
Dual-Energy Computed Tomography

DECT
Description
"Dual-Energy Computed Tomography" (DECT) scan captures highly detailed images using two X-ray energy levels to better distinguish between tissues. Doctors may recommend it for joint pain, kidney stones, or suspected gout, where more precision is needed. DECT is especially effective for identifying uric acid deposits or vascular calcifications. During the scan, you remain still while the system captures layered images. Results support faster, more accurate diagnosis and help doctors tailor treatment for metabolic, urologic, or inflammatory conditions.
Test Category
Musculoskeletal Function
Procedure
Non-Invasive
Sample Type
No biological sample is needed for this test.
Units
Not Applicable
Procedure Category
Scan
Test Group
Imaging Scans Group
Test Group Description
Imaging Scans Group: This group includes a variety of diagnostic imaging techniques used to visualize internal structures and organs in the body. These techniques may include X-rays, CT scans, MRI scans, ultrasound, and nuclear medicine scans.
Optimal Range
For All Individuals:
Result: Negative: No abnormalities detected.
Normal Range
For All Individuals:
Result: Negative: No abnormalities detected.
Results That Differ From The Norm (Direct and Indirect Causes)
Abnormal results may indicate:
Arterial thrombosis (Blood clot formation in an artery)
Bone marrow disorders (Conditions affecting the production of blood cells in the bone marrow)
Cancerous tumors
Crystal arthropathies (Arthritis caused by crystals in the joints, such as gout)
Gout (Form of arthritis caused by excess uric acid crystallizing in the joints)
...
Key Reasons For Testing
Tissue Composition: Differentiates tissues by spectral properties for organ analysis.
Renal Stones: Identifies stone types like uric acid or calcium oxalate for tailored treatment.
Gout Detection: Pinpoints urate crystals in joints for early intervention.
Iodine Visualization: Enhances imaging of contrast material for vascular analysis.
Tumor Characterization: Distinguishes tumor components for staging and treatment.
Lung Perfusion: Evaluates pulmonary blood flow to diagnose embolisms.
Vascular Pathology: Detects aneurysms, stenoses, or dissections with precision.
Health Status Conditions It May Be Used To Assess
Currently, this test is not directly associated with any conditions listed on the Health Status page. However, it may be included as part of a broader set of tests linked to specific health conditions.
Some Prominent Medical Labs That May Offer This Test
Please note that this particular test has not been associated with any of the listed prominent medical labs. We recommend enquiring with your private physician or nearest hospital to determine where this specific test can be performed.
References
Important Note
Any medical procedure yielding results outside the norm may be directly or indirectly linked to the conditions outlined on this page. Various factors, including genetics, medication and supplement usage, recent illnesses, pregnancy, pre-test eating, smoking, and stress, can impact the test's outcome. Additionally, factors like false positives, false negatives, inaccurate analyses, and others can influence results.
Reference ranges, which help healthcare professionals interpret medical tests, may vary depending on age, gender, and other factors. They may also differ between laboratories due to variations in instruments and methods used. Optimal ranges are designed for preventive purposes, aiming to identify trends and potential risks early, while normal ranges reflect conventional laboratory values indicating no current disease or pathology. Your healthcare practitioner may have specific reasons for testing that deviate from the usual or may interpret results differently based on individual circumstances. Proper interpretation typically involves considering clinical findings and other diagnostic tests. Hence, it is crucial to provide your healthcare professionals with a comprehensive medical history, consult with them for result interpretation, and follow their guidance for potential re-testing or additional diagnostics.
Disclaimer
This content is provided solely for informative and educational purposes. It is not intended as a substitute for medical advice or treatment from a personal physician. Regarding the interpretation of their medical test results and/or specific health questions, it is recommended that all readers and viewers consult their physicians or other qualified health professionals. The publisher is not responsible for any adverse health effects that may result from reading or following the information in this educational content. Before beginning any nutrition, supplement, or lifestyle program, all viewers, especially those taking prescription or over-the-counter medications, should consult their physician or health care practitioner.
Please note that while prominent lab names are included in this content, we cannot guarantee that these labs offer all the tests mentioned. For confirmation, individuals should contact the labs directly or consult their medical practitioners. The information provided reflects general knowledge at the time of publication and may not include recent updates or emerging research. Readers should verify details with qualified professionals to ensure the most up-to-date and accurate guidance.
[1] Johnson TR, Krauss B, Sedlmair M, et al. Material differentiation by dual energy CT: initial experience. Eur Radiol.2007;17(6):1510-1517.
[2] Graser A, Johnson TR, Chandarana H, Macari M. Dual energy CT: preliminary observations and potential clinical applications in the abdomen. Eur Radiol. 2009;19(1):13-23.
[3] Nakaura T, Awai K, Yanaga Y, et al. Dual-energy computed tomography of the body: basic principles, advances in clinical applications, and future prospects. Eur J Radiol. 2008;68(2):218-228.
[4] Booz C, Nöske J, Albrecht MH, et al. Dual-energy CT: techniques, applications, and limitations. Br J Radiol.2017;90(1071):20160547.
[5] Pache G, Krauss B, Strohm PC, et al. Dual-energy CT virtual noncalcium technique for detection of bone marrow edema in traumatic fractures. Radiology. 2010;256(2):617-624.
[6] Stolzmann P, Scheffel H, Rentsch K, et al. Dual-energy computed tomography for the detection of urinary stone composition. Invest Radiol. 2010;45(7):393-399.
[7] Goo HW, Goo JM. Dual-energy CT: new horizon in medical imaging. Korean J Radiol. 2017;18(4):555-569.
[8] McCollough CH, Leng S, Yu L, Fletcher JG. Dual- and multi-energy CT: principles, technical approaches, and clinical applications. Radiology. 2015;276(3):637-653.
[9] Mileto A, Nelson RC, Paulson EK, et al. Dual-energy MDCT for imaging the renal and hepatobiliary systems. AJR Am J Roentgenol. 2015;204(5).
[10] Fink C, Johnson TR, Michaely HJ, et al. Dual-energy CT angiography of the lower extremities: initial experience. Eur Radiol. 2008;18(4):731-739.
[11] Kaza RK, Platt JF, Cohan RH, et al. Dual-energy CT with single- and dual-source scanners: current applications in evaluating the genitourinary tract. Radiographics. 2012;32(2):353-369.
[12] Martin SS, Weidinger B, Czwikla R, et al. Dual-energy CT in patients with hypervascular liver lesions: effect on detection and characterisation. Eur Radiol. 2013;23(4):1016-1024.