Across dental clinics, robotics are increasingly standard in surgical procedures, reflecting shifts in both technology and patient care. Clinicians now look beyond conventional methods, seeking efficient tools for complex processes such as dental implant surgery. Neocis, known for its Yomi and Yomi S robotic platforms, stands at the intersection of this transition, with recent milestones demonstrating adoption among specialists nationwide. As demand for precision and workflow integration grows, dental practitioners show an inclination for solutions that balance accuracy and usability. The company’s recent announcement points to this changing landscape within dental surgery.
Analysis of information from previous news reveals that Neocis has continued to emphasize scalability and user experience since the initial FDA clearance for Yomi in 2017. Earlier updates mainly focused on the technology’s ability to assist with accurate implant positioning and reduce human error, while more recent developments highlight growing adoption and expanded features. Notably, the new Yomi S system is described as having a smaller footprint and a longer arm for increased versatility, addressing flexibility for various clinic environments, which was not emphasized in prior coverage. The progression of software capabilities and AI integration also appears to have progressed more rapidly than initially expected by industry watchers.
What Drives the Expansion of Robotic Surgery?
Dental surgery is seeing a shift as more practitioners turn to automated systems like Yomi to streamline osteotomies and enhance patient outcomes. According to Neocis, reaching 100,000 osteotomies with Yomi illustrates reliance on robotic planning and guidance. The company highlights how clinicians integrate these systems into daily routines, demonstrating confidence in tech-driven methods.
“Reaching 100,000 osteotomies is more than just a statistical achievement — it represents clinicians across the country choosing to integrate robotics into their daily surgical workflow,”
noted Alon Mozes, co-founder and CEO of Neocis. These numbers signal a broader acceptance as practitioners increasingly favor digital and hands-on assistance.
How Does Yomi S Address Clinical Needs?
Yomi S, Neocis’ second-generation device, builds on the features of the original Yomi system by offering greater dexterity and a more compact design. The newer system is engineered for use in smaller clinical spaces while maintaining reach and flexibility during procedures. Enhanced features include real-time haptic feedback and integration with the YomiPlan software, allowing practitioners to use AI-supported segmentation of critical anatomical features. Dennis Moses, Neocis’ chief technology officer, emphasized the value of seamless workflow integration:
“Clinicians are increasingly seeking technologies that integrate seamlessly into existing workflows while delivering tangible procedural value.”
This flexibility enables its application in a range of cases, from single implants to full-arch treatments.
What Role Does AI Play in Dental Robotics?
Central to Yomi’s approach is the use of YomiPlan software and AI algorithms that automate the identification of nerves and sinuses from CBCT scans. This automation helps reduce planning time and enhances safety by minimizing risks linked to anatomical errors. As operators plan procedures virtually, the platform’s machine learning capabilities tailor surgical guides to individual patient anatomy. In practice, Yomi’s haptic guidance and feedback mechanisms support the clinician through every step, helping to maintain accuracy without removing control from the dentist.
As more dental organizations adopt robotic solutions, users and patients may benefit from faster, more predictable, and potentially safer outcomes. With continued software development and product updates, Neocis emphasizes support for broader clinical applications, yet regulatory oversight remains crucial to expanding robotic tools within medical environments. For practitioners, evaluating how platforms like Yomi balance clinical autonomy with technology-driven support will be key. Dental teams considering robotic implementation are advised to review FDA clearances, software update cycles, and compatibility with existing workflows. As AI and robotics converge more closely with clinical practice, ongoing observation will be necessary to assess long-term reliability, user learning curves, and ultimately, patient satisfaction.
