Ortho Technology, Inc.
Ortho Technology, Inc. provides dental products for orthodontists and laboratory personnel. It offers laboratory supplies and patient accessories, including archwires, brackets, and bands. Ortho technology also distributes a wide variety of related products, such as orthodontic adhesives and lubricants. For more information, visit PitchBook Platform. The company’s profile on PitchBook offers detailed information about the company and its products. Listed below are some of the other products it offers.
CAD/CAM
While the CAD/CAM process has been around for many years, it hasn’t yet been fully utilized in orthodontics. For now, it’s used to make custom-made brackets and transparent aligners. It’s not yet flexible enough to fully meet the expectations of orthodontists, but it’s a great help in finishing the treatment optimally. Here’s a closer look at some of the benefits of CAD/CAM in orthodontics.
The CAD/CAM process is typically used to manufacture a bite splint, but functional orthodontic appliances may also be made this way. This includes the functional regulator 3 developed by Rolf Frankel. Unlike the traditional appliance, this one doesn’t require an activatable element. The goal of this CAD/CAM process is to create customized orthodontic appliances with more accurate measurements. However, the customized technology will require a greater investment.
Computer-aided design, or CAD/CAM, is a technique that utilizes three-dimensional models to create a replica of a tooth. It’s the latest way to manufacture prosthetic restorations. It’s also an excellent way to streamline your workflow and expand your business scope. With a digital CAD/CAM solution like Planmeca Emerald(TM), dentists can add services and integrate additional equipment, allowing them to expand their practice.
During the study, a prospective quasi-randomized controlled trial design was used to evaluate the clinical efficiency of customized brackets. This study was approved by a local ethics committee and registered with the German Register of Clinical Studies. It consisted of continuous patient recruitment at Ludwig Maximilians University, Munich, until the last patient was treated in August 2019. Patients provided written informed consent and were evaluated by the researchers using the CONSORT 2010 checklist and flow diagram, available in the Additional files.
Robotic wire bending
The development of robotic wire bending with ortho technology has made the task easier for orthodontists. Before, only a few orthodontists were capable of bending wires. Now, all patients can get their treatment at one location, where everything is done in a standardized way. Robotic wire bending with ortho technology makes the process easier by reducing fit issues and improving accuracy.
The SureSmile(r) system directs a robotic machine to bend archwires in accordance with a patient’s treatment plan. The robot bends the archwires using a shape-memory alloy with accuracy of one-tenth of a millimeter. Using SureSmile’s Treatment Planning Software, the orthodontist can visualize the final result and the position of each tooth. In addition, digital evaluation of progress can be done during the treatment.
The two main components of a robotic archwire are the bracket and the archwire itself. These three components can be further subdivided to create a virtual design of the archwire. These two components can be combined with a computer program to make a 3D representation of the archwire. The model is based on the geometrical coordinate system and can be easily adjusted. During the bending process, the robotic system can make small adjustments to the archwire to suit the patient’s dental needs.
The development of robotics in orthodontics has advanced in recent years. It is now possible to create a robot that can diagnose and manage a patient’s treatment, while also using micro or nanorobots to manipulate teeth and other dental objects. Other applications include robotic assistants, implant placement, and automated aligner production. There are many benefits of robotics in orthodontics and it is only a matter of time before these machines can replace human orthodontics.
Digital x-rays
The benefits of digital x-rays for ortho technology are many. For one thing, digital x-rays have superior quality, because they don’t require the development of the film. In addition, they don’t need to be processed, meaning they are easier to share and store. Finally, they are easier to interpret, meaning the doctor will be able to spot minute changes in tooth structure. But what does digital technology mean for you?
In addition to the increased speed and lower radiation exposure, digital x-rays have other advantages over traditional film X-rays. They don’t require chemicals for developing film, and the images are available right away on the computer screen. In addition, digital x-rays have enhanced options that help the dentist detect changes in the structure of the teeth. This means a significant reduction in radiation exposure.
Orthodontic treatment plans can be easier to create with digital X-rays. The benefits of digital x-rays are both obvious and subtle. While a traditional x-ray is considered standard practice, digital x-rays are more accurate, more convenient, and safer. The most recent versions of digital x-rays are more advanced than ever. This means they are better for your dental health and more convenient to use.
Other benefits of digital x-rays for ortho technology include less discomfort and quicker treatment time. In addition, patients don’t have to endure messy impressions anymore. And with the latest 3-D video technology, it is possible to visualize the treatment process. This technology is a great help for orthodontic treatment and can be used at any orthodontic lab. And you can take advantage of the convenience this technology provides. This way, you don’t have to worry about uncomfortable impressions or uncomfortable trays.
Invisalign braces
Invisalign braces are an invisible orthodontic treatment that straightens teeth without the use of metal or ceramic materials. Patients wear Invisalign aligners 20-22 hours a day and can remove them when eating, playing sports, or socializing. They take about the same amount of time to straighten teeth as traditional metal braces, but they can be removed when they need to smile or play an instrument.
The Invisalign trays are removable, allowing patients to eat, brush, and floss, and avoid food trapping. They also move teeth in small amounts with each new set of aligners. Invisalign treatment requires only two check-ups, and these appointments are virtual. Typically, a new tray must be worn for four to ten weeks, with the number increasing depending on the complexity of the case.
The Invisalign System is a high-tech orthodontic treatment based on a 3D imaging of teeth. Each aligner is custom-made for the patient’s teeth and moves them in tiny steps over time. It uses advanced computer technology to translate treatment instructions into precise computer graphics. Invisalign aligners are worn for two weeks and removed only for brushing and eating. The system is patented and the treatment is not yet available to all patients.
Ortho Technology is a fast-growing leader in the orthodontic supply market. Founded in 1991, this company has been a leader in the field of orthodontic supplies. Providing innovative products and outstanding customer service, Ortho Technology is committed to helping patients achieve their goals. You’ll feel confident knowing that your smile is in good hands. So, what’s next? Get in touch today and schedule a consultation with a trusted professional.
CBCT imaging
CBCT imaging has made significant contributions to dentistry and craniofacial morphology, treatment planning, and outcomes. It is especially valuable in cases where conventional radiography alone is inadequate to provide accurate results. For example, CBCT can help diagnose impacted teeth and their root resorption, which can greatly affect orthodontic surgery planning. CBCT images can also show how the jaws are affected by certain injuries, such as tooth fractures, impacted wisdom teeth, or a fractured tooth.
With more accurate CBCT imaging, orthodontists can more easily diagnose and plan treatment. They can monitor treatment progress and outcome. More orthodontists are using this technology as part of their practice. While it was not initially favored, CBCT imaging has increased its use in the dental profession because of its lower radiation exposure and low cost. Because it allows practitioners to view the craniofacial complex in three dimensions, this technology has been a great boon for orthodontic care.
CBCT has changed the face of orthodontic treatment. It has increased diagnostic accuracy and improved localization of impacted teeth. It has also improved airway visualization, helped identify airway abnormalities, and enhanced treatment planning. It can also be used to identify endodontic issues, plan placement sites for temporary skeletal anchor devices, and view condylar and TMJ bony structures. Cone beam CT imaging allows clinicians to see and measure a patient’s jaw movement in three dimensions, allowing them to make better treatment decisions.
Using the latest technology has made it possible to achieve better results and reduced discomfort. Modern technology has facilitated easier procedures, less discomfort, and improved patient outcomes. In addition, the use of CBCT imaging has allowed orthodontists to see the most complex problems and make the most efficient treatment plans. It makes it easier for orthodontists and patients alike. It’s a win-win situation for everyone.