The Senhance® Surgical System is the first and only
digital laparoscopic platform
The Senhance® Surgical System removes the economic limitations of current robotic systems with standard reusable instruments and an open-platform architecture strategy that enables hospitals to leverage existing technology investments. That keeps time and cost-per-procedure comparable to manual laparoscopy, so that the benefits of robotics can reach more patients, in more care settings, for a greater variety of procedures.
With your surgical skills and our digital interface, you'll have
greater control in full force.
The Senhance Surgical System was designed to support hospitals and help surgeons thrive in today’s healthcare landscape.

Value-driven healthcare pillars1
Talent engagement:
Engaged, satisfied surgeons committed to the organization's mission

Value-driven healthcare pillars1
Clinical outcomes:
Effective care that delivers positive, sustainable, and measurable results that reflect decreased surgical variability and improved patient outcomes

Value-driven healthcare pillars1
Cost optimization:
Efficiency and surgical process improvements that eliminate waste and redundancy and drive better use of resources by fitting into existing hospital ecosystems

Value-driven healthcare pillars1
Patient experience:
Access to the best care technology has to offer, high levels of patient satisfaction, and predictable outcomes

Value-driven healthcare pillars1
Talent engagement:
Engaged, satisfied surgeons committed to the organization's mission

Value-driven healthcare pillars1
Clinical outcomes:
Effective care that delivers positive, sustainable, and measurable results that reflect decreased surgical variability and improved patient outcomes
Value-driven healthcare is defined as delivering the best clinical outcome relative to the optimal cost of care within an environment that fosters the right patient experience delivered by engaged and satisfied providers.1
The Senhance Surgical System provides a value-driven healthcare strategy that breaks free from
the constraints of value-based care models

Eye-tracking camera control; whereby the system can sense the surgeon's eye activity allowing camera control.
The 3D HD visualization provides the surgeon with additional intelligence regarding depth and spatial relation of organs.
Haptic feedback of the platform heightens the surgeon sensing of pressure/tension through alerts if pressure threshold is reached for an added layer of security not currently available elsewhere.
Standard reusable instruments keep costs similar to traditional laparoscopic instruments.
Allows the surgeon to be seated in an ergonomically comfortable position throughout the procedure
A digital fulcrum sets a dynamic virtual pivot point that helps potentially minimize the incision trauma
Open-platform architecture allows use and integration of existing OR technologies to benefit from capital investments and support surgeon preference
Digital laparoscopy maintains familiar motion, ancillary tools and techniques

- Provides surgeon with the ability to control his or her visualization instead of providing verbal direction to a surgical assistant.
- Eye-tracking camera control frees the hands of surgical staff for other in-room activities.
- The robotic arms provide the power of pause, allowing the instruments to remain stable and stationary as the surgeon changes position.
- No direct docking to the patient, minimal docking time; the table can easily be repositioned by simply removing instruments from standard lap trocars to support frequent operating room table movements during surgery.
- Utilizes standard reusable instruments to keep costs similar to those of traditional laparoscopic instruments and an open-platform architecture to integrate with existing operating room technologies.
- The easy and quick setup of the system does not add significant time to the overall procedure.
- The system is designed for a minimal learning curve with familiar laparoscopic motion, trocars, and approach to help quickly achieve efficient and effective clinical operations.
- The open-platform architecture allows for seamless integration of surgeon or hospital vision system preferences.
- Designed to minimize disruptions or interruptions of the procedure flow.

- The 3D HD visualization provides the surgeon with additional intelligence regarding depth and spatial relation of organs, improving confidence and providing an added layer of security.
- The surgeon-controlled visualization decreases the need to work outside the visual field.
- Haptic feedback of the platform heightens the surgeon sensing of pressure/tension through alerts if the pressure threshold is reached, which provides an added layer of security not currently available on any other surgical platform.
- A digital fulcrum sets a dynamic virtual pivot point that helps minimize the incision trauma and limit forces applied on the patient.
- The robotic arms provide stabilization of multiple instruments and the camera, reducing impact of tremors and giving the surgeon more instrument control.
- Allows the surgeon to be seated in an ergonomically comfortable position throughout the procedure or to reposition and maintain a comfortable workspace.

- The eye-tracking provides more surgeon control and less reliance on other operating room staff, reducing the risk of errors associated with suboptimal communication among team members.
- The robotic-assisted arms eliminate the need for a surgeon to maintain awkward instrument positions and static stances.
- The haptic feedback provides additional peace of mind so that the surgeon can remain focused on the procedure.
- The surgeon console allows the surgeon to be seated in a position that minimizes strain and fatigue.