Superstition Springs Endodontics (SSE) is a leader in application of Cone Beam Computed Tomography (CBCT). While CBCT is rapidly gaining popularity in many disciplines of dentistry, CBCT is the future of endodontics and the applications in endodontics seem almost limitless. For this reason, we have chosen to implement this technology into our practice at SSE.
Traditional Computed Tomography (CT or CAT Scan), uses a linear detector and a fan shaped X-ray beam (below diagram on left). The detector spins around the patient multiple times over the area to be scan. The computer then takes all of these slices and puts them back together into a 3D image. CT scans are very effective at differentiating between soft and hard tissues.
With Cone Beam Computed Tomography (CBCT), a large detector is used, a cone shaped X ray beam is used, and all data is gathered in a single pass (below diagram on right).
This makes the CBCT a smaller unit with the ability to focus the radiographic exam, a single pass around the patient, less radiation exposure and less costly procedure.
CBCT is most effective at evaluation of hard tissues. An important fact to point out is that radiation exposure with CBCT in general is significantly less than traditional CT. Some CBCT units have reduced the radiation exposed to a fraction of the amount of traditional CT.
The field of view (FOV) is an important factor in selecting a CBCT. CBCT has the ability to take a large FOV (full skull), medium FOV (Mx & Md) or focused field (quadrant).
A voxel is a 3 dimensional pixel. The resolution of a CBCT image is determined by the voxel size, as well as the unit's ability to gather & interpret the data with minimal interference/noise.
CBCT units with smaller voxel size are more effective for applications in endodontics, allowing us to see the detail needed.
There have been concerns about the additional radiation exposure associated with CBCT. For the reasons described above, the focus field CBCT has a fraction of the radiation exposure associated with traditional CT. Here are the numbers on radiation...
Since radiation affects different body tissues differently, an effective dose compares the radiation dosage on different body parts on an equivalent basis. The unit for effective dose is the sievert (Sv) joules/kilogram.
In medical procedures, the millisievert (mSv) is used to measure the effective dose.
We are all exposed to about 3.0 m Sv/year of natural radiation. Natural radiation comes from the earth as well as from the atmosphere/space.
The following table shows the radiation exposure from several dental radiographic sources as well as medical CT and environmental exposure.
An average American receives 0.0082mSv per day in normal background radiation.
As you can see, one periapical film with d-speed film exposes a patient to 0.0095mSv (which is the equal to about 1.1 days of natural radiation).
A digital periapical film exposes a patient to 1/3 the amount of radiation, 0.0032mSv (which is the equal to about 0.36 days of natural radiation).
The radiation exposure of several CBCT units is listed below.
The amount of radiation exposure is minimal. As with any diagnostic radiographic image, we must balance the need for the information vs. the potential harmful effects of radiation.
The radiation level associated with a CBCT at SSE is the lowest radiation level of any dental CBCT currently available on the market.
Some have inquired into which CBCT that we are using at Superstition Springs Endodontics. We selected the Veraviewepocs 3De by J. Morita. The features we like about it are its high resolution, fast speed, panorex feature, low radiation level and ease of use.