MARS is empowering surgeons with enhanced management, decreasing affected person restoration instances, and streamlining hospital operations via modern magnetic know-how.
Dr. Alberto Rodriguez-Navarro is advancing minimally invasive surgical procedure along with his modern know-how, the MARS Surgical System.
“Our objective as an organization is to develop know-how to empower the surgeon. That’s why we see our newest improvement, MARS Surgical System, making surgical procedure higher.”
Dr. Rodriguez-Navarro is a surgeon and the CEO, Founder, and President of Levita® Magnetics, a medical tools manufacturing firm established in 2011. For the previous 13 years, he and his group have developed proprietary know-how that maximizes the advantage of minimally invasive surgical procedure—for each surgeons and sufferers.
“We began with a guide system [magnetic surgery], wherein it’s important to transfer the magnet together with your hand. Now, we’ve advanced to create a robotic system that controls the motion of the magnet.”
What does this imply for surgeons?
The MARS System, which leverages Levita Magnetics’ proprietary Dynamic Magnetic Positioning know-how, builds on the scientific advantages of the Levita Magnetic Surgical System offering quicker restoration, much less ache, and fewer scars for sufferers. However now, the group has developed surgeon-controlled arms permitting full management over the laparoscopic view and the magnetic retractor.
The MARS system offers surgeons “two additional arms” for instrument management, in addition to digicam stability, eradicating the necessity for added help, which customary stomach surgical procedures require.
“MARS represents a noteworthy development and is a part of the pathway to boost minimally invasive surgical procedure for healthcare establishments, surgeons, and most significantly, for sufferers. It’s additionally remarkably simple to make use of,” stated Prof Dr. Matthew Kroh, MD, vice chair of innovation and know-how on the Cleveland Clinic, who carried out the primary process with the brand new system final September 2023.
“We intention to point out that this revolutionary know-how can empower surgeons with elevated management and higher visualization whereas decreasing the variety of incisions, delivering important affected person advantages,” says Dr. Rodriguez-Navarro.
For Dr. Rodriguez-Navarro, who labored for practically ten years as a surgeon and carried out over 3,000 laparoscopic surgical procedures, it is a main feat within the development of minimally invasive surgical procedures.
Levita is headquartered in Silicon Valley, and the MARS System is FDA-approved and at the moment accessible within the U.S. and Chile. It’s cleared for laparoscopic bariatric surgical procedures, cholecystectomy (gallbladder), prostate, and colorectal procedures.
“We invented a system to deploy a magnetic piece contained in the stomach, after which utilizing a robust exterior magnet, we generate the motion to scale back the variety of incisions usually wanted for the surgical procedure,” Dr. Rodriguez-Navarro explains. “That’s the core profit—we scale back the variety of incisions for the affected person. In the meantime, the surgeon maintains the flexibility to carry out the process in a quick and dependable means.”
Whereas it could be simpler for surgeons to proceed performing customary procedures, studying and integrating this new system has a “triple impression” for sufferers, surgeons, and hospitals—and aids in offering extra environment friendly, economical care.
The present state of the U.S. healthcare system is dire—a really circulated matter—and Duquesne College forecasts a scarcity of greater than 29,400 nurse practitioners by 2025. Dr. Rodriguez-Navarro’s system removes the necessity for a further assistant throughout procedures and cuts restoration time for sufferers. The MARS System is simple to make use of, as Prof Dr. Matthew Kroh famous above, and can even “play a serious position within the transition of excessive quantity stomach procedures to an ambulatory or same-day discharge setting,” says Dr. Rodriguez-Navarro.
In 2018, there have been 9.6 million inpatient working room procedures of which 11.2% had been MIS and a pair of.9% had been robotic-assisted. Cholecystectomy (gallbladder elimination) surgical procedure is among the commonest procedures carried out worldwide, and Dr. Rodriguez-Navarro positions Levita Magnetics as a cost-effective medical innovation to reduce the demand on the present healthcare system.
“That’s the chance that we see. We will convey an answer that could be a fraction of the price of different robotic leaders in surgical procedure, plus the scientific profit and the discount of personnel, to make the process less expensive. That’s our alternative available in the market,” he says.
In April, Dr. Rodriguez-Navarro carried out the first-ever augmented actuality stomach surgical procedure in Santiago, Chile utilizing the MARS System and Meta Quest 3 headset. “It opens a brand new world for a way the surgeon can entry [data] in real-time through the surgical procedure,” he informed Fox Information Digital. “Will probably be a revolution in how surgical procedures are carried out, and I’m very glad [about] how know-how is empowering surgeons to do extra.”
Whereas the early levels of Dr. Rodriguez-Navarro’s ideations confronted criticism and doubt, he understood that preliminary resistance is regular for any new know-how, and right now he and his group have confirmed the effectiveness and revolutionary capabilities of magnetic surgical procedure.
“Our objective as an organization is to proceed to develop instruments for surgeons to have higher surgical outcomes,” Dr. Rodriguez-Navarro concludes. “Robots, AI, and magnets will likely be utilized closely in surgical procedures within the coming years.”
To be taught extra about Levita Magnetics, go to the web site right here. To get in contact with Dr. Alberto Rodriguez-Navarro, attain out to him on LinkedIn.
VentureBeat newsroom and editorial employees weren’t concerned within the creation of this content material.
