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Digital implant is a new technology that increases the compatibility between the implant and the nervous system by using a direct connection to the human nervous system. In this article, we examine the digital implant technology and its better compatibility with the human nervous system and how to improve this compatibility.
Dental implants are a permanent replacement method for replacing missing teeth. This surgical process involves inserting an implant (special screw) into the jawbone. A dental implant acts as a stable structure for the installation of an artificial tooth or dental bridge.
The dental implant implantation process includes several steps:
Dental implant creates stable and natural placement of teeth in the mouth and provide the patient with facilities and abilities to use artificial teeth.
Three-dimensional jaw scan or CBCT (Cone Beam Computed Tomography) is a medical imaging technique that is used for the best images and three-dimensional analysis of bones and tissues inside the mouth. This technology uses a special scanning device called CBCT, which is made in the shape of a cone and uses radiation to take high-quality images of the inside of the mouth and jaws.
Psychological effects: One of the important aspects of digital implant implantation is its positive effects on the mental health of a person suffering from sensory or spinal disorders. By establishing a direct connection with the nervous system, this technology can provide new feelings and experiences for a person.
Direction of movements: One of the main goals of digital implant implantation is the better direction of movements of muscles and organs related to the implant. By improving the compatibility of the implant with the nervous system, a person can control their movements more accurately and efficiently.
Information security and protection: In the use of digital implants, information security and protection are important. Some solutions such as using advanced encryption algorithms and creating strong security systems can prevent misuse or unauthorized access to personal information.
Development of research and interdisciplinary cooperation: To improve the compatibility of digital implants with the human nervous system, there is a need to develop research and interdisciplinary cooperation. Integrating the knowledge of engineering, medicine, neuroscience, and psychology can help create innovative and effective solutions for this technology.
Future prediction: The future of digital implant implantation will keep pace with the advancements in information and communication technology. Increasing accuracy in detecting sensory information, developing artificial intelligence systems to improve the understanding between the implant and the nervous system, and creating new solutions to reduce challenges are among the possible future predictions in this field.
Planting a digital implant with better compatibility with the human nervous system is a new and effective way to improve the quality of life of people with sensory and spinal problems. With the development of research, interdisciplinary cooperation, and the use of advanced technologies, this technology can play an important role in improving people’s health and well-being in the future.
Less time and accuracy: This technique obtains a lot of information from the mouth and jaws in less time than conventional images and allows for more accurate analysis.
3D analysis: With 3D scanning, 3D information is obtained from the details of bones, teeth, and other tissues, which allows the doctor to plan and treat in the best possible way.
Application in dental implant: This type of scan is used to better plan and predict the stages of dental implant implantation and to determine the appropriate position for the implant in the bone.
Useful and practical in oral and maxillofacial surgeries: These images are very useful for planning and performing oral and maxillofacial surgeries, including orthodontic surgeries and oral and maxillofacial surgeries.
Reduced radiation exposure: Although X-rays are used, CBCT scans reduce the amount of radiation, allowing the machine to obtain high-resolution images with less radiation.
Diagnosis of diseases and bone changes of the mouth and jaws.
Dental implant planning.
Prediction and planning of mouth and jaw surgeries.
Orthodontics and orthodontic treatment planning.
Medical and dental research.
3D scanning of the jaw with these features and multiple applications is considered an important tool in the fields of oral medicine and dentistry.
Digital implant implantation using advanced technologies provides the possibility of a direct connection to the human nervous system. This method benefits from advanced implants and digital fixtures that are more compatible with the nervous system. This adaptation helps to meet the sensory and movement needs of the person and provides improvement in the use of artificial teeth.
A better match of the digital implant with the human nervous system can help improve sensory and motor function, prevent unwanted symptoms such as unwanted muscle stimulation, and create natural feelings in the person. This matching allows the person to use their artificial teeth in a more natural and better way and adds to the quality of the person’s life.
Like any other surgery, digital implant is associated with risks. However, due to technological advances and the experience of skilled dentists in Toronto, the risks of implants have been minimized. Most people experience a quick recovery after surgery, and some cases such as infection or bleeding are possible, but these risks are reduced by strictly following the doctor’s recommendations.