Robotic Hair Restoration

Automating hair transplants — from scan to graft.

Samson Robotics is building the world's first fully autonomous hair transplant robot: faster, more precise and more affordable than manual surgery — so patients no longer have to fly to Turkey for an effective, trustworthy procedure.

Samson Robotics dual-arm robot performing a hair transplant procedure on a patient, supervised by a nurse
50% of men over 25 experience hair loss
6–8 hrs length of a typical manual procedure today
3–4 medical staff required per manual procedure
€10B estimated global hair transplant market
The Problem

A booming market still stuck with manual, inconsistent surgery

Hair loss is recognized as the number one source of insecurity among men aged 25–60. Hair transplantation is the most effective solution — but today's procedures are entirely manual, labor-intensive and highly dependent on the skill of the operating team.

Expensive at home

A procedure in Western Europe costs €5,000–€12,000, and $8,000–$15,000 in the US — pricing many patients out.

Patients fly abroad

Most cost-driven patients travel to Turkey (€2,000–€5,000) or Mexico, where oversight and quality guarantees are far less consistent.

👤

Variable outcomes

Manual graft yield ranges from 60% to 90% depending on the dexterity and fatigue of the nurses and surgeon performing the procedure.

Our Solution

A robot that scans, extracts and implants — with minimal supervision

The Samson Robot scans the patient's scalp, maps every follicle and its orientation, and builds a treatment plan the doctor and patient validate together. It then performs the extraction and implantation itself, continuously improving graft-by-graft through machine learning.

The result: transplant yield and speed greater than manual surgery, at a fraction of the labor cost — and a price point that keeps patients from having to travel abroad.

Explore the technology →
Concept rendering of a Samson Robotics hair treatment center entrance
Phase 1 — Complete

We've already built the hardest part

Our first robotic arm autonomously identifies and extracts hair follicles — de-risking the most technically demanding step of the process. We're now raising funds to build the full prototype: scalp scanning, a second implantation arm, and the transfer system between them.