Single proton (or photon) emission computed tomography (SPECT) allows a physician to see three-dimensional images of a person's particular organ or body system.
SPECT stands for single-photon emission computed tomography, a nuclear imaging technique that uses radioactive tracers to create three-dimensional images of internal body structures.
It is not "spec" imaging but SPECT (single proton emission computed tomography) imaging. It uses gamma rays and provides a true 3D image.
Single proton (or photon) emission computed tomography (SPECT) produces three-dimensional images of an organ or body system.
Spec is actually an abbreviation. SPEC stands for Single-Photon-Emission-Computed-Tomography. It has something to do with physics.
Single photon emission tomography
Functional magnetic resonance imaging (fMRI), positron emission tomography (PET), electroencephalography (EEG), magnetoencephalography (MEG), and single photon emission computed tomography (SPECT) are used to investigate brain activity.
While it may also have other meanings, SPECT is most commonly used to refer to Single Photo Emission Computed Tomography. This is a test in nuclear medicine that creates a cross-section image.
While it may also have other meanings, SPECT is most commonly used to refer to Single Photo Emission Computed Tomography. This is a test in nuclear medicine that creates a cross-section image.
An acronym that stands for Single Photon Emission Computed Tomography, a nuclear medicine procedure in which a gamma camera rotates around the patient and takes pictures from many angles, which a computer then uses to form a tomographic (cross-sectional) image.
An acronym that stands for Single Photon Emission Computed Tomography, a nuclear medicine procedure in which a gamma camera rotates around the patient and takes pictures from many angles, which a computer then uses to form a tomographic (cross-sectional) image.
ant: anteriorAP: anteroposteriorBx: biopsyCT: computed tomographyCT/CAT scan: computed (axial) tomography scanDSA: digital subtraction angiographyDx: diagnosisLAT: lateralLLQ: left lower quadrantLUQ: left upper quadrantMRI: magnetic resonance imagingPA: posteroanterior; pernicious anemiaPET: positron emission tomographypost: posteriorRLQ: right lower quadrantRUQ: right upper quadrantsono: sonogramSPECT: single photon emission computed tomographySx: symptomTx: treatmentU&L, U/L: upper & lowerUS: ultrasound
functional imaging with single photon emission CT or positron emission tomography may be better at identifying FTD in its early stages, showing decreased blood flow to the frontal and temporal lobes.