Oral scanning is a modern digital oral impression technology that uses optical sensors and computer software to accurately capture the details of the oral structure and create a digital three-dimensional model.

High precision and accuracy

Oral scanning technology uses optical sensors to convert the details of the oral structure into a digital three-dimensional model, and its precision and accuracy are much higher than traditional impression technology. Traditional impression technology often has low accuracy due to the shrinkage or deformation of the impression material, while oral scanning can provide more detailed and accurate oral structure information, providing better treatment options for dentists.

Convenient and fast

Oral scanning technology is implemented through computer software, without the use of traditional impression materials, thus avoiding the time required to wait for the impression material to solidify in traditional impression technology. Oral scanning only takes a few minutes to complete, greatly saving time for patients and doctors.

Patient comfort

Compared with traditional impression technology, oral scanning is more comfortable for patients. Traditional impression technology requires the impression material to be placed in the mouth for a period of time, which may cause discomfort and vomiting reactions in patients. Oral scanning only requires the use of optical sensors for scanning, so patients do not need to endure the discomfort of impression materials, which improves patient comfort.

Digital records

The digital 3D models generated by oral scanning technology can be saved in the computer for easy viewing and use at any time. Compared with the physical impressions in traditional impression technology, digital records are not easily lost or damaged, and are also more convenient for archiving and sharing.

Efficient treatment plans

Using the digital 3D models generated by oral scanning technology, dentists can make more accurate diagnoses and design treatment plans. Digital models can be accurately measured and analyzed in computers, helping doctors better understand oral structures and develop more effective treatment plans.