Encision, a active electrode monitoring system manufacturer, just received clearance from the FDA to create to promote its AEM EndoShield device that plugs between many common electrosurgical generators and the company’s AEM laparoscopic instruments to watch and stop stray energy being released unintentionally. This device is a disposable, and may be utilized when a minimal access surgeon chooses to use higher power settings for specific laparoscopic operations.

There’s very little of an interface around the EndoShield to cope with, and so very little training required to become familiar with it. Encision company claims that as much as 400 preventable deaths come from stray monopolar energy, a substantial number that we hope fraxel treatments may bring nearer to zero. Direct coupling, capicitative coupling and insulation failure all can be prevented with the use of this AEM device.

Risk factors in monopolar laparoscopic electrosurgery: unintended tissue burns. Complications resulting from unintentional tissue burns is a big medicolegal issue. Medicolegal and economic impacts of electrosurgical injury is important. Limitations of traditional methods used to minimize patient injuries is that it is unpredictable. The active electrode monitoring solution of Encision will help to minimize the complication.

Endoscopic surgery, while notable for reducing negative effects compared to using open surgery with scalpels and open surgical retractors, needs a lot of dexterity and device management to avoid unwanted damage to tissues from electrosurgical instrument. One reason is the fact that monopolar electrical instruments that are used to ablate soft tissue will often release much of their monopolar energy not at the tip, but somewhere along the shaft.

Surgical procedures are complex and require a high level of skill and precision to perform. One of the critical components of a surgical procedure is the use of electrosurgical devices, which use high-frequency electrical current to cut, coagulate, and seal tissue during surgery. While electrosurgery has many advantages, it also carries a risk of complications, including burns and electrical shock. In recent years, there has been significant research and development in the field of electrosurgery, resulting in the creation of new active electrode monitoring systems that improve safety and reduce the risk of complications. In this essay, we will discuss the new active electrode monitoring system and its benefits in surgical procedures.

New Active Electrode Monitoring System:

The new active electrode monitoring system is a technological advancement in the field of electrosurgery that monitors the electrical current flowing through the surgical instrument during surgery. The system uses sensors to detect any changes in the electrical current, which can indicate a potential problem, such as a broken or damaged electrode. If the system detects a problem, it will immediately alert the surgical team, allowing them to address the issue before it leads to complications.

Benefits of New Active Electrode Monitoring System:

Improved Safety: The new active electrode monitoring system improves safety by reducing the risk of burns and electrical shock during surgery. By monitoring the electrical current flowing through the surgical instrument, the system can detect any potential issues and alert the surgical team before they become a problem.
Reduced Complications: The use of the new active electrode monitoring system can lead to a reduction in surgical complications, such as burns and tissue damage, which can result in longer recovery times and increased healthcare costs.
Faster Surgery: The new active electrode monitoring system can also lead to faster surgery times. By reducing the risk of complications, surgical teams can operate with greater confidence and efficiency, leading to shorter surgery times.
Cost-Effective: The use of the new active electrode monitoring system can also be cost-effective. By reducing the risk of complications, the system can help to avoid costly healthcare expenses associated with complications, such as extended hospital stays and additional surgical procedures.
Easy to Use: The new active electrode monitoring system is easy to use and does not require any significant changes to existing surgical techniques. The system can be integrated into existing electrosurgical equipment, making it easy to adopt.

Conclusion:

The new active electrode monitoring system is a technological advancement in the field of electrosurgery that improves safety, reduces the risk of complications, and leads to faster surgery times. The system is cost-effective and easy to use, making it an attractive option for surgical teams. As surgical procedures continue to become more complex and the demand for electrosurgical equipment increases, the new active electrode monitoring system will play an increasingly important role in improving patient outcomes and reducing healthcare costs. By embracing this new technology, surgical teams can provide safer and more efficient care to their patients.