Cone Beam Computed Tomography Provides Clinical Information Not Possible With Other Imaging Methods
Cone Beam Computed Tomography |
Only use Cone Beam Computed Tomography when absolutely necessary to provide clinical information that cannot be obtained through other imaging modalities. A medical imaging technique called cone beam computed tomography, also known as C-arm CT, cone beam volume CT, or flat panel CT, uses diverging X-rays to create a cone-shaped image. The treatment, planning, and diagnosis of implant dentistry, interventional radiology, ENT, and orthopaedic need the use of these techniques. Orthodontics, endodontics, and oral surgery all make use of the CBCT scanner.Instead of two-dimensional information, CBCT scans provide three dimensions of information that aid in the diagnosis, treatment, planning, and evaluation of some illnesses.
Dental implant planning, aberrant tooth visualisation, jaw and face evaluation, cleft palate assessment, cavity identification, endodontic (root canal) diagnosis, and trauma diagnosis are only a few clinical applications where CBCT has grown in significance.A common type of computed tomography is Cone Beam Computed Tomography (CBCT) (CT). Cone Beam CT differs from standard CT in that the subject is rotated through 360 degrees in a single cycle, allowing for a larger imaging region and expanded volume.
In a healthcare setting, the technology generates 3D images with high diagnostic value to identify subtle or miraculous fractures and their healing. Even in the presence of a metal implant, a major source of noise in conventional CT imaging, the CONE BEAM CT equipment can enhance the appearance of the patient's anatomy.
To the point of care, Cone Beam Computed Tomography offers flawless 3D pictures. This enables the doctor to decide more accurately when a patient can resume playing sports or working. When a surgeon has access to high-resolution 3D imagery, they may plan the operation before going into the operating room, which means they are ready for the optimal surgical technique.
By emphasising the area of possible instability and assisting surgeons in locating areas of joint disintegration, the ability to record 3D weight-bearing tests is a great benefit. This is crucial for sportspeople who frequently sustain extremely modest ankle and mid-foot ligament problems.
A number of factors that are particular to Cone Beam Computed Tomography imaging must be taken into account while processing a radiographic imaging system, including X-ray generation, X-ray attenuation by an object, signal detection, image processing, and picture display.
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