Virtual Incision products

The MIRA Surgical System by Virtual Incision introduces a novel approach to robotic assisted surgery through its Miniaturized Robotic Assisted Surgery (miniRAS) system. This system stands out for its compact design, allowing for rapid setup without the need for draping or docking. Designed to fit into any operating room, it enhances accessibility to robotic surgery, which has been shown to improve patient outcomes. The system features accessible components inserted through a single port and is equipped with lightweight, portable instrumentation weighing approximately 2 pounds. Sterilization complies with standard protocols, promoting sustainability. The adaptability of the robotic arms and integrated camera enables precise surgical control. Additionally, the MIRA system supports remote surgical applications, as demonstrated by collaboration with NASA and the University of Nebraska for potential space-based telesurgery. Safety considerations are paramount, with usage intended for trained professionals aware of potential risks. Thus, MIRA aims to optimize surgical procedures across various environments.

The miniRAS (Miniaturized Robotic-Assisted Surgery) System offered by Virtual Incision is a cutting-edge surgical solution designed to streamline operating room procedures by minimizing setup time and equipment requirements. Engineered to be compact and efficient, this system eliminates the need for draping or docking, allowing operating rooms to become RAS-ready within minutes. The miniRAS system, weighing approximately 2 pounds and conveniently packed in a sterilized tray, integrates a sophisticated combination of instrumental arms and a high-performance camera. Surgeons gain full multi-quadrant access with an interface that requires only two cables and provides a more ergonomic working environment. Collaboration with NASA and the University of Nebraska further extends its capabilities for use in space, making surgical interventions possible even in extreme remote locations. The system's adaptability and portability open up new possibilities for minimally invasive procedures with improved patient outcomes, reducing the limitations of traditional mainframe platforms.

MIRA’s convenient, capable, compact design empowers surgeons to quickly obtain full multi-quadrant access and work closer to the patient.

Virtual Incision's miniRAS system represents a significant advancement in robotic-assisted surgery (RAS) technology, designed to enhance accessibility to minimally invasive surgical procedures. Unlike conventional RAS systems that often require dedicated operating rooms and extensive setup times, the miniRAS is compact and portable, making it suitable for a variety of operating environments. This system is engineered to fit seamlessly into a standard surgical tray, reducing the logistical barriers that have limited the availability of robotic surgery. Its design aims to offer the full capabilities of traditional RAS without compromising efficacy, allowing for quick turnover and setup, which is particularly beneficial in emergency or time-constrained scenarios. The MIRA Surgical System, a key component of miniRAS, is specifically tailored for abdominal surgeries and underscores the importance of miniaturization in medical technology, ensuring that RAS can be performed with minimal waste and storage needs. Its real-world applicability is emphasized by its ability to deliver consistent surgical outcomes across diverse patient profiles, although patient-specific factors remain influential in determining surgical success.

The MIRA miniaturized robotic-assisted surgery system represents a significant advancement in the field of minimally invasive surgery. This innovative system is designed to provide precision and control during surgical procedures through small incisions, minimizing the need for open surgeries.MIRA's compact design offers hospitals the ability to integrate robotic-assisted surgery into their existing surgical infrastructure without the requirement for extensive modifications. This enables a higher volume of surgeries per day, granting access to a broader patient base. Unlike traditional mainframe systems, MIRA's scalability makes it suitable for facilities that have been previously unable to incorporate robotic systems due to complexity or cost. The design further allows easy transport from tray to table, thus removing spatial constraints and augmenting workflow efficiency. As a testament to its effectiveness, the MIRA system has been successfully utilized for a range of procedures, including the first robotic-assisted hysterectomy. It continues to establish itself as a transformative healthcare solution.