Can 3D Technology Revolutionize Orthodontics Landscape?

27/mag/2019 12:51:49 kalyani badkas Contatta l'autore

Questo comunicato è stato pubblicato più di 1 anno fa. Le informazioni su questa pagina potrebbero non essere attendibili.


Evolving technologies and integration of digital solutions in healthcare and medical has transformed diagnosis and treatment planning from conventional 2D to advanced 3D technique. In recent years, the application of 3D technology in orthodontics has increased. Personalized orthodontic appliances are created using 3D techniques such as CAD / CAM fabricated brackets, and customized wires.

Replicating human form more accurately than traditional techniques, 3D printing is finding wide application in dental implants and orthopedics. Moreover, with the growing demand for developing countries, 3D printing is used for creating complex shapes and lightweight parts that can be used in creating implants.

How 3D Technology is Transforming Orthodontics?

Enhanced treatment procedures, fast and smooth patient care, greater precision, and dependably superior appliances are some of the advantages of 3D printing in orthodontics. Using 3D modeling technology dentists are cutting out the need to work with lab. Moreover, dentists can also use 3D technology to develop models and bridges for more complicated surgeries.

3D printing has led to customization in orthodontics by providing custom 3D printing on teeth, dentures, crowns, and variety of other practitioners and patients tools. 3D printing can also be used to design and print a set of teeth. In addition, a portion of teeth or crowns can also be custom printed using 3D technology.

Cone Beam 3D Imaging in Orthodontics

Significantly changing the diagnostic approach practiced in orthodontics, 3D beam imaging is a highly preferred imaging procedure for comprehensive orthodontic treatment. Increasing prevalence of dental disorder is also a boost to the demand for advanced imaging systems such as 3D beam imaging. 3D Cone Beam Imaging has enhanced the ability to observe undistorted It also offers a cross section of teeth Which is not possible using 2D technology.

In-depth information provided by cone beam 3D imaging allows more precise treatment planning. In addition, it is non-invasive, accurate and painless, and the ability to see soft tissue in the orthodontics.]

Get more info about the Endodontics and Orthodontics Market : 

Currently, 3D imaging is not used, 3D imaging is used, 3D imaging is used. Moreover, delivering more radiation is compared to conventional X-ray is leading to hesitation among dentists to use. 3D imagery. Meanwhile, radiation exposure is greater among young patients than they are highly sensitive to radiation. Moreover, the FDA and the American Dental Association also recommend 3D imaging only when necessary for diagnosis and treatment. However, numerous benefits provided by 3D bone imaging outweighs the risk.

Drastic Cost Reduction with 3D Technology in Orthodontics

Promising advances in dental field, 3D printing has taken world by storm. From a very long time dentistry has relied upon laboratories to produce bridges, dental implants, crowns, and other structures. 3D lab is less than running at dental lab. It can cost as low as $ 500 to as high as $ 100,000.

However, the 3D printers are lower in the cost of a patient while providing a huge cost savings for patients.

With clear aligners, moreover, outsourcing production of clear aligners, resulting in significant cost and time. 3D printers are widely adopted by orthodontists and emerging cost-effective solutions for clear aligners.

In-house 3D printers to produce in-house printers in-house to produce in-house printers

3D Technology: Future of Orthodontics?

Digital technology continues to revolutionize the orthodontics landscape through the advent of 3D technology. Orthodontists are rapidly adopting 3D printing technology to produce orthodontic and other dental parts. Providing affordability, convenience, and customization for patients with increasing popularity of 3D printing technology in orthodontics.

According to the World Health Organization (WHO), oral diseases are the 4 th most expensive to treat diseases in developed and developing countries. Moreover, an analysis by the Organization for Economic Corporation and Development (OECD), oral disease treatment including dental care, is responsible for around 5% of the total health expenditure in developed countries. This is driving the demand for advanced techniques and to accelerate the diagnosis and treatment of 3D technology, including 3D printing and 3D imaging in orthodontics.

With 3D printing custom products in large volumes, companies are constantly focusing on introducing materials for 3D printing dental implants and orthodontic aligners. Stability, biocompatibility, flexibility, and strength are key features that companies are looking for materials to produce dental structures in orthodontics using 3D printing.

Biocompatible dentistry is also gaining popularity with increasing application of biocompatible materials for 3D printing orthodontic models. Companies are offering biocompatible materials for dental 3D printing. Moreover, the effect of dental materials on health has been significant. Hydroxyapatite and bioceramics owing to their biocompatibility are widely used in dental implants. High purity zirconia, alumina and glass bioceramic are becoming highly preferred over metal in dental implants. Companies are focusing on research and development of advanced biomaterials for 3D printing orthodontic models on the assessment of biological performance of advanced biomaterials.

In the past couple of years, the FDA as a class I and II biocompatible and ideal for dental applications. Moreover, with the rise in functional resins in 3D printing for orthodontics along with the improvement of 3D technology in orthodontics.


blog comments powered by Disqus è un servizio offerto da Factotum Srl