Radiologists use both CT and MRI to detect and monitor cancer. Each imaging method has strengths that make it appropriate for a particular reason. Learn how doctors choose which technique to use.
CT (computed tomography) and MRI (magnetic resonance imaging) are both used to diagnose and stage cancer. Many people do not know the difference between the two methods or why one might be selected over the other. Here, radiologist Richard Do answers some of the questions he gets from his patients about CT and MRI.
MRI also creates detailed pictures of areas inside the body, but it uses radio waves and a powerful magnet to generate the pictures. The person also lies on a table that moves into a doughnut-shaped device, but the doughnut is much thicker. Similarly, these pictures can show the difference between normal and diseased tissue.
With a CT scan, we can create an image of almost the entire body, from the neck to the thighs, in a few seconds. CTs are incredibly useful for diagnosing and staging cancer, checking whether it has come back, and monitoring whether a treatment is working. It’s very effective for surveying the entire body to look for places where the cancer has spread, such as the lungs, liver, or bone. These are called metastases. Most of the time, CT is the first choice to stage cancer.
Where MRI really excels is showing certain diseases that a CT scan cannot detect. Some cancers, such as prostate cancer, uterine cancer, and certain liver cancers, are pretty much invisible or very hard to detect on a CT scan. Metastases to the bone and brain also show up better on an MRI.
Because CTs use ionizing radiation, they could damage DNA and may very slightly raise the risk of developing cancer. The Food & Drug Administration estimates that the extra risk of any one person developing a fatal cancer from a typical CT procedure is about 1 in 2,000. MRIs do not use ionizing radiation, so there is no issue of raising cancer risk. But they take much longer to complete than CTs. MRIs require the person to lie still within a closed space for about 20 to 40 minutes. This can affect some people with claustrophobia, and the procedure is noisy, which is why we provide ear protection.
Both CT and MRI commonly require the injection of a contrast dye before or during the procedure. This helps the radiologist see organs and other tissues within the body more clearly.
Our doctors use advanced imaging tests to help detect and diagnose disease, make appropriate treatment recommendations, and monitor your response to therapy.
For CT, I hear anxiety about exposure to radiation, especially if it is being done repeatedly. For example, certain early-stage cancers can be cured. But you might be coming back every few months or every year for a CT scan. The question is: Do we have an alternative? For detecting cancer that has come back throughout the body, a CT scan is preferable to an MRI. As radiologists, we follow a measure called “as low as reasonably achievable.” This means we give enough radiation to create CT images that are of high enough quality that we can make a good clinical decision, but we keep the radiation as low as possible to minimize risk.
For MRI, people who have trouble with claustrophobia or are unable to hold their breath, which may be required for certain abdominal imaging tests, may not be able to tolerate the procedure. Some MRI machines can be configured in ways that may reduce claustrophobia. Medical implants, such as a pacemaker, brain stimulator, or other devices, are another complicating factor. The radio waves used with MRI can heat up devices made of metal. This is potentially a concern for something inside the body. Newer medical devices are usually designed with this in mind, so they are safe inside an MRI.
We usually use CT first for most people, unless a tumor is much better seen on MRI. But we go back and forth as needed. If we see something on a CT scan we’re unsure about, we may recommend an MRI for further evaluation. If someone has several MRIs and is unable to lie still or hold their breath so we can get a good image, we may suggest a CT as an alternative. We’re guided by the principle of whether the benefits of a test outweigh its risks. That’s what medical imaging is about.