3D printing has been successfully used to make small and precise parts for Orthodontists and dentists. The introduction of this medical field provides a gateway technology, which has great future prospects, can change the time, ability and cost of oral health, and find self-sufficient and effective solutions.
Everyone has different teeth. 3D printing has made great progress in helping dentists and orthodontists in many ways. Many dental appliances and other assistive products, such as dental crowns, must be customized according to their unique dental profile and other assistive technologies.
Read how the pionext dj-89 dental 3D printer can help maximize dental clinic productivity - while increasing patient satisfaction!
Because all teeth are unique, different people need different orthoses. For example, braces are usually prescribed for young people who are developing teeth. However, with the rise of 3D printing, braces have been transformed to manufacture braces and other dental devices that meet the needs of unique maxillofacial shapes and tooth and jaw contours.
High growth 3D printing for dentistry
According to researcher nischal, by 2023, the global 3D printing dental equipment market will grow by about 20% per year by US $667 million. This is a healthy growth rate. Welcome to use any technology to help it grow.
For example, Victor, based in Cambridge, Massachusetts, offers 3D printing technology to help make custom braces for orthodontists. Using their technology and software, each stent of the stent is designed dynamically in real time to obtain a unique maxillofacial contour. It is based on the patient's specific tooth morphology.
This is combined with specific clinical treatment and patient plans by orthodontists, dentists or other professionals.
First, the orthodontist sets the teeth to a specific design or scans the teeth digitally. The software achieves this by creating the best biomechanical design for the patient's specific tooth morphology and maxillofacial features. This generates a design that can be fed into the 3D printer using the appropriate resin material to create the appropriate bracket.
Dr Victor Peter, CEO and founder of Victor, said: "the one size fits all prescription restrictions have now disappeared." "By enabling orthodontists to design brackets according to specific conditions, we can give them complete control of their most basic treatment tools. This flexibility is not feasible for traditional stent manufacturing methods."
Many dental applications
3D printer manufacturers are creating printers with this specific market niche. In 2021, pionext launched a 3D printer for dental applications. Pionext dj-89 dental 3D printer is specially designed for orthodontic laboratory, and its manufacturing scale can meet the needs of today's clinical dental environment.
This is happening with the dental community - pionext describes it as one of the "fastest adopters of 3D printing technology". Although 3D printers can be used to create orthodontics, they are also very useful in manufacturing digital dental models customized for specific tooth morphology; In some cases, scans can also be used to create molds within the dental clinic itself. This is a win-win for dentists, patients and all relevant personnel.
3D printing has many other applications in the dental field, including the manufacture of night retainers, crowns and implants, as well as auxiliary tools to assist dentists and orthodontists in surgery and other dental operations.
Learn more about the pilonext dj-89 dental printer：https://www.pionext3d.com/
The future of 3D printing and additive manufacturing in dentistry and orthodontics is bright: dentists are buying printers for their practice and putting them into use, or the laboratories they use are using them. The net effect of dental additive manufacturing is a more accurate and accurate dental product, which greatly benefits patients.
Pionext, based in San ANN, Missouri, uses additive materials to make transparent orthotics. The transparent appliance is made of invisible polyurethane plastic and is not bonded to the teeth. For orthodontic purposes, they can be completely disassembled and partially worn throughout the day, and can be removed when the patient chooses not to put them in the mouth - for social reasons or brushing and flossing. Pionext sees them as a lucrative and fast-growing part of the dental market and is using 3D printing to mass produce them, printing nearly 1000 a day.
With the progress of 3D printing and additive manufacturing, so will the medical applications used in dentistry and orthodontics. 3D scanning and manufacturing may have changed and will continue to change this technology, perhaps unprecedented in dental history.