrointestinal Endoscopy Simulator Intervention Training Model, composed of fixed parts (nasal cavity, oral cavity, esophagus, stomach, duodenum) and replaceable polyp components, is made of high-soft silicone based on adult upper digestive tract CT data. It supports gastroscopy, biopsy, and polyp resection, with realistic anatomical structure and operation feel, and specifications including model size 30×30×75cm.

Gastroscope Simulator ESD Surgical Training Model

The Gastroscope Simulator ESD Surgical Training Model by Frank accurately replicates human colon anatomy (including natural bends and narrow areas) with high-quality, lifelike materials. It supports colonoscopy insertion, polyp resection, hemostasis, and small intestine insertion training via optional parts, featuring real-time sensor feedback for operation evaluation and repeated use to reduce training costs.

Hysteroscopy Simulator Intervention Training Model (Simplified Version)

The Hysteroscopy Simulator Intervention Training Model (Simplified Version) is an SLD silicone simulator featuring vaginal, cervical, uterine cavity, uterine fundus, and ureteral orifice structures. It supports hysteroscopy insertion training, hysteroscopy simulation, and performance testing of colposcopy/biopsy instruments, with a 15-day production cycle and origin in Suzhou, China.

Portable Urinary Simulator Model (Single Kidney + Bladder)

The Portable Urinary Simulator Model (Single Kidney + Bladder) is made of SLD silicone, consisting of bladder, ureter, kidney (calyces, renal pelvis), and simulated stones. It supports training for ureteroscopic stone extraction, nephroscopic stone retrieval, and laser lithotripsy, as well as performance testing of interventional instruments like ureteroscopes and guidewires.

Prostate Ultrasound Simulator Training Model - Type A

The Prostate Ultrasound Simulator Training Model - Type A is a gel-based simulator designed for urologists, sonographers, and medical students. It replicates prostate, partial bladder, urethra, rectum, and anus, supporting TRUS (Transrectal Ultrasound), prostate biopsy, and DRE (Digital Rectal Examination) training, with a 15-day production cycle and origin in Suzhou, China.

Prostate Ultrasound Simulator Training Model - Type B

The Prostate Ultrasound Simulator Training Model - Type B is a gel-based simulator designed for urologists, sonographers, and medical students. It replicates prostate, partial bladder, urethra, rectum, and anus, supporting TRUS (Transrectal Ultrasound), prostate biopsy, and DRE (Digital Rectal Examination) training, with a 15-day production cycle and origin in Suzhou, China.

Shoulder Arthroscopy Intervention Training Model

The Shoulder Arthroscopy Intervention Training Model is a shoulder joint training model with a size of 225×205×205mm, featuring a realistic design that allows viewing internal structures, simulated skeleton, peelable skin, and detailed shoulder muscle renderings, designed for anatomical study and shoulder joint training.

Thoracoabdominal Laparoscopic Surgery Robot Training Model Type B

The Thoracoabdominal Laparoscopic Surgical Robot Training Model - Type B (Silicone Version, FKPWQJ002A) consists of a hard shell and silicone organs (stomach, liver, etc.). It supports the operation of multiple laparoscopic instruments, enables performance evaluation of minimally invasive devices, and serves as a training, research, and product validation tool.

Intervertebral Foramen Endoscope Simulation Training Kit

The Intervertebral Foramen Endoscope Simulation Training Kit is an intervertebral foramen endoscope simulation training kit, including a simulated waist model (with lumbar vertebrae, spare discs, available in skin and red colors), and a 30-degree intervertebral foramen endoscope compatible with multiple systems, designed for endoscopic spinal training.

Arthroscopic Intervention Simulator

The Arthroscopic Intervention Simulator is a model knee package for simulation training, including a knee joint model (with flexible fixation and metal plate base), a 0°/30° arthroscope, and an 11-inch monitor, designed for practicing knee endoscopic procedures.

Thoracoabdominal Laparoscopic Surgery Robot Training Model Type A

The Thoracoabdominal Laparoscopic Surgical Robot Training Model - Type A (Silicone Version, FKPWQJ002A) consists of a hard shell and silicone organs (stomach, liver, etc.). It supports the operation of multiple laparoscopic instruments, enables performance evaluation of minimally invasive devices, and serves as a training, research, and product validation tool.

Arthroscopic Intervention Training Kit

The Arthroscopic Intervention Training Kit is an arthroscope training kit including a training box (180×180×120mm), 0°/30° arthroscope camera, various modules (like meniscus trim, knot tying) and instruments (like grasping forceps, knot pusher), designed for arthroscopic surgical skill training.

Simulated Laparoscopic Intervention Training Model

This product is a laparoscopic surgical training set consisting of a belly simulator with drawer and flip designs, 0/30° camera, modules, and four types of instruments. It supports team training, optional gynecological box and LED light box, and is used for medical personnel to practice laparoscopic surgical skills.

Laparoscopic Simulation Trainer

The Laparoscopic Simulation Trainer is a laparoscopic surgical training set including a standard style box (with drawer, flip designs, optional gynecological style and LED light box), 0/30° camera, modules, and four instruments, designed for multi-person team training and laparoscopic skill practice.

Gastrointestinal Endoscopy Intervention Training Model

The Laparoscopic Comprehensive Training Model developed with real clinical data and 3D printing, replicates multiple abdominal organs (liver, stomach, etc.) to enable training in procedures like gastrointestinal anastomosis, partial gastrectomy, and appendectomy, with principal components including consumable organ modules.

Dural Repair Training Model

The Dural Repair Training Model is a 3D-reconstructed head model based on real human data, simulating dural membrane and brain parenchyma structure, designed to train neurosurgical extramural techniques like dural cutting, suturing, and patch application.

Colonoscopy interventionTraining Model

The Training Model for Transnasal Sphenoid Process Resection is a 3D-reconstructed model based on real human anatomy data, enhancing proficiency in neurosurgical procedures like sphenoid ridge resection and transsphenoidal approaches, with principal components including head, brain parenchyma, skull, and basal hematoma lesion, and supporting emergency neurosurgical treatment training with real clinical instruments.

Microsurgical Intracranial Vascular

The Microsurgical Intracranial Vascular Anastomosis Training Model is a 3D-reconstructed model based on real clinical data, using multi-material 3D printing to replicate brain parenchyma and blood vessels. It supports various vascular anastomoses (dura mater, end-to-end, etc.), features a wrist-fatigue-reducing window cover, is compatible with deep anastomosis training, and has replaceable vascular consumables for reusable neurosurgical skill practice.

Breast Tumor Excision Training Model

The Breast Tumor Excision Training Model simulates breast tissue with four tumor/hyperplasia sites, using polymer material to replicate real breast anatomy (skin, dermis, etc.). It supports training in breast palpation, tumor excision, cosmetic suturing, and reconstruction, offering a realistic feel of lump hardness, motion, and tissue adhesion.

Medical Cesarean Section Training Model

The Medical Cesarean Section Training Model is a polymer-based, 3D-anatomy-replicated tool that simulates fetuses at different gestational ages, umbilical cord, and uterus (with customizable umbilical cord entanglements). It meets cesarean section training requirements, can be used independently or with a manikin for realistic surgical environment practice.