Английская Википедия:Contrast CT

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Шаблон:Short description

Файл:Contrast CT.jpg
A woman undergoing CT pulmonary angiogram, a contrast CT scan of the pulmonary arteries, because of suspected pulmonary embolism. A contrast delivery system is connected to a peripheral venous catheter in her left arm.
Файл:SADDLE PE.JPG
A CT pulmonary angiogram, in this case showing pulmonary embolism of saddle-type, which becomes more radiolucent than the radiocontrast filled blood surrounding it (but it may be indistinguishable without radiocontrast).

Contrast CT, or contrast enhanced computed tomography (CECT), is X-ray computed tomography (CT) using radiocontrast. Radiocontrasts for X-ray CT are generally iodine-based types.[1] This is useful to highlight structures such as blood vessels that otherwise would be difficult to delineate from their surroundings. Using contrast material can also help to obtain functional information about tissues. Often, images are taken both with and without radiocontrast. CT images are called precontrast or native-phase images before any radiocontrast has been administered, and postcontrast after radiocontrast administration.[2]

Bolus tracking

Файл:Volume rendered.jpg
Volume Rendered Carotid Angiogram

Bolus tracking is a technique to optimize timing of the imaging. A small bolus of radio-opaque contrast media is injected into a patient via a peripheral intravenous cannula. Depending on the vessel being imaged, the volume of contrast is tracked using a region of interest (abbreviated "R.O.I.") at a certain level and then followed by the CT scanner once it reaches this level. Images are acquired at a rate as fast as the contrast moving through the blood vessels.

This method of imaging is used primarily to produce images of arteries, such as the aorta, pulmonary artery, cerebral, carotid and hepatic arteries.

Washout

"Washout" is where tissue loads radiocontrast during arterial phase, but then returns to a rather hypodense state in venous or later phases. This is a property of for example hepatocellular carcinoma as compared to the rest of the liver parenchyma.[3]

Phases

Depending on the purpose of the investigation, there are standardized protocols for time intervals between intravenous radiocontrast administration and image acquisition, in order to visualize the dynamics of contrast enhancements in different organs and tissues.[4] The main phases thereof are as follows:[5]

Phase Time from injection[5] Time from bolus tracking[5] Targeted structures and findings[5]
Non-enhanced CT (NECT) - -
Pulmonary arterial phase 6-13 sec[6] -
Pulmonary venous phase 17-24 sec[6] -
Early systemic arterial phase 15-20 sec immediately
  • Arteries, without enhancement of organs and other soft tissues.
Late systemicarterial phase
Sometimes also called "arterial phase" or "early venous portal phase"
35-40 sec 15-20 sec
  • All structures that get their blood supply from the arteries have optimal enhancement.
  • Some enhancement of the portal vein
Pancreatic phase 30[8] or 40[9] - 50[9] sec 20-30 sec
Hepatic (most accurate) or late portal phase 70-80 sec 50-60 sec
  • Liver parenchyma enhances through portal vein supply, normally with some enhancement of the hepatic veins.
Nephrogenic phase 100 sec 80 sec
  • All of the renal parenchyma enhances, including the medulla, allowing detection of small renal cell carcinomas
Systemic venous phase 180 secШаблон:Citation needed 160 sec
Delayed phase
Sometimes called "wash out phase" or "equilibrium phase"
6[5]-15Шаблон:Citation needed minutes 6[5]-15Шаблон:Citation needed minutes
  • Disappearance of contrast in all abdominal structures except for tissue with fibrosis, which appears more radiodense.

Angiography

Шаблон:Main CT angiography is a contrast CT taken at the location and corresponding phase of the blood vessels of interest, in order to detect vascular diseases. For example, an abdominal aortic angiography is taken in the arterial phase in the abdominal level, and is useful to detect for example aortic dissection.[10]

Amount

Файл:CT scan of hepatocellular carcinoma, without and with IV contrast.jpg
Hepatocellular carcinoma, without (top) and with (bottom) IV contrast.

Adults

The following table shows the preferable volume in normal weight adults. However, dosages may need to be adjusted or even withheld in patients with risks of iodinated contrast, such as hypersensitivity reactions, contrast-induced nephropathy, effects on thyroid function or adverse drug interactions.

Sufficient volume for normal weight adults
Exam Iodine concentration Comments
300 mg/ml 350 mg/ml 370 mg/ml
CT of brain 95ml[11] 80 ml[11] 75 ml[11]
CT of thorax Overall 70 - 95 ml[notes 1] 60 - 80 ml[notes 1] 55 - 75 ml[notes 1] Parenchymal changes of the lung can often be evaluated adequately without the use of intravenous contrast.
CT pulmonary angiogram 20 ml[notes 2] 17 ml[notes 2] 15 ml[notes 2] Minimal amount when using specific low-contrast protocol.[notes 2]
CT of abdomen Overall 70 ml[11] 60 ml[11] 55 ml[11]
Liver 55 ml[notes 3] 45 ml[notes 3] 40-45 ml[notes 3] Minimal required amount.[notes 3]
CT angiography 25 ml[notes 4] 20 ml[notes 4] When using specific low-contrast protocol.[notes 4]

The dose should be adjusted in those not having normal body weight, and in such cases the adjustment should be proportional to the lean body mass of the person. In obese patients, the Boer formula is the method of choice (at least in those with body mass index (BMI) between 35 and 40):[12]

For men: Lean body mass = (0.407 × W) + (0.267 × H) − 19.2

For women: Lean body mass = (0.252 × W) + (0.473 × H) − 48.3

Children

Standard doses in children:[13]

Exam Concentration of iodine
300 mg/ml 350 mg/ml
Generally 2.0 ml/kg 1.7 ml/kg
CT of brain, neck or thorax 1.5 ml/kg 1.3 ml/kg

Adverse effects

Шаблон:Further Iodinated contrast agents may cause allergic reactions, contrast-induced nephropathy, hyperthyroidism and possibly metformin accumulation. However, there are no absolute contraindications to iodinated contrast, so the benefits needs to be weighted against the risks.[14]

As with CT scans in general, the radiation dose can potentially increase the risk of radiation-induced cancer.

The injection of iodinated contrast agents may sometimes lead to its extravasation.[15]

See also

Notes

Шаблон:Reflist

References

Шаблон:Reflist

External links


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