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Fu Ying, Kong Xiangtong (corresponding author), and Ge Wen from Qufu Far East Vocational and Technical College

Wang Junjun from Xiamen Performing Arts Vocational College

Yue Xinni, Shanxi Yixue Technology Specialized College

Abstract: Dental imaging diagnosis and evaluation technology is of great significance in the field of modern dentistry. The aim of this study is to explore the latest developments and applications of imaging diagnosis and evaluation techniques in oral medicine, in order to improve the diagnostic accuracy and treatment effectiveness of oral diseases. This article reviews the imaging diagnosis and evaluation techniques in dentistry based on existing literature, and explores their future development directions, aiming to provide reference and inspiration for relevant research in the field of dentistry.

Keywords: dental imaging, diagnostic techniques, evaluation techniques, oral diseases, development trends

Preface: Dental imaging diagnosis and evaluation technology is an important component of the field of dentistry. It can help doctors accurately diagnose various oral diseases by visualizing the internal structure and lesions of the oral cavity. With the continuous progress and development of medical imaging technology, the diagnosis and evaluation technology of dental imaging is also becoming increasingly perfect and popular, providing dentists with more diagnostic methods and treatment plans. This article will delve into the latest research progress and application of imaging diagnosis and evaluation techniques in dentistry, contributing to the development of the field of dentistry.

1. Research on Development Status

Dental imaging diagnosis and evaluation technology plays an important role in today's medical field. With the continuous progress and development of technology, dental imaging diagnosis and evaluation technology has also been greatly improved and developed, and is playing an increasingly important role in clinical applications.

Dental imaging diagnostic technology is an important means of diagnosing and evaluating oral diseases through different imaging methods, such as X-rays, CT scans, MRI, etc. These imaging technologies can help doctors accurately identify the location and extent of lesions in oral diseases, provide personalized treatment plans for patients, and improve treatment effectiveness and quality of life.

At present, dental imaging diagnosis and evaluation technology has been widely applied in fields such as oral and maxillofacial surgery, implant restoration, and periodontal disease. Through advanced imaging technology, doctors can diagnose oral diseases more accurately, reduce misdiagnosis and missed diagnosis rates, and improve treatment efficiency and success rate.

With the continuous development of artificial intelligence technology, dental imaging diagnosis and evaluation technology has also ushered in new opportunities and challenges. The introduction of artificial intelligence algorithms makes image diagnosis more intelligent and precise, which can help doctors quickly find clues to diseases, improve the accuracy and efficiency of diagnosis.

Overall, the development of dental imaging diagnosis and evaluation technology is a microcosm of the continuous progress in the medical field, providing important support and guarantee for the diagnosis and treatment of oral diseases. I believe that with the continuous innovation and improvement of technology, dental imaging diagnosis and evaluation technology will play a more important role in the future and make greater contributions to the development of oral health.

2. Research methods

Dental imaging diagnosis and evaluation technology is an important research direction in the field of dentistry, playing a crucial role in clinical diagnosis and treatment. With the continuous development of science and technology, dental imaging diagnosis has also been continuously improved and broken through, providing important support for the accurate diagnosis and effective treatment of oral diseases.

In the research of dental imaging diagnosis and evaluation technology, key research methods include imaging examinations, digital image processing, and computer-aided diagnosis. Through imaging examinations, doctors can obtain clear images of the internal structure of the oral cavity, thereby discovering possible lesions and abnormalities in patients. Digital image processing can improve the quality and clarity of images, helping doctors diagnose conditions more accurately. Computer assisted diagnosis, on the other hand, provides doctors with fast and accurate diagnostic results through artificial intelligence and big data technology, greatly improving the accuracy and efficiency of diagnosis.

In addition, research on imaging diagnosis and evaluation techniques in oral medicine also requires continuous exploration of new imaging modes and technological applications to improve the early diagnosis rate and treatment effectiveness of oral diseases. For example, in recent years, the application of 3D printing technology in dental imaging has become increasingly widespread, providing new solutions for the design and implantation of oral implants. In addition, the application of artificial intelligence and deep learning technology will further promote the development of dental imaging diagnosis, making diagnosis more intelligent and accurate.

In summary, the research methods of dental imaging diagnosis and evaluation technology are multifaceted, including various technical means such as imaging examinations, digital image processing, and computer-aided diagnosis. The continuous innovation and development of these technologies will bring more possibilities to the field of dentistry, achieving early detection and precise treatment of oral diseases, and providing better protection for the oral health of patients.

3. Research significance

The importance of research on dental imaging diagnosis and evaluation technology is self-evident. With the continuous progress of modern medical technology, dental imaging diagnosis plays an increasingly important role in clinical practice. Research in this field not only provides important support for the early detection, evaluation, and treatment of oral diseases, but also helps to improve the diagnostic accuracy and treatment effectiveness of oral medicine.

The significance of the research on dental imaging diagnosis and evaluation technology lies in the in-depth observation and analysis of oral lesions, injuries, deformities, and other issues through various imaging methods such as X-rays, CT, MRI, etc., providing accurate diagnostic basis for doctors. This non-invasive diagnostic method can not only help doctors detect and evaluate diseases in a timely manner, but also guide the development of clinical treatment plans, improve treatment effectiveness, and reduce unnecessary damage to patients.

In addition, research on imaging diagnosis and evaluation techniques in dentistry also plays an important role in education and scientific research in the field of dentistry. Through continuous improvement and innovation of imaging technology, more high-level dental professionals can be cultivated, promoting the development of dental scientific research and making greater contributions to the future of dental medicine.

In summary, the research on imaging diagnosis and evaluation techniques in dentistry has profound significance for the development of the field of dentistry and the health of patients. We should continue to pay attention to and support research in this field to promote the development of oral medicine, improve oral health levels, and benefit the vast number of patients.

4. Current shortcomings

Dental imaging diagnosis and evaluation technology has always been an important research direction in the medical field. Through imaging technology, doctors can comprehensively understand the lesions in the patient's oral area, providing reliable basis for accurate diagnosis and treatment, which is crucial for early detection and intervention of oral diseases.

In recent years, with the continuous progress of medical imaging technology, the diagnosis and evaluation technology of dental imaging has also been significantly improved. The widespread use of imaging methods such as X-rays, CT, MRI, etc. provides more detailed and accurate information for the diagnosis of oral diseases. Especially with the application of digital dental imaging technology, dentists can obtain high-definition oral images, thereby better diagnosing various oral lesions.

However, there are still some shortcomings in the current dental imaging diagnosis and evaluation technology. Firstly, for some special situations or lesions, existing imaging techniques may not provide sufficient information, leading to increased diagnostic difficulty. Secondly, the interpretation of imaging technology still depends on the experience level of doctors, and different doctors may have differences in diagnostic results. In addition, some common oral lesions exhibit similar features on imaging, which can easily lead to confusion. More research is needed to improve the accuracy of diagnosis.

Therefore, in order to further improve the level of dental imaging diagnosis and evaluation technology, it is necessary to continuously conduct research, explore new imaging technologies and methods, improve the resolution and clarity of images, strengthen the training and education of doctors, establish a more comprehensive dental imaging database, and better respond to the challenges of oral disease diagnosis and treatment. Only through continuous innovation and improvement can dental imaging technology better serve the health of patients and achieve the goal of precision medicine.

5. Strategy implementation

Research and Strategy Implementation of Imaging Diagnosis and Evaluation Technology in Stomatology

Dental imaging diagnosis and evaluation technology plays an indispensable role in today's medical field, providing important basis for accurate diagnosis and effective treatment of oral diseases. With the continuous development of technology, dental imaging diagnosis and evaluation technology has also been constantly innovated and improved, providing doctors with more accurate information and promoting early detection and effective intervention of oral diseases.

In the research of dental imaging diagnosis and evaluation technology, we need to continuously explore the advantages and disadvantages of various imaging technologies, such as X-rays, CT, MRI, etc., understand their applicability and limitations in the diagnosis of oral diseases, and gradually improve existing technologies to improve image quality and diagnostic accuracy. At the same time, we also need to pay attention to the combined application of oral imaging technology with artificial intelligence, big data and other technologies, explore more intelligent and objective diagnostic evaluation methods, and further improve the application effect of oral medical imaging technology in clinical practice.

Strategy implementation is an important link in the research of dental imaging diagnosis and evaluation technology. In practical work, we need to establish comprehensive imaging diagnosis and evaluation standards, standardize operating procedures, train medical staff in professional skills, and ensure the correct application and maintenance management of various technologies. At the same time, it is necessary to strengthen inter hospital cooperation, share resources and experiences, promote interdisciplinary research in dental imaging technology, promote interdisciplinary and innovative development, and lay a solid foundation for the future development of dental medicine.

In summary, the research and implementation of strategies for dental imaging diagnosis and evaluation technology is a continuous process of exploration and improvement, which requires the joint efforts and active promotion of the medical community. I believe that in the near future, with the advancement of technology and the updating of concepts, dental imaging diagnosis and evaluation technology will bring greater development and progress to the field of oral health.

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