Physics and imaging technology: CT
Knowledge of the physics and imaging technology involved in the production of CT scans is vitally important for medical imaging specialists.
See also
- physics and imaging technology: x-ray
- physics and imaging technology: ultrasound
- physics and imaging technology: CT
- physics and imaging technology: MRI
- physics and imaging technology: nuclear medicine
Related Radiopaedia articles
Physics and imaging technology: CT
- computed tomography (CT)
- CT technology
- generations of CT scanners
- helical CT scanning
- ultra-high-resolution CT (UHRCT)
- CT x-ray tube
- CT fluoroscopy
- cone beam CT
- generations of CT scanners
- dual energy CT
- clinical applications of dual energy CT
- virtual non-contrast imaging
- abdominal
- vascular
- urinary system
- musculoskeletal
- clinical applications of dual energy CT
- CT image reconstruction
- CT image quality
- CT spatial resolution
- CT contrast discrimination
- pitch
- noise in CT
- CT dose
- CT contrast medium
- iodinated contrast media
- agents
- water soluble
- ionic
- diatrizoate (Gastrografin)
- iothalamate (Conray)
- ioxaglate (Isopaque 370)
- meglumine iotroxate (Biliscopin)
- metrizoate
- non-ionic
- iodixanol (Visipaque)
- iohexol (Omnipaque)
- iopamidol (Isovue)
- iopromide (Ultravist)
- ioversol (Optiray)
- ioxilan (Oxilan)
- ionic
- water insoluble
- water soluble
- vicarious contrast material excretion
- contrast allergy
- contrast media extravasation
- contrast-induced nephropathy
- iodinated contrast-induced thyrotoxicosis
- contrast media and breastfeeding
- agents
- non-iodinated contrast media
- iodinated contrast media
- coronary CT angiography
- CT artifacts
- patient-based artifacts
- physics-based artifacts
- hardware-based artifacts
- ring artifact
- tube arcing
- out of field artifact
- air bubble artifact
- helical and multichannel artifacts
- CT safety
- history of CT
- CT technology
