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Magnetic Robotic-Assisted Surgeries Performed with Levita Magnetics
Sun - July 11, 2021 3:45 pm  |  Article Hits:1413  |  A+ | a-
Levita Magnetic Surgical System
Levita Magnetic Surgical System
Levita Magnetics, a business with an objective to improve access to far better surgery for even more patients, today announced that the first-ever robotic-assisted surgeries have actually been done making use of the company's most recent system in growth, the Levita ® Robotic Platform. The first case was a reduced-incision laparoscopic cholecystectomy (gallbladder elimination) completed by Dr. Ignacio Robles, a minimally invasive surgeon at Clínica INDIAS in Santiago, as part of an existing clinical study of the system in Chile.

The Levita Robotic Platform is intended to deliver clinical benefits including much less pain, much faster healing, and also fewer scars for patients. The brand-new magnetic robotic surgery platform is intended to supply the surgical advantages of the firm's first industrial item, the Levita ® Magnetic Surgical System, consisting of much less discomfort, quicker healing, and also fewer scars for people. The platform is planned to boost visualization, maintain surgeon control of tools, and boost health center efficiency with fewer assistive employees called for to carry out the treatments. With its small footprint, the robot platform is specifically created for high-volume ambulatory or same-day discharge after abdominal surgeries. The objective of these integrated advantages is to increase the volume of high-grade, effectively done procedures while improving surgical accessibility to patients.

Levita's original Magnetic Surgical System has been reported to enhance post-operative results for patients with much less pain as well as fewer number ports, Further advancing this innovation into a robotic surgical procedure system has the prospective to be valuable in numerous surgeries by providing a stable visualization system without the requirement for an additional assistant.

We are taking the Magnetic Surgical procedure to the following level with this turbulent technique. Our robotic surgical platform is created to be the initial to enable the professional benefits of a much less intrusive procedure with fewer incisions while permitting the robotic surgeon complete control of the system as well as surgical instruments straight close to the patient, This magnetic instrument is enabling prompt access to the needed surgical procedure has a straight influence on the quality of life for clients as well as may minimize the threat of problems or death as a result of the underlying disease. The ultimate goal is to globally boost the ability of doctors and also medical facilities to offer even more individuals access to far better surgical procedures within their neighborhoods. 

The Levita Magnetic Surgical System makes it possible for reduced-port laparoscopic surgical procedures created to decrease the impact of surgical procedures. The magnetic robotic system, which contains an external magnet put on the skin that regulates a shaftless detachable grasper, enables tools to relocate without the restrictions of a fixed-position pivot factor. The Levita Magnetic Surgical System is shown in the U.S. to comprehend and retract the body and also the fundus of the gallbladder in laparoscopic cholecystectomy procedures; the liver in bariatric treatments; the prostate and periprostatic cells in prostatectomy procedures; as well as the colon, anus, and peri-colorectal tissue in colon procedures to promote access and visualization of the surgical procedures. 
 

Magnetic robotic-assisted surgery is a cutting-edge surgical technique that uses magnetic fields to manipulate surgical instruments and achieve precise, minimally invasive procedures. The Levita Magnetics System is one example of a magnetic robotic system that has been used in a variety of surgical procedures, including cholecystectomy, liver resection, and colon resection. This essay will explore the principles of magnetic robotic-assisted surgery and the use of the Levita Magnetics System in various surgical procedures.

Principles of Magnetic Robotic-Assisted Surgery

Magnetic robotic-assisted surgery is based on the principle of magnetic fields, which can be used to manipulate surgical instruments without the need for physical contact. The surgical instruments used in magnetic robotic-assisted surgery contain small magnets, which can be manipulated using an external magnetic field. The external magnetic field is generated by a magnetic robotic system, which consists of a control unit and a magnetic field generator.

During the surgical procedure, the surgical instruments are inserted into the patient's body through small incisions, typically using a laparoscopic or robotic approach. The magnetic field generator is positioned outside the patient's body and is used to manipulate the surgical instruments by generating a magnetic field that interacts with the magnets in the instruments. The surgeon controls the movement of the instruments using a console or joystick, which sends signals to the magnetic robotic system.

The use of magnetic fields in surgical procedures offers several potential benefits over traditional surgical techniques, including reduced trauma to the patient, improved precision and control, and reduced risk of complications. Magnetic robotic-assisted surgery can also be performed with smaller incisions, which can result in faster recovery times and improved cosmetic outcomes.

Levita Magnetics System

The Levita Magnetics System is a magnetic robotic system that has been used in a variety of surgical procedures. The system consists of a control unit and a magnetic field generator, which are connected by a cable. The magnetic field generator is positioned outside the patient's body and is used to manipulate the surgical instruments by generating a magnetic field that interacts with the magnets in the instruments. The surgeon controls the movement of the instruments using a console or joystick, which sends signals to the magnetic robotic system.

The Levita Magnetics System has been used in several different surgical procedures, including cholecystectomy, liver resection, and colon resection. In cholecystectomy, the Levita Magnetics System is used to manipulate the gallbladder and surrounding tissue, allowing for precise removal of the gallbladder while minimizing trauma to surrounding tissue. In liver resection, the Levita Magnetics System is used to manipulate the liver and surrounding tissue, allowing for precise removal of the affected portion of the liver while minimizing trauma to surrounding tissue. In colon resection, the Levita Magnetics System is used to manipulate the colon and surrounding tissue, allowing for precise removal of the affected portion of the colon while minimizing trauma to surrounding tissue.

Benefits of Levita Magnetics System

The Levita Magnetics System offers several potential benefits over traditional surgical techniques. One of the main advantages is improved precision and control. The use of magnetic fields allows for precise manipulation of surgical instruments, which can improve the accuracy of the procedure and reduce the risk of complications. Magnetic robotic-assisted surgery can also be performed with smaller incisions, which can result in faster recovery times and improved cosmetic outcomes.

Another benefit of the Levita Magnetics System is reduced trauma to the patient. The use of magnetic fields allows for the manipulation of surgical instruments without the need for physical contact, which can reduce trauma to surrounding tissue and minimize the risk of complications. Magnetic robotic-assisted surgery can also reduce the risk of infection, as it can be performed with smaller incisions and a reduced need for physical contact.

The Levita Magnetics System can also improve the efficiency of surgical 

procedures. The system allows for more precise and controlled movement of surgical instruments, which can reduce the time required for the procedure and improve patient outcomes. The Levita Magnetics System can also improve the safety of surgical procedures, as it allows for better visualization of the surgical site and can reduce the risk of damage to surrounding tissue and organs.

Challenges of Magnetic Robotic-Assisted Surgery

While magnetic robotic-assisted surgery offers several potential benefits over traditional surgical techniques, there are also several challenges associated with the use of this technology. One of the main challenges is the cost of the equipment and training required to use it. Magnetic robotic systems can be expensive, and the cost of training surgeons and support staff to use the equipment can also be significant.

Another challenge is the need for specialized equipment and facilities to perform magnetic robotic-assisted surgery. The magnetic field generator used in the Levita Magnetics System, for example, requires a specialized room with a magnetic shielding system to prevent interference with other equipment and devices. This can limit the availability of magnetic robotic-assisted surgery to specialized centers with the necessary equipment and facilities.

There are also concerns about the safety and efficacy of magnetic robotic-assisted surgery, particularly in comparison to traditional surgical techniques. While early studies have shown promising results for the use of magnetic robotic systems in surgical procedures, further research is needed to confirm the safety and efficacy of this technology.

Conclusion

Magnetic robotic-assisted surgery, using systems such as the Levita Magnetics System, represents a promising new approach to surgical procedures. This technology offers several potential benefits over traditional surgical techniques, including improved precision and control, reduced trauma to the patient, and improved efficiency and safety. However, the use of magnetic robotic systems requires specialized equipment and facilities, and there are concerns about the cost, safety, and efficacy of this technology. As magnetic robotic-assisted surgery continues to evolve and improve, it has the potential to revolutionize the field of surgical procedures and improve patient outcomes.

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