Farman Ag scite author profile

Over the last 15 years, cone beam computed tomographic (CBCT) imaging has emerged as an important supplemental radiographic technique for orthodontic diagnosis and treatment planning, especially in situations which require an understanding of the complex anatomic relationships and surrounding structures of the maxillofacial skeleton. CBCT imaging provides unique features and advantages to enhance orthodontic practice over conventional extraoral radiographic imaging. While it is the responsibility of each practitioner to make a decision, in tandem with the patient/family, consensus-derived, evidence-based clinical guidelines are available to assist the clinician in the decision-making process. Specific recommendations provide selection guidance based on variables such as phase of treatment, clinically-assessed treatment difficulty, the presence of dental and/or skeletal modifying conditions, and pathology. CBCT imaging in orthodontics should always be considered wisely as children have conservatively, on average, a three to five times greater radiation risk compared with adults for the same exposure. The purpose of this paper is to provide an understanding of the operation of CBCT equipment as it relates to image quality and dose, highlight the benefits of the technique in orthodontic practice, and provide guidance on appropriate clinical use with respect to radiation dose and relative risk, particularly for the paediatric patient.

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Pixel perception and voxel vision: constructs for a new paradigm in maxillofacial imaging.

Ag¹,

Scarfe²

1994

Dentomaxillofacial Radiology

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With the introduction of multimedia computed systems, a revolution equal in magnitude to the introduction of the air-turbine handpiece is presently under way in general dental practice. Alongside the introduction of new direct digital radiographic devices, dental imaging is expanding to include video, and optical impressions for Cad-Cam, all of which have common image processing needs. Hence, it is time for maxillofacial radiologists to decide what their role should be both during and after the change. This has major ramifications in terms of assignment of responsibilities between disciplines as the dental curriculum is redesigned to train the modern dentist.

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Comparison of complementary metal oxide semiconductor and charge-coupled device intraoral X-ray detectors using subjective image quality

Kitagawa¹,

Ag²

2003

Dentomaxillofacial Radiology

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Time and motion study: a comparison of two photostimulable phosphor imaging systems used in dentistry

Ramamurthy¹,

Canning²,

Ag³

2006

Dentomaxillofacial Radiology

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Effect of beam energy and filtration on the signal-to-noise ratio of the Dexis intraoral X-ray detector

Kitagawa

Ag²

2004

Dentomaxillofacial Radiology

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Farman Ag

Cone Beam Computed Tomographic imaging in orthodontics

Pixel perception and voxel vision: constructs for a new paradigm in maxillofacial imaging.

Comparison of complementary metal oxide semiconductor and charge-coupled device intraoral X-ray detectors using subjective image quality

Time and motion study: a comparison of two photostimulable phosphor imaging systems used in dentistry

Effect of beam energy and filtration on the signal-to-noise ratio of the Dexis intraoral X-ray detector

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