Nobody hears “you need a crown” and feels excited. You start thinking about the drilling, the temporary crown, the return visit and the time it takes to get everything finished.
Now, researchers at the University of Basel in Switzerland are working on a tiny dental robot that could one day change that process. The prototype is called MIR, short for Miniature Intraoral Robot. University of Basel says the device could help prepare teeth for crowns and reduce the number of dental appointments needed for treatment.
WOULD YOU PAY $8,000 FOR A ROBOT TO FOLD LAUNDRY?
The idea may sound intense because we are talking about a drill-equipped robot inside your mouth. However, the current design keeps the larger motor and control parts outside the mouth. The small in-mouth robot connects to them through flexible drive shafts, cables and tubes.
Free live CyberGuy class: Sick of Spam? Join us July 22
Join us Wednesday, July 22, at 1 PM ET for a free CyberGuy Live class that will help you cut down on robocalls, spam texts, junk email and other unwanted messages. Kurt “CyberGuy” Knutsson will walk you step by step through simple ways to filter spam, clean up your inbox and recognize the messages that could put your personal information at risk. No technical experience is needed. You’ll also receive our spam-stopping checklist, and every registrant will get a link to the class recording afterward.
Reserve your free spot today at CyberGuyLive.com.
If tooth decay leaves a large cavity, a dentist may need to prepare the tooth for a crown. Today, that can mean several steps. The dentist removes decay, fills the cavity, shapes the tooth, takes an impression and fits a temporary crown. Then, the permanent crown gets made and placed during a later visit.
That is where MIR could help. The goal is to move more of the process into a digital workflow. After a scan, a dentist could plan how much tooth material the robot should remove. Then, the crown could be ordered right away instead of waiting for another appointment.
MIR attaches to a custom-fitted dental splint made from the patient’s scan. That splint connects the robot to the teeth. So, if the patient turns their head, the robot moves with them.
That detail stood out to me. Anyone who has ever tried to stay perfectly still in a dental chair knows how hard that can be. Even a small twitch can feel huge when a drill is near your tooth.
The robot is designed to follow a digital treatment plan. In testing, it prepared tooth models in two stages. First, it used a wider drill to reduce the top of the tooth surface. Then, a longer, thinner drill worked along the sides.
HUMANOID ROBOTS PERFORM LIVE SURGERY IN WORLD FIRST
The University of Basel says the MIR prototype is about the size of a wine cork. It measures 43 by 26 by 28 millimeters. Dr. Yukiko Tomooka, the paper’s first author, said the robot was designed to fit comfortably inside an open mouth.
That small size is key. A dental robot cannot feel bulky or block the dentist’s view. It also cannot depend on a giant device sitting inside your mouth. So, the Basel team moved the larger parts outside the mouth and kept the in-mouth unit compact.
The project page from the University of Basel’s Department of Biomedical Engineering says the team wants MIR to enable a fully digital treatment workflow for tooth preparation. The long-term vision is a crown that can be manufactured before or during the preparation process using CAD-CAM dental technology.
So far, MIR has been tested on tooth models made of synthetic resin and on ceramic material with hardness similar to tooth enamel. In those tests, the robot’s positional error was less than 0.2 millimeters, even though the current version does not yet have sensors to directly measure or correct its position.
Researchers also measured the force created during drilling. University of Basel says the forces stayed below five newtons, which it compares to the gravitational force of a half-liter bottle of water. The team is also studying the robot’s noise level to better understand how it might work in a real dental office.
This tiny robot has not yet reached dental offices. University of Basel says more work is needed before MIR can be used in dental practices. The next step is to add sensors and a camera, so the system can track its position and monitor the treatment as it happens.
That safety piece is a big deal. The team wants MIR to know where it is, even after a power outage. Professor Georg Rauter, who leads the research group, said the goal is for the robot to continue from the right position using sensor data.
In other words, the robot needs better awareness before anyone should trust it near a real tooth. Precision on models is one thing. A real mouth adds saliva, movement, pressure, nerves and patient anxiety.
MIR was developed by researchers at the Department of Biomedical Engineering at the University of Basel. The idea came from researchers at the University of Zurich, who also took part in the work.
The University of Basel project page lists the BIROMED-Lab, the Clinic of Reconstructive Dentistry at the University of Zurich, Camlog Biotechnologies and the University of Bern’s ARTORG Center as collaborators. The project is sponsored by Innosuisse. The research was published in IEEE Transactions on Medical Robotics and Bionics.
BIONIC HANDS ARE NOW TEACHING ROBOTS TO FEEL
If you have ever needed a crown, you know the process can drag on. MIR could eventually make that experience faster by letting dentists scan, plan and prepare the tooth with more digital precision.
Still, this technology remains in development. You should not expect a tiny robot to show up at your next dental appointment. Researchers still need to add sensors, add a camera and prove that the system can work safely in real treatment settings.
Even so, this is worth watching. Dentistry is already moving toward digital scans, computer-designed crowns and more guided procedures. A robot like MIR could push that trend further, especially if it can reduce repeat visits.
This is the kind of dental tech that makes you lean forward and squirm a little. A tiny robot mounted inside your mouth may sound intense. Still, the goal is something many of us would welcome: fewer follow-up appointments when a crown is needed. The most important detail is that MIR remains a prototype. It has only been tested on models and dental-like materials so far. The team still plans to add sensors and a camera before real dental use. If MIR works, a future crown appointment could feel more like a guided digital procedure than the drawn-out process many of us know today.
Would you trust a tiny robot to drill your tooth if it meant fewer trips to the dentist? Let us know by writing to us at CyberGuy.com.
Sign up for my FREE CyberGuy Report
Copyright 2026 CyberGuy.com. All rights reserved.
