Ultrasonic Cutting Hemostatic Sponges
Ultrasonic Cutting Hemostatic Sponges – Cheersonic
At present, a large number of people around the world are troubled by nasal diseases such as sinusitis, nasal polyps, and nasal cavity tumors. The effective method to solve such diseases clinically is endoscopic surgery. It is very important to reduce the bleeding in the operation cavity, promote the wound healing, and relieve the pain of the patients. Surgical packing sponge has the characteristics of good biocompatibility and high safety. During use, it can absorb blood, exudate, etc. and expand in volume, thereby blocking the bleeding point of the cavity and achieving the purpose of hemostasis. After the disintegration of the structure occurs, it does not adhere to the wound surface, avoids secondary damage, greatly reduces the pain of patients, and has a good clinical effect.
Surgical packing sponge has the characteristics of good biocompatibility and high safety. During use, it can absorb blood, exudate, etc. and expand in volume, thereby blocking the bleeding point of the cavity and achieving the purpose of hemostasis. After the disintegration of the structure occurs, it does not adhere to the wound surface, avoids secondary damage, greatly reduces the pain of patients, and has a good clinical effect.
For patients with rapid bleeding and rapid deterioration of their condition, internal iliac artery intubation angiography should be carried out while actively anti-shock such as blood transfusion and blood supplementation. After a bleeding vessel is found, gelfoam embolization should be performed quickly to stop the bleeding. Because embolization of the anterior internal iliac artery can achieve the purpose of hemostasis, it is not necessary to prolong the operation time due to excessive selection of the uterine artery, and serious complications may occur due to the rich collateral circulation of pelvic organs.
Altering the structure and pattern of electrospun gelatin-based nanofiber dressings is also very important to improve the healing efficiency of the finally obtained dressing materials. Another research team developed a three-dimensional gelatin nanofiber sponge using a combination of a modified electrospinning technique and subsequent thermal crosslinking treatment. It can accelerate the generation of platelet embolism and activate the coagulation pathway. Both the in vivo liver trauma model and the ear artery injury model showed that the prepared 3D gelatin nanofibrous sponge had higher hemostatic ability than the commercial 3D gelatin non-fibrous hemostatic sponge, and showed great potential for rapid hemostasis in large-area acute wounds.
UFM6000 is a high-efficiency ultrasonic cutting equipment with fully automatic and multi-functional features. The hemostatic sponge has high cutting efficiency, and can be applied to the cutting of hemostatic sponges in rectangular, strip and other shapes to achieve its ideal cutting effect. The product to be cut is placed in the ultrasonic automatic cutting equipment, and the equipment will position and cut the cutting product according to the parameters input in advance, and automatically complete the operation without human intervention, thereby improving work efficiency. Ultrasonic vibration reduces the frictional resistance between the blade and the hemostatic sponge, so that the blade can cut the hemostatic sponge smoothly without deformation, and there will be no burning of the cut surface. Ultrasonic vibration reduces material sticking on the blade, thereby reducing downtime in cleaner production systems. Throughout the cutting process, the blade surface remains smooth, clear and clean.