The small bowel follow through is performed for a wide variety of clinical problems. Along with CT enterography and MR enterography (see below), the small bowel follow through is an important test to diagnose and manage Crohn’s disease (Figs. 33.2 and 33.3). It is also commonly used for patients with possible bowel blockage from adhesions (scar tissue) or cancer. Patients with diarrhea, malabsorption or protein loss or pain are often studied with a small bowel study. SBFT is occasionally helpful to evaluate gastrointestinal blood loss, and to evaluate anatomy after surgery [3, 4].

The small bowel study is usually initiated early in the day after an overnight fast. No other preparation is necessary. In most practices, the patient will discuss his or her symptoms with the radiologist at the start of the exam. The study begins with a regular X-ray before any barium is given, to see if any abnormalities are present which would later be lost behind the barium. This is followed by the administration of a large cup of thin barium. This is the chalky, white, nearly tasteless material that is dense to X-rays. The progress of the barium through the small bowel is monitored with still images of the abdomen obtained by a radiology technologist at 10–30 min intervals. As the barium moves through the small bowel, the radiologist will chose the appropriate times to do a real-time, detailed evaluation with fluoroscopy. These are “live” X-ray images of the intestine, much like watching a video clip on the internet. This step allows the radiologist to observe how well the small bowel contracts, and may help him see abnormalities that are not apparent on still images. The radiologist can sometimes find abnormalities by asking the patient to point to areas of discomfort or pain during fluoroscopy. The radiologist will likely ask the patient to drink more barium during the exam. This helps keep the small bowel well distended, making abnormal areas more obvious (Fig. 33.3). Some radiologists may have the patient take gas crystals during the exam. Gas in the small bowel can help show abnormalities not well seen in dense areas of barium, like the pelvis. The entire exam is usually done in 45 min to 2 and one-half hours, depending on how fast the small bowel fills and empties. The only discomfort experienced by patients is a mild sense of bloating, particularly if gas crystals are used [3–6].

While there is extensive research on radiation exposure and cancer risk, the best and most comprehensible risk assessment is only available for humans who have received moderate to high doses of radiation [6, 7]. Real and measurable risk is well documented for survivors of the atomic blasts of Hiroshima and Nagasaki, and for the occurrence of second cancers in patients who receive large doses of radiation to treat cancers such as lymphoma, thyroid cancer, cervical cancer, and other neoplasms. The risk from a single radiology exam such as a CT scan or small bowel follow through is so small as to be nearly unmeasurable, and certainly falls into other acceptable risks such as travelling by car, swimming, or being a pedestrian in a city. Further, risk only has meaning when balanced by benefit, and the value of accurate disease detection and monitoring almost always outweighs the small risk of radiation. However, it is prudent to exercise care for patients who may require many exams over the course of a chronic disease process such as Crohn’s disease or young patients. In these cases, MR exams may give fairly similar information with no known biologic risk. Finally, pregnancy status should be clear in women of childbearing age before exams using ionizing radiation.