ARTAS® Robotic Hair Restoration

The First and  Robotic Hair Transplant System

 

Feel years younger with ARTAS® Robotic Hair Transplant. This FDA-cleared, physician-assisted technology provides permanent, natural-looking results without the plugs, pain and stitches associated with traditional hair transplants like strip surgery. This minimally invasive procedure does not leave a linear scar, so you have the freedom to cut and style your hair the way you like without having to hide a scar.

Harvesting

Advanced digital imaging analyzes and tracks each hair to preserve the natural look of your donor area.

Recipient Site Making

Recipient Site Making with intelligent algorithms creates the ideal hair pattern for the optimal outcome. Protects existing, healthy hairs.

 

The Past

For many years, balding patients have been searching for a minimally invasive and virtually pain-free procedure to restore their natural hair. Patients feared artificial-looking, obvious results. Even now, older and more traditional hair transplant procedures are invasive, requiring stitches with prolonged and painful recovery. These procedures leave patients with an obvious linear scar, often requiring a longer hairstyle to conceal. Side effects may include residual and lasting scalp tightness, and potential nerve injury in the donor area.

There are other manual handheld methods that depend entirely on human eye-hand coordination. One of the many risks include human error and a high degree of human fatigue. Visualization of the treatment area is limited to what can be interperted by magnification glasses. This repetitive manual task loses consistency and quality over time.

The ARTAS Look

The ARTAS® Robotic System was designed with you, the patient, in mind. Developed with leading hair transplant physicians and researchers, this state-of-the-art robotic technology was created to eliminate the guesswork and fatigue associated with manual handheld methods, along with the scarring, complications and downtime of existing invasive surgical techniques.

With the ARTAS® Robotic Procedure, no long incisions or stitches are required, rendering your hair transplant procedure virtually undetectable. Overcome the negative stigma associated with traditional, manual hair transplants and expect exceptional results without the side effects and recovery time common with older techniques.

How ARTAS® Benefits You

  • Virtually Pain Free – No stitches or linear scar associated with the ARTAS Robotic Hair Transplant Procedure.
  • Intelligent Algorithms – Identify and select your best hairs for harvesting.
  • Physician-Assisted Robotic Technology – Delivers high quality robust grafts.
  • Robotic Harvesting – Digital mapping provides precise and consistent graft dissection, unavailable with manual techniques.
  • Robotic Recipient Site Making – Creates natural site distribution for optimal results that avoids damaging existing healthy hair.
  • Eliminates Human Fatigue and the Potential for Error Associated with Traditional Manual Hair Transplants – Ensures consistent graft quality throughout the procedure.
  • Fast recovery – Allows you to get back to work and your daily activities quickly.

How Will You Look?

ARTAS Hair Studio® is a 3D photograph based simulation of your potential results. During your consultation, your physician will work to design your personalized cosmetic hair pattern and illustrate different options, showing you various graft counts and hair distribution, with your direct input. Intelligent algorithms create a natural site distribution that avoids damaging existing healthy hair, giving you a natural, fuller look.

Preview your potential results today. The ARTAS Hair Studio® Technology is a 3D photograph based simulation of your potential results. During your consultation, your physician will design your personalized aesthetic hair pattern and illustrate different options, showing you various graft counts and hair distribution, with your direct input.

Contact Us

82 East Allendale Road | Saddle River, NJ 07458

Phone: 201.350.5300 | Fax: 201.669.5911