Radiography
Posteroanterior chest radiograph in a 40-year-old man with situs inversus and dextrocardia. This image shows that the cardiac apex (*) points to the right. A right-sided aortic arch (A) is associated with slight deviation of the trachea (T) to the left. The stomach (S) bubble is visible in the right upper quadrant.
Posteroanterior chest radiograph in a 55-year-old woman with Kartagener syndrome and situs inversus. This image shows a right-sided aortic arch (A) with slight leftward deviation of the trachea (T), dextrocardia (*), and a stomach bubble (S) in the right upper quadrant of the abdomen. Subtle bronchiectasis is also present in the lung bases (see Image 4 in Multimedia).
Magnified view of the left lower lobe in a 55-year-old woman with Kartagener syndrome and situs inversus (same patient as in Image 3 in Multimedia). This image shows bronchiectasis (arrows).
Radiograph of the upper abdomen from a barium enema examination in a 40-year-old man with situs inversus and dextrocardia. This image shows the liver (L) in the left upper quadrant of the abdomen. The positions of the splenic flexure (SF) and hepatic flexure (HF) are reversed. (See also Images 6-9 in Multimedia.)
Radiograph of the lower abdomen from a barium enema examination in a 40-year-old man with situs inversus and dextrocardia (same patient as in Images 5 and 7-9 in Multimedia). This image shows the sigmoid colon (SC) on the right and the cecum (C) on the left.
Findings
In most patients with situs inversus, chest radiography shows dextrocardia, with the cardiac apex pointing to the right and the aortic arch and stomach bubble located on the right as well (see Image 2). Confirming a mirror-image position of the atria allows confident diagnosis of situs inversus if the viscera are also reversed. The atrial morphology cannot be discerned on chest radiographs, but it can be determined indirectly by evaluating the bronchi.29 In almost every patient, the side of the morphologic bronchus corresponds to the side of the morphologic atrium; therefore, situs inversus is confirmed if the bronchus intermedius is on the left because the morphologic right atrium is also on the left. If a minor fissure can be identified, by inference, an eparterial bronchus and morphologic right atrium exist on that side.
In situs inversus, the longer hyparterial bronchus is on the right side and passes under the pulmonary artery; the shorter eparterial bronchus is on the left side and passes over the pulmonary artery. A left bronchus and right bronchus of equal length suggests isomerism. Because 1 of 5 patients with situs inversus has Kartagener syndrome, evaluate the chest radiographs carefully for evidence of bronchiectasis (see Images 3-4).
Upper and lower gastrointestinal examinations are usually not performed for the diagnosis of situs inversus. However, situs inversus may be found incidentally during such examinations. In an upper gastrointestinal examination in a patient with situs inversus, the stomach is on the right, with the C loop of the duodenum curving to the left. The liver and spleen are also in mirror-image locations compared with their normal position. In a barium enema examination, the sigmoid colon curves to the right, leading to a right-sided descending colon and terminating in a left-sided cecum (see Images 5-6).
Degree of Confidence
The degree of confidence of radiographs is high. CT scan findings can be used to resolve any remaining questions.
False Positives/Negatives
The most common cause of false-positive results is the technologist's or radiologist's inattention to proper labeling. This problem occasionally occurs when a technologist prepares for posteroanterior imaging of the chest and labels the image, but then, the patient is seated and imaged in an anteroposterior projection (eg, because of patient debility); as a result, the correct labeling is reversed.
The most common cause of a false-negative diagnosis of situs inversus also results from inattention to labeling. The technologist may incorrectly revise a properly labeled radiograph in a patient with situs inversus because the anatomy is reversed compared with the normal anatomy. A radiologist may incorrectly display an image so that it fits a mental template of what is normal without consciously noting the left or right marker. If a question of proper labeling exists, consult the technologist. If the projection of the image is known, the positioning of the name blocker can usually be used to reconstruct the correct labeling of the image. Alternatively, radiography may be repeated with supervision or special instructions to verify correct left-sided and right-sided labeling.
Most fluoroscopic machines have a button that electronically reverses the image. An experienced radiologist recognizes this reversal as soon as the table is moved to the left or right because the expected direction of table travel is opposite to that observed on the image intensifier. An inexperienced operator can be confused by this apparent reversal of normal anatomy. Conceivably, a patient with situs inversus can be examined with a fluoroscopy machine, and the image can be reversed electronically in a misguided attempt to correct the mirror-image anatomy.
Computed Tomography
Chest computed tomography scan obtained at the level of the origins of the great vessels in a 40-year-old man with situs inversus and dextrocardia (same patient as in Images 5-6 and 8-9 in Multimedia). This image demonstrates mirror-image branching of the great vessels (*) and a left-sided superior vena cava (+).
Chest computed tomography scan obtained at the level of the aortic outflow tract in a 40-year-old man with situs inversus and dextrocardia (same patient as in Images 5-7 and 9 in Multimedia.) This image shows reversal of the normal cardiac anatomy. The left atrium (LA), right atrium (RA), left ventricle (LV), and right ventricle (RV) are shown. The descending aorta (DA) is on the right.
Computed tomography scan of the upper abdomen in a 40-year-old man with situs inversus and dextrocardia (same patient as in Images 5-8 in Multimedia). This image shows reversal of the normal anatomy. The spleen (SP), stomach (ST), and liver (L) are shown. The descending aorta (DA) is on the right.
Findings
CT scanning demonstrates the mirror-image anatomy of the viscera in situs inversus (see Images 7-9):
- The heart and great vessels are a mirror image of their normal anatomy.
- The left hemithorax contains a trilobed lung, whereas the right hemithorax contains a bilobed lung.
- The liver and gallbladder are on the left side, and the spleen and stomach are on the right side.
Degree of Confidence
The degree of confidence with CT scanning is high.
False Positives/Negatives
In preparing for CT scanning, the technologist records the patient's position—prone or supine—and whether the patient is moved into the scanner head first or feet first. If the orientation is specified incorrectly, the left-right orientation is displayed incorrectly, and situs inversus is simulated.
Magnetic Resonance Imaging
Findings
MRI is a valuable adjunct to echocardiography and angiography in demonstrating abnormalities of congenital heart disease and in aiding surgical planning. This imaging modality is particularly helpful in diagnosing atrial situs. The morphologic right atrium contains the ostium of the coronary sinus; a connection to the suprahepatic inferior vena cava; a large, wide-based, pyramidal atrial appendage; the crista terminalis; and pectinate muscles. The morphologic left atrium has the ostia for the pulmonary veins and an atrial appendage with a narrow base and a tubular, hooked shape.32
Degree of Confidence
The degree of confidence with MRI is high.
False Positives/Negatives
As with CT scanning, if the technologist incorrectly records whether the patient is moved head first or feet first into the bore or whether the patient is prone or supine, the image is reversed, and incorrect situs anatomy is simulated.
Ultrasonography
Findings
Echocardiography demonstrates the morphologic left and right atria. The morphologic right atrium has connections to the superior and inferior vena cava and a wide atrial appendage. The morphologic left atrium has a narrow left atrial appendage. Ultrasonography demonstrates the mirror-image anatomy of the abdominal viscera. Fetal ultrasonography can be used to detect situs inversus in utero; detection of this condition in utero alerts the physician to the possibility of congenital heart disease, which then warrants a careful cardiac evaluation.
Degree of Confidence
The degree of confidence with ultrasonography is high.
False Positives/Negatives
Although it is possible to switch the left and right sides of the ultrasonographic displays by holding the transducer backwards or electronically reversing the image, this error is expected only with inexperienced users. False-positive or false-negative diagnoses with ultrasonography are unlikely.
Nuclear Imaging
Findings
Any nuclear medicine study that is used to evaluate the heart or viscera can be influenced by the presence of situs inversus. These studies include cardiac, pulmonary, hepatobiliary, splenic, and gastrointestinal imaging. For example, on a ventilation-perfusion pulmonary scan, the photopenic defect from the heart is reversed in cases of situs inversus with dextrocardia. The technologist must be able to recognize situs inversus anatomy because nonstandard camera positioning is often necessary for optimal imaging.
Degree of Confidence
The degree of confidence with most nuclear medicine studies is moderate because of the limited anatomic detail.
False Positives/Negatives
Recording the anterior and posterior projections incorrectly reverses the left and right labeling. As with other digital images, the nuclear medicine image can be reversed electronically.
Angiography
Findings
Angiography is unnecessary for the diagnosis of situs inversus. In fact, noninvasive methods are preferred. Although the atrial morphology can be analyzed to determine atrial situs, angiography is usually reserved for the evaluation of congenital heart disease.
Degree of Confidence
The degree of confidence with angiography is high.
False Positives/Negatives
The false-positive and false-negative angiographic findings are similar to those of fluoroscopy.
More on Situs Inversus |
| Overview: Situs Inversus |
 Imaging: Situs Inversus |
| Follow-up: Situs Inversus |
| Multimedia: Situs Inversus |
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Further Reading
Related eMedicine topics
Kartagener Syndrome
Primary Ciliary Dyskinesia
Congenitally Corrected Transposition
Transposition of the Great Arteries
Partial Anomalous Pulmonary Venous Connection
Clinical studies
Genetic Study of Patients with Primary Ciliary Dyskinesia
Keywords
situs inversus, situs inversus totalis, situs inversus with dextrocardia, situs inversus with levocardia, mirror image of situs solitus, mirror-image organs, situs solitus, situs ambiguous/ambiguus, Kartagener syndrome, Kartagener's syndrome, primary ciliary dysplasia, PCD, primary ciliary diskinesia
