A clinical trial led by Mansoura University investigates the use of a 3D-printed, bone-anchored miniscrew-assisted rapid palatal expansion device in young adults. The study aims to evaluate its safety and effectiveness. Interested parties can monitor this development for potential future breakthroughs in orthodontic treatment innovation.
What changed?
A new clinical trial registered under Mansoura University on January 10, 2026, is actively recruiting participants. The study tests a novel approach using a 3D-printed, bone-borne rapid maxillary expansion device in orthodontics. The trial investigates its efficiency and safety for young adult patients requiring maxillary expansion, a common orthodontic procedure.
What is the device?
The trial centers on a device classified as a bone-anchored miniscrew-assisted rapid palatal expander. This innovative tool integrates 3D-printed frameworks and aims to replace traditional models in rapid maxillary expansion. Rapid maxillary expansion techniques address maxillary constriction or a narrow upper jaw, a condition associated with functional and aesthetic concerns. The 3D-printed design ensures a customized fit for individual patients, reducing discomfort and enhancing outcomes.
Who does this affect?
The study focuses on young adults who are candidates for skeletal expansion without undergoing invasive surgical interventions. This age group often experiences delays in orthodontic treatment due to concerns about prolonged healing times or invasive techniques. A minimally invasive, effective, and tailored method could reshape decision-making for this population.
How does it work?
The bone-borne expander uses miniscrews anchored to the maxillary bones to facilitate expansion of the mid-palatal suture. By combining bone-anchored technology with 3D printing, the device promises greater precision and stability during the treatment period. Anchoring directly to the skeletal framework may reduce the dental side-effects like root resorption or tipping of the teeth, which are common in traditional tooth-borne expanders.
Frequently Asked Questions
1. What is a rapid maxillary expansion?
This orthodontic procedure widens the upper jaw to address dental crowding, crossbites, or airway obstruction. Traditional methods typically use tooth-borne appliances.
2. How is this device different from traditional expanders?
This device uses bone anchorage and 3D printing for a more precise fit and functional control, aiming to reduce side effects associated with conventional appliances.
3. Who is eligible to participate in the study?
The study is seeking young adults requiring maxillary expansion. Full inclusion and exclusion criteria are listed on the ClinicalTrials.gov page.
4. Is this device approved for clinical use?
The current trial seeks to verify the safety and efficacy of the device. Until the trial is concluded and results reviewed, it remains investigational.
Conclusion
This active clinical trial indicates a promising step forward in orthodontic technology, merging custom 3D printing with bone-anchored solutions to potentially provide better outcomes in maxillary expansion treatments for young adults. Orthodontic professionals and healthcare providers can follow ongoing updates to assess the long-term impact of this innovation on their practices.
Disclaimer
This article is for informational purposes and does not constitute medical or legal advice. Always consult with qualified professionals regarding medical devices and clinical trials.
Read More
For full information about the announcement, see the link below.
https://clinicaltrials.gov/study/NCT07331207?term=medical+device