Features & Benefits
Product Description
- Infrared Optical Tracking System
Tracking and positioning with sub-millimeter accuracy
- 34-inch High-definition Color Monitor
Ultra-wide LCD screen with a wide angle Real-time image information feedback Convenient for clinical observation
- Intelligent Intraoperative Planning System
Intraoperative surgical path planning
Intelligent implant simulation
- 29-inch Workstation Monitor
Real-time display of the surgical planning process
Force-sensing feedback system
- Integrated Workstation
Integrated design
Less occupied space in the operating room
Much flexibility of equipment movement
- Intraoperative Assistance in Precise Positioning
Intelligent navigation of the surgical path
Automatic positioning of the exposed lesions
- Six-degree-of-freedom Robotic Arm
High-precision and high-sensitivity robotic arm with force sensing system
Adaptive Registration, More Precise
Perlove Medical is the first manufacturer in China that combines an intraoperative 3D imaging C-arm and spine surgical navigation system.
PL300B is independently developed and produced by Perlove Medical. integrated with adaptive registration technology, it can realize automatic registration and automatically establish the association of three coordinate systems: the optical tracking device, the patient, and the image.
No manual intervention is reguired in the registration process, and the accuracy is not affected by the image guality. lt brings stronger system compatibility, more accurate coordination matching, and more convenient registration because both the 3D C-arm and the robot are produced by Perlove Medical.
Precise Positioning
Intelligent Assistance, Precise Positioning
Equipped with a high-precision optical tracking system and robotic arm, PL300B can guide the surgeon in intraoperative planning and assist in the precise positioning ofimplants or surgicalinstruments based on 3D images and the surgical planning software.The accuracy can reach sub-millimeter level, reaching the international leading level. In particular, it has obvious advantages for high-risk and complex surgeries and can effectively reduce surgical risks.
- High-precision System and Robotic Arm
The orthopedic surgical navigation system can assist in the precise positioning of implants with sub-millimetre accuracy, effectively reducing the occurrence of complications.
- Automatic Navigation and Positioning
The robot (robotic arm) automatically guides the positioning according to the preplanned screw placement trajectory automatically aligns itself, and accurately moves to the planned position, ensuring that the surgical path is consistent with the planned path.
- Surgical Planning and Guidance
Based on 3D images, the surgical planning software can stimulate the intraoperative state ofthe implant, guide the surgeon in intraoperative planning, and assist in the evaluation and timely adjustment of the surgical path planning.
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- DynamicTracking and Positioning
The robot can track the patient’s displacement in real time, dynamically monitor the patient’s body position displacement and correct it in time to ensure the precision of the surgica path.
Simplification
- Standard Surgical Workflow
The guidance of the standardized workflow reduces the uncertainty in the surgery, makes the complex surgery workflow simpler, and allows the inexperienced doctors to master it quickly, shortening the learning curve of doctors.
- Multi-purpose
PL300B can be widely used in spine surgery, assistingsurgeons to accurately locate the lesion site and providing intraoperative planning visualized guidance on the position and angle of the implant insertion and simulation of implant insertion for spine surgery (percutaneous vertebroplasty, pedicle screw fixation, etc.)
- Optimize the Surgical Workflow
Traditional surgeries require multiple manual positions for implant insertion, which is cumbersome. The surgical robot can realize one-time planning of multiple implants, saving planning and positioning time, simplifying surgical steps, and greatlyimproving the efficiencyofimplant placement.
High Efficiency Low Radiation
- Higher Surgical Efficiency
The average fluoroscopy time for each hollow screw in traditional surgery is 39 seconds. The number of fluoroscopies in robot-assisted surgery is reduced, and the time for screw placement is reduced to 2.3 seconds per screw, which greatly shortens the average surgical time and effectively improves surgical efficiency by 30%.
- Lower Radiation Absorption
In robotic-assisted surgery, the fluoroscopic dose, time, and number of the C-arm are significantly reduced compared with traditional surgery, and the radiation damage to the surgeons and the patient is greatly reduced.
Intelligent Safe Reliable
- Multi-angle Rotating Monitor
The monitor can display real-time intraoperative images, support large-angle rotation to meet clinical observation, and facilitate real-time monitoring of the implant position.
- Stablelmplant Guidance
After completing the positioning, the robotic arm maintains stable guidance, so the surgeon only needs to focus on drilling and implantation operations, which reduces the fatigue of the surgeon’s prolonged work.
- Human-machine Collaboration
The surgeon leads the surgical planning and operation and controls the implantation.The intelligent robot combines active and passive movements to guarantee the precise positioning of the lesions.
- Motion Simulation and Force-sensing Control
PL300B adopts robotic simulation and force-sensing control technology which can prejudge the trajectory of the robotic arm and automatically stop moving when it encounters obstacles, avoiding collisions and accidents.