AI is becoming increasingly important in the delivery of health and dental care. Dentists and patients may all get benefits from remarkable breakthroughs with technology progression. In this article, we’ll go through the main advantages of artificial intelligence in dentistry.
How Artificial Intelligence is Advancing Dental Care?
According to ThinkML blog, dental care is experiencing an exciting digital transformation. The application of AI in dentistry allows dental practitioners to offer new services, improve treatment results, increase efficiency, and improve training and skill development. AI has a wide range of applications. Here are some instances of how Artificial Intelligence is helping to improve oral health:
1. Smart Technology for Teeth
Innovative tooth technology is transforming dental care by improving the link between teeth and overall health. Artificial intelligence in dentistry contributes to the creation of advanced teeth. intelligent toothbrush, for instance, are used by dentists to check a patient’s dental health. Dentists may use AI to get insights into what is going on within their patients’ mouths, such as dental disorders and brushing habits. As a result, dentists can review patient data and provide essential suggestions to their patients.
2. Analytics For Dental Data
Data analytics technologies provide a full review of your dental setting while also giving tools for managing and monitoring your services. These technologies assist the dentist in balancing patient care and business operations, making communication and patient interaction simpler.
3. Integration of AI with Imaging Systems
Because of its capacity to learn independently, AI may be properly trained to execute various jobs. AI may be combined with imaging methodologies including MRI to detect minor variations from normalcy that the human eye might otherwise miss. AI allows for the correct location of landmarks on radiographs, which may be used for cephalometric diagnosis. It is due to its capacity to acquire information and synchronize well.
AI techniques combined with imaging aid in the diagnosis of illnesses such as oral cancer, with applications ranging from low-cost screening to algorithm-guided identification of heterogeneity in oral lesions using optical coherence tomography.
4. Periodontal (Gum) Disease
Periodontal infections are caused by bacteria that colonize your teeth and infect the soft tissue around them. It irritates and eventually results in tooth loss.
A method known as depth probing allows dentists to identify the stage of the disease.
Fortunately, artificial intelligence (AI) can assist by offering new detection tools and automatic depth probing.
CNN can conduct image identification and categorization on radiography images of gradually damaged tooth in the first scenario. They then find patterns and detect edges to define the disease’s stage.
Using computer vision, the scientists in this research developed a “Computer-Aided Periodontal Disease Diagnosis” method.
The technique “automates the depth probing and incorporates a color camera fitted together with a plastic probe that automatically and exactly obtains the depth probing measure.” It worked successfully!
5. Augmented And Virtual Reality
These technologies are more widely known outside of the computer science community and are becoming increasingly popular in gaming. Augmented reality is an interactive experience incorporating a 3D virtual item into a 3D actual world. It has several applications in dentistry, including dental surgery to deliver clear pictorial information of the craniofacial area, implant placing; orthodontic surgery; and dental student instruction.
Virtual reality is a relatively new technology. It allows the operator to engage in real-time with virtual things. It has two functions: 1) Immersion, which provides the operator the impression of being in the virtual world, and 2) Interaction, which allows the operator to perform actions that affect the virtual environment. It is introduced as a cognitive branch of AI in medicine, highlighting its function in supporting and complementing medical specialists’ work. While truly automated medical robots are not yet a reality, the virtual element of AI, generally algorithms in smart apps, is the most used aspect in dentistry.
6. Surgical Robots
Robotic surgical technology in oral surgery is a great use of AI in dentistry. The stimulation of human body movements and intellect is a major task in robotics. AI has fundamentally revolutionized the surgical sector, with several robot surgeons now doing semi-automated surgical operations led by an experienced surgeon. Bioprinting is another unique use of AI in dentistry. Biological organs and tissues may be built in thin sequential cell layers and help in repairing missing oral tissues due to an accident or damage.
7. Patient Administration
The advancement of AI has enabled virtual assistants to perform various jobs with increased precision. These virtual assistants may help arrange a patient’s appointment, collect, and evaluate the patient’s dental history, manage insurance, and assist the oral health professional in correct treatment planning, depending on the diagnosis. It might alert the dental practitioner to the patient’s medical history and behaviors, such as smoking. AI permits building a virtual database to aid experts in therapy and aids in follow-up and emergency situations.
8. Giving You Peace of Mind
According to experts, up to 80% of individuals have dental anxiety (source). In many circumstances, patients’ dread of the dentist prevents them from keeping their scheduled checkups. It raises the likelihood of dental problems such as decay and gum disease. AI can provide patients with a sense of tranquility and comfort, which can aid in developing good connections between patients and dental teams. Technology gives dentists more information and more precise statistics. It allows teams to communicate their results to patients and show how therapies will operate or what problems signify. In the dentistry sector, trust is essential.
AI is no longer a myth but rather the way of the future in orthodontics. With its increasing use in current history, it will be the most valuable technique in the future for diagnosing and treating dental disorders. One cannot expect technology to replace the job of dentists because dental practice comprises not only illness diagnosis but also a correlation of results and correct treatment of patients.
However, to fully utilize the technology, there must be a comprehensive knowledge of the principles and models of AI. Dentists and physicians should also verify that legitimate data is collected and entered into their databases for the models to produce correct findings. Furthermore, the difficulties encountered must be solved for the models to be successfully implemented in dentistry and have long-term reliability.