Interpretation Basics of Cone Beam Computed Tomography. Группа авторов

Interpretation Basics of Cone Beam Computed Tomography - Группа авторов


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      I’d like to thank Gayle Reardon for her contributions to this book and sharing her knowledge of the paranasal sinuses, nasal cavity and airway, temporomandibular joints, and implants. Thanks to the staff at Wiley for guidance and support in the creation of this book. Last, a giant thanks to my family (Max, Max, and Rugen) for their love, support, and encouragement throughout this entire process. I would not have been able to complete this without them.

      About the Companion Website

      Do not forget to visit the companion website for this book:

      www.wiley.com/go/gonzalez/interpretation

       Sample cases with videos

      Scan this QR code to visit the companion website:

       Shawneen M. Gonzalez

      This chapter covers basics of cone beam computed tomography including comparison to traditional computed tomography, artifacts frequently seen, and views created with a cone beam computed tomography dataset.

      General Information

      General Information

      Cone beam computed tomography (CBCT) was developed in Italy in 1997. The first unit created was the NewTom. The NewTom was similar to conventional CT in having the patient lying down with an open bore where the radiation exposes the patient. Instead of a fan of radiation (used in conventional CT units), a cone of radiation is used to expose the patient, hence the name cone beam computed tomography. As new CBCT units were created, companies started using seated or standing options. With continued updates to the units, the sizes have become smaller, with many needing only as much space as a pantomograph machine.

      Voxels

      Voxels are 3D data blocks representing a specific x‐ray absorption. CBCT units capture isotropic voxels. An isotropic voxel is equal in all three dimensions (x, y, and z planes), producing higher‐resolution images compared to conventional CT units. Conventional CT unit voxels are non‐isotropic with two sides equal, but the third side (z‐plane) different. The voxel sizes currently available in CBCT units range from 0.076 mm to 0.6 mm. The voxel sizes currently available in conventional CT units range from 1.25 mm to 5.0 mm. Resolution of the final image is determined by the unit’s voxel size. The smaller the voxel size the higher the resolution.

      Field of View

Photos depict axial (A), coronal (C), sagittal (S), and reconstructed three dimensional views from medium FOV. Photos depict (a) three dimensional rendering of a large FOV of 16 cm by 16 cm from an anteroposterior (AP) view. (b) three dimensional rendering of a large FOV of 16 cm by 16 cm from a lateral view. Photos depict axial (A), coronal (C), sagittal (S), and reconstructed three dimensional views from large FOV.

      Radiation Doses

      Radiation doses with CBCT units are as varied as the FOV options. CBCT units have approximate radiation dose ranges of 5 microSieverts to 1073 microSieverts. Conventional CT units have much higher radiation doses due to their soft tissue capabilities, with doses of 1200 microSieverts and higher per each scan, depending on the selected scan field.

      Multiplanar


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