Artas
The ARTAS® robotic hair restoration device is used to automatically harvest follicular units from the donor area.
What is the ARTAS hair transplant robot?
The ARTAS hair transplant robot is an innovative medical device designed to assist surgeons in performing follicular unit extraction (FUE) hair transplant procedures. Developed by Restoration Robotics, the ARTAS system combines advanced imaging technology, robotic precision, and artificial intelligence to enhance the accuracy and efficiency of hair transplantation. Here’s an overview of how the ARTAS hair transplant robot works and its key features:
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Imaging and Planning: The ARTAS system begins by capturing high-resolution images of the patient’s scalp using digital imaging technology. These images are analyzed by the ARTAS software to create a detailed 3D map of the scalp, identifying the location, angle, and density of each hair follicle. Surgeons can then use this information to customize the hair transplant plan and design the recipient area for optimal aesthetic results.
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Robotic Harvesting: Once the transplant plan is established, the ARTAS robot employs a robotic arm equipped with a specialized harvesting tool to extract individual follicular units from the donor area of the scalp. The robot utilizes advanced algorithms and artificial intelligence to precisely locate and harvest follicular units while minimizing trauma to the surrounding tissue. This automated harvesting process offers several advantages over manual extraction techniques, including increased accuracy, consistency, and speed.
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Site Creation: After harvesting the follicular units, the ARTAS robot can also assist surgeons in creating recipient sites in the bald or thinning areas of the scalp. The robot uses its precision guidance system to make tiny incisions in the scalp, ensuring the proper depth, angle, and spacing of the recipient sites for optimal hair growth and natural-looking results.
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Integration with Surgeon Expertise: While the ARTAS robot performs the majority of the harvesting and site creation process autonomously, it also allows surgeons to intervene and make manual adjustments as needed. Surgeons have the flexibility to oversee the procedure in real-time, monitor the robot’s progress, and make refinements to the hair transplant plan as necessary.
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Patient Comfort and Recovery: The minimally invasive nature of the ARTAS procedure results in less post-operative discomfort, reduced scarring, and faster recovery times compared to traditional hair transplant methods. Patients typically experience minimal downtime and can resume their normal activities shortly after the procedure.
Overall, the ARTAS hair transplant robot represents a significant advancement in the field of hair restoration, offering surgeons a sophisticated tool to enhance the precision, efficiency, and outcomes of FUE hair transplant procedures. By combining robotics, imaging technology, and artificial intelligence, the ARTAS system provides a safe, effective, and minimally invasive solution for patients seeking natural-looking hair restoration.