Fuyee Dual-Arm Hair Transplant Robot

Fuyee Medical’s Dual-Arm Hair Transplant Robot applies the company’s core microsurgical teleoperation technology to follicular unit extraction (FUE) procedures. The system addresses key limitations in traditional hair transplantation through automated, precision-guided follicle harvesting.

Product Overview

Hair transplant procedures face several operational challenges: subjective estimation of follicular unit quantities, prolonged surgical durations often exceeding eight hours, heavy dependence on operator experience, and cumulative fatigue affecting extraction quality over extended procedures.

Fuyee Medical’s hair transplant robot leverages the dual-arm platform and precision control systems developed for the Akso microsurgical robot. By applying motion scaling and automated extraction protocols, the system aims to standardize follicular unit harvesting while reducing procedure variability.

Key Features

For follicular unit extraction, Fuyee Medical’s dual-arm platform applies the same motion-scaling and precision-positioning technology developed for its Akso microsurgical robot to standardize graft harvesting.

• Dual-Arm Architecture: Bilateral robotic arms enable coordinated extraction workflows
• Precision Positioning: Motion control technology adapted from microsurgical platform
• Reduced Fatigue Dependency: Automated extraction maintains consistent quality throughout prolonged procedures
• Standardized Harvesting: Robot-assisted approach reduces variability between operators

Technical Approach

The system represents a downstream application of Fuyee Medical’s core micro-precision robotics platform. Core technologies include:

• Motion scaling for precise follicular unit targeting
• Coordinated dual-arm control for efficient extraction sequences
• Adapted micro-instrumentation for follicular unit handling

Unlike standalone hair transplant robots, Fuyee’s system derives from a surgical robotics platform designed for neurosurgery, potentially enabling higher precision than purpose-built cosmetic devices.

Clinical Applications

The robot targets follicular unit extraction procedures for:

• Male pattern baldness treatment
• Female pattern hair loss
• Eyebrow restoration
• Beard transplantation
• Scar revision with hair grafting

The system focuses on the extraction phase of hair transplantation, where precision and consistency directly impact graft survival rates and procedure outcomes.

Regulatory Status

The hair transplant robot has completed type testing, representing progress toward regulatory submission. No timeline for NMPA approval has been publicly disclosed.

Frequently Asked Questions

What is follicular unit extraction?

Follicular unit extraction (FUE) is a hair transplant technique where individual follicular units are harvested directly from the donor area using small punch instruments. Unlike strip harvesting, FUE leaves minimal scarring and allows shorter recovery times. The procedure is technically demanding, requiring precise extraction of thousands of follicular units over several hours.

How does robotic assistance improve hair transplants?

Robotic systems can maintain consistent extraction quality throughout prolonged procedures, reducing the fatigue-related variability that affects manual extraction. Precision positioning helps minimize follicle damage during harvesting, potentially improving graft survival rates. Automated systems may also reduce overall procedure duration.

Is this robot commercially available?

As of early 2026, Fuyee Medical’s hair transplant robot has completed type testing but has not yet received NMPA registration approval for commercial sale in China.