This practice model is useful for improving surgical techniques (incision, membrane dissection, lymphatic dissection) using electrocautery and other energy devices. The product does not have the unpleasant odor often associated with electrocautery-compatible products. No moisture is required for storage, and the product can be stored by sealing it in a zipper bag.
Dermal burrowing suture simulator BUYSSkin
This simulator does not cause cut-outs in buried sutures (realistic ligation sensation), the needle thread trajectory is visible, the tension reduction effect is visible, and simulation with berbed suture is possible.
Abdominal suture surgery training model
The model reproduces based on the Young's modulus of each layer of the multi-layered structure of the skin (cornea, epidermis, dermis, and subcutaneous tissue). By reproducing the multilayer structure, we developed the model realizing the actual suturing sensation and palpation. The model is highly evaluated for its closeness to the living body, such as that the skin does not tear easily during ligation, and that the skin can be sutured by pulling it while suturing.
Multilayered structure skin model
This model reproduces the multilayer structure and Young's modulus of skin. It is used for palpation, injection puncture, suture practice, and quantitative evaluation of cosmetics. The color can be changed or specified, and by making it transparent, the pressing strength and palpation movement can be visualized.
Medical equipment evaluation model
The simulators are used for quantitative evaluation of medical devices such as sutures, scalpel incisions, anastomotic devices, and echo diagnostic evaluation. We can mold simulators with custom specifications such as softness, surface, color, size, thickness, etc. to meet the evaluation items of the products.
Cosmetics evaluation model
We have achievements in evaluating the amount of cosmetics such as foundation applied, unevenness of application, and wetting of medicinal solutions. By adding wrinkles and matching the coefficient of friction to the skin surface, accurate evaluation closer to the living body is possible.
Left arm pulsation reproduction model
Left arm pulsation reproduction model
The position of blood vessels and the softness of blood vessels and subcutaneous fat are molded to match the living body, and by connecting to a pump and flowing simulated blood or air, pulsation can be reproduced. It is used in quantitative evaluation of sphygmomanometer measuring devices and wearable devices, and in injection puncture practice.
Dermal model of the back of the hand
Back of the hand skin model
It has been used for many academic exhibitions and evaluation of medical devices. It can be used to practice hand suturing and plastic surgery, and for quantitative evaluation of medical devices. The internal structure of the glove is customizable, and can be used as a human dummy by inserting simulated bones, muscles, and subcutaneous tissue, or as a robot glove by making it hollow.
Visualizing hand model
Visualization hand
Based on biological evidence, we combine simulated skin, simulated muscle, simulated tendon, and simulated bone. It is used for various quantitative evaluations and can be used for other parts such as thighs and upper arms.
Visualizing model (kidney)
Visualization model (Kidney)
It consists of a bio-evidence-based epidermal layer and transparent subcutaneous tissue, into which organs, blood vessels, and bones can be inserted to visualize catheters, endoscopes, and bone resection procedures. By molding it with a soft material close to that of the human body, advance training such as preventing catheters from penetrating blood vessel walls without damaging the vessels is possible.
Organ Models
Endoscopic simulator for gastrointestinal tract
Simulator for endoscopic treatment without biological tissue, called DryLab, which allows endoscopists and caregivers to practice easily. For polypectomy and suture technique training. Uniquely blended materials and special shape reproduce a realistic feel. Easy to set up for casual training.
CRG suturation model
It is made of a special gel (Crystal Gel®) that is close to the softness of the human body. This model provides a sensation close to that of clinical practice when suturing and ligating, and is less prone to tearing. The dry model allows for simple storage.
Intestinal suture standard model
Made of a special gel (Crystal Gel®) that is close to the softness of the human body. Feeling during suture and ligation is close to that of clinical practice.
Intestinal suture U-shaped type model
Intestinal suture U-shaped type model
Made of a special gel (Crystal Gel®) that is close to the softness of the human body. Feeling during suture and ligation is close to that of clinical practice.
Two-layered intestinal suture model
It is used for practicing colon and small intestine suture and anastomosis techniques. The patented special two-layer structure makes it difficult to break even when ligating. It can be used for various tube shapes such as intestinal tubes and esophagus.
Intestinal suture Hemosuke model
Model reproducing the rectum.
Standard model of jejunum and esophagus suture
Made of a special gel (Crystal Gel®) that is close to the softness of the human body. Feeling during suture and ligation is close to that of clinical practice.
With magnetic clips.
Use when practicing suturing. With magnetic clips.
Stomach pouch suture Margen model
Three-dimensional structure.
Colon full version
Colon and rectum model. For training in endoscopy, suturing, palpation, and other techniques.
Partial resection of liver model
This is a practice model of the technique of resecting a tumor with an ultrasonic coagulation incision device. Liver cancer surgery is a procedure that is prone to medical errors and requires extensive prior training.
Tongue cancer model
The difference between tongue cancer and stomatitis can be easily distinguished. Not only the shape but also the texture is reproduced. By modeling the condition, it is possible to provide patients with a clearer and more detailed explanation when giving informed consent, publicizing new procedures, and explaining them.
Organ model
Organ models based on biological data. Each organ can be sold separately. They are used for endoscopic and echocardiographic examinations. Custom colors and hardnesses are also available.
Transparent human body model
Transparent human models with organs and digestive tracts. Soft like human skin, the high design quality of these models has led many companies to use them for exhibits at trade shows and academic conferences. Customized inclusions are available.
Energy device exercise model
This practice model is useful for improving surgical techniques (incision, membrane dissection, lymphatic dissection) using energy devices such as electrocautery. The model has been evaluated by many doctors as being close to the living body, as it provides a feeling close to that of surgery. As shown in the image, it can be molded into a three-dimensional shape.
Vessel Models
Vascular suture model
Made of a special gel (Crystal Gel®) that is close to the softness of the human body. Feeling during suture and ligation is close to that of clinical practice.
Medical equipment evaluation model
Medical equipment evaluation model
For practicing procedures such as catheters, stents, and injections. Combined with subcutaneous tissue or skin, it allows for more realistic practice. Transparent blood vessels are also available. By practicing evaluations and procedures with materials that have the same softness as the human body, we are able to help develop better products and improve procedures.
Left arm pulsation simulation model
This practice model is useful for improving surgical techniques (incision, membrane dissection, lymphatic dissection) using energy devices such as electrocautery. The model has been evaluated by many doctors as being close to the living body, as it provides a feeling close to that of surgery. As shown in the image, it can be molded into a three-dimensional shape.
Medical equipment prior training model
This model is connected to a pump and is flowing simulated blood. It is also used for quantitative evaluation of blood pressure meters and wearable devices, injection puncture practice, and practice of catheter and stent procedures. It can also be used to create a shunt and practice dialysis puncture.
