Understand how these imaging tests differ
When aches, pains and other symptoms stem from a problem with the musculoskeletal system (meaning the bones, muscles, cartilage, tendons, ligaments and joints) your doctor may order an imaging test to help determine the underlying cause.
There are several ways of looking inside the body, including X-rays, computed tomography (CT) scans and magnetic resonance imaging (MRI). Another one, high-resolution ultrasound, offers some advantages over the others for musculoskeletal problems.
Some common reasons we do musculoskeletal ultrasound are to evaluate the rotator cuff in the shoulder, to look for Achilles tendon tears and to evaluate elbow tendon probl. But an ultrasound can be performed on most joints as long as the area evaluated is limited to just part of the joint.
When is ultrasound used vs MRI?
Sometimes patients wonder why an ultrasound is ordered instead of an MRI for musculoskeletal problems.
MRI and ultrasound look at the body in different ways.
MRI, which uses powerful magnets to produce 3-D anatomic images, is a high-contrast resolution modality that can determine changes in the tissue quality. With a muscle injury, for example, MRI images often show a bright signal indicating that there is more water in the muscle, which is a sign of injury.
Ultrasound uses high-frequency sound waves to look at organs and structures. It is a high-spatial resolution modality that provides greater, high-level detail of a structure, especially when it’s not too deep from the skin’s surface. Ultrasound is like a flashlight that allows us to see high detail over a small area of tissue.
The advantages of ultrasound
Ultrasound has many advantages as an imaging modality. Ultrasound does not use any radiation and does require the patient to enter the bore or tube of a scanner, like with MRI or CT.
Ultrasound can show pictures in real-time, like a movie, and therefore, can demonstrate abnormalities that are only seen with motion like impingent of the bursa in the shoulder.
When structures are not very deep, or superficial, ultrasound can show images with higher resolution/detail than MRI. The tendons in the fingers are often seen in greater detail with ultrasound compared with MRI, for example.
“Since ultrasound is like a flashlight, whereas MRI is like a flood light, there are times when ultrasound may not be able to make the diagnosis or may show findings that are indeterminate and need further testing. Nevertheless, ultrasound very often makes a diagnosis or provides useful information to your doctor about a musculoskeletal problem.
Ultrasound can also be used to guide injections
Ultrasound isn’t just a diagnostic tool. When some type of injection treatment is needed, such as a corticosteroid shot into a joint, ultrasound can be used to visualize the structure to ensure that the needle is placed in the correct location.
Image-guided joint injections also are done with X-rays or CT scans. But with ultrasound, there’s no radiation and no need to inject a contrast dye.
What to expect during an ultrasound
With ultrasound, a specially trained technician or sonographer moves a handheld probe over the area to be studied. Once the sonographer feels that they have acquired diagnostic images, the radiologist will then interpret those images, typically within 24 hours.
While we schedule most ultrasound patients for an hour, some examinations may take more or less time depending on what the sonographer finds.
When you should get an MRI
Ultrasound does have some limitations, and there are situations when MRI is needed instead. Ultrasound does not show the structures inside jointssays. We can only see the soft tissues outside, around the joint.
To evaluate damage to cartilage, bone or other structures inside and around a joint, MRI is the better choice. MRI is also preferred for conditions that impact deep or large areas since ultrasound can evaluate only a small area at a time.
If a patient needs a detailed look an entire joint, an MRI is a better test. Many times, however, your doctor may start with an ultrasound.