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AUTHOR AND EDITOR INFORMATION

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Author: Narain Srinivas, MD, Consulting Staff, Department of Radiology, Forbes Regional Hospital

Narain Srinivas is a member of the following medical societies: American College of Radiology and Radiological Society of North America

Editors: Neela Lamki, MD, Professor, Department of Radiology, Sultan Qaboos University, Oman; Adjunct Professor, Department of Radiology, Baylor College of Medicine; Bernard D Coombs, MB, ChB, PhD, Consulting Staff, Department of Specialist Rehabilitation Services, Hutt Valley District Health Board, New Zealand; Abraham H Dachman, MD, FACR, Professor, Department of Radiology, The University of Chicago School of Medicine; Director of CT, Department of Radiology, The University of Chicago Hospitals; Robert M Krasny, MD, Consulting Staff, Department of Radiology, The Angeles Clinic and Research Institute; Eugene C Lin, MD, Clinical Assistant Professor of Radiology, University of Washington Medical School

Author and Editor Disclosure

Synonyms and related keywords: Barrett's esophagus, Barrett esophagus, Barrett's metaplasia, Barrett metaplasia, BE, esophageal carcinoma, chronic gastroesophageal reflux, chronic GER, gastroesophageal reflux disease, GERD

INTRODUCTION

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Background

Barrett's esophagus is a metaplastic disorder in which specialized columnar epithelium replaces healthy squamous epithelium. Barrett's metaplasia is the most common cause or precursor of esophageal carcinoma. The rate of esophageal adenocarcinoma is increasing in the Western world, and it is associated with a poor prognosis, mainly because individuals present with late-stage disease.

Numan R. Barrett (1903-1979), after whom the entity is named, was a distinguished thoracic surgeon in London. In 1950, Barrett wrote an article entitled Chronic Peptic Ulcer of the Oesophagus and "Oesophagitis." He concluded that most of the cases are examples of congenital short esophagus. He suggested that this was a separate entity from reflux esophagitis.1

In Leeds, England, in 1953, Allison, a thoracic surgeon, and Johnstone, a radiologist, published an article entitled The Oesophagus Lined With Gastric Mucous Membrane. They suggested the term Barrett's ulcers to describe ulcer craters in the columnar cell–lined esophagus.

In 1957, Barrett published another article entitled The Lower Esophagus Lined by Columnar Epithelium, which he presented as a lecture at the Mayo Clinic. He now accepted the view of Allison and Johnstone that this condition involves a columnar cell–lined esophagus and not an extension of the stomach into the mediastinum. His conclusion that a columnar cell–lined esophagus is congenital was later disproved.

For excellent patient education resources, visit eMedicine's Cancer and Tumors Center. Also, see eMedicine's patient education article Cancer of the Mouth and Throat.

Related eMedicine topics:
Barrett Esophagus and Barrett Ulcer
Esophageal Cancer
Gastroesophageal Reflux Disease

Related Medscape topics:
Resource Center GERD
Resource Center Barrett's Esophagus Resource Center
CME  Optimizing Clinical Outcomes and Patient Compliance in the Management of GERD
CME  Role of Reflux Monitoring in the Evaluation of Patients With Suspected GERD
CME  Applications of Acid-Suppression Therapy in GERD/Acid-Related Disorders
CME  Endoscopic Treatment of Dysplasia and Early Cancer of the Esophagus and Esophago-gastric Junction
CME  Study Supports Use of Proton Pump Inhibitors as Chemoprevention in Patients With Barrett's Esophagus
CME  What's New in Barrett's Esophagus?

Pathophysiology

Barrett's esophagus is an acquired condition, secondary to chronic gastroesophageal reflux (GER) damage to the esophageal mucosa (see Image 2). Its origin probably involves multipotential undifferentiated cells. Remnants of the heterotopic gastric epithelium may be seen in the subcricoid area, termed the inlet patch, which has no malignant potential.

Classically, Barrett's esophagus has 3 histologic types of epithelium: (1) specialized columnar (intestinal metaplasia), (2) gastric, and (3) junctional. Although controversy exists, intestinal metaplasia of any length is the current criterion for the diagnosis of Barrett's esophagus .

Localization of the metaplasia to the distal 2-3 cm of the esophagus defines short-segment Barrett's esophagus. The pathophysiology of short-segment Barrett's esophagus is uncertain. Recent data suggest that it occurs as a complication of GER disease (GERD), although patients with short-segment Barrett's esophagus have a less severe form of GERD than patients with long-segment Barrett's esophagus.

Frequency

United States

Esophagitis secondary to gastroesophageal reflux (GER) is the most common medical condition in Western countries. Among the 30% of adults who have heartburn at least once a month, a third have endoscopic evidence of esophagitis. In 10% of patients with esophagitis, the condition progresses to Barrett's metaplasia. Approximately 0.5-2.0% of adults in the Western world have Barrett's metaplasia.

Mortality/Morbidity

Barrett's metaplasia leads to most, if not all, esophageal and gastroesophageal-junction adenocarcinomas, with an annual rate of neoplastic transformation of 0.2-2%. Once cancer is diagnosed, patients have a median survival of less than 1 year; less than 10% of patients survive for longer than 5 years despite combined chemotherapy and surgery.2

Conventional clinical risk factors for Barrett's adenocarcinoma are neither sensitive nor specific enough for the classification of individuals with a high risk. Therefore, surveillance is required for all patients with Barrett's metaplasia who are surgical candidates, but this approach is neither feasible nor cost-effective.

Race

Whites have the highest risk of Barrett's esophagus, and blacks have the lowest risk.

Sex

Males have a higher risk of Barrett's esophagus than females.

Age

People older than 45 years have the highest risk for BE, and those younger than 40 years have the lowest risk.

Clinical Details

Typical symptoms described in gastroesophageal reflux disease (GERD) are heartburn (eg, retrosternal burning, a tight sensation radiating toward the neck) and acid regurgitation (ie, unpleasant return of sour or bitter gastric contents to the pharynx). Less common symptoms include water brash (ie, hypersalivation associated with an episode of esophageal acid exposure), dysphagia (ie, difficulty in swallowing), and a globus sensation (ie, sensation of a lump in the throat). The common typical symptoms of heartburn and acid regurgitation often occur after eating, especially after ingesting large meals.

Preferred Examination

When heartburn or acid regurgitation is the dominant symptom, the specificity is sufficiently high to diagnose gastroesophageal reflux disease (GERD). If no additional indication for further evaluation exists, patients may be confidently treated for GERD without undergoing confirmatory tests.

The preferred radiologic examination for Barrett's esophagus is a double-contrast esophagography.3 Imaging modalities that yield less information include nuclear medicine technetium-99m-pertechnetate scanning, endoluminal ultrasonography (US), chromoendoscopy,4 and CT scanning.

Limitations of Techniques

Positive findings on a double-contrast esophagogram suggest a diagnosis of Barrett's esophagus, in correlation with the clinical history. However, an endoscopic examination with biopsy is required to confirm the diagnosis because columnar metaplasia is diagnosed at microscopy.5 In addition, the features that suggest columnar metaplasia are not always present on the esophagogram. A Barrett stricture without the other features cannot be distinguished from the other etiologies of a stricture.


DIFFERENTIALS

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Other Problems to Be Considered

When a smooth stricture is the main feature, the following should be considered: corrosive stricture, stricture after prolonged nasogastric intubation, Crohn disease, Behcet syndrome, and radiation-induced stricture.

When a reticular mucosal appearance is present distal to the area of ulcerations, the following should be considered: candidiasis, superficial spreading carcinoma, glycogenic acanthosis, and areae gastricae in a small hiatal hernia.


RADIOGRAPH

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Findings

A specific diagnosis of Barrett's esophagus can be suggested if a proximal esophageal stricture, deep penetrating ulcer, or reticular mucosal surface pattern is seen on the esophagogram (see Image 1).

Although esophageal ulceration in Barrett's esophagus can occur anywhere along the columnar epithelium, classically it involves the most proximal portion at or near the squamocolumnar junction, well above the cardia and even as high as the aortic arch. Unlike the shallow ulcerations that usually are caused by reflux esophagitis in the squamous epithelium, a Barrett ulcer tends to be deep, penetrating, and identical to a peptic gastric ulcer. Stricture formation usually accompanies the ulceration. At times, no ulceration is evident, and only a smooth, tapered stricture is present.

The stricture forms at the squamocolumnar junction. The Barrett stricture tends to be short and tight, typically causing eccentric narrowing of the lumen in contrast to the smooth, symmetric, and circumferential luminal narrowing in peptic strictures. A specific sign of Barrett's esophagus is the ascending or migrating stricture, in which progressive upward migration of both the squamocolumnar junction and the level of the stricture is depicted on serial esophagograms.

A delicate reticular pattern extending inferiorly for a variable distance from the level of a stricture has been described as a radiologic sign of Barrett's metaplasia. However, this appearance is nonspecific, and it has been observed in other conditions such as candidiasis, viral esophagitis, superficial spreading carcinoma, and areae gastricae in a small hiatal hernia.

A sliding hiatal hernia with gastroesophageal reflux (GER) commonly is seen in patients with Barrett's esophagus. However, in most patients, a variable length of normal-appearing esophagus separates the Barrett ulcer from the hiatal hernia. This finding is in contrast to that of reflux esophagitis, in which the distal esophagus is abnormal down to the level of the hernia.

Another radiologic sign that raises the possibility of Barrett's esophagus is a focal defect in the esophageal contour at least 4 cm proximal to the esophagogastric junction. The contour defect is believed to be an early stage of a midesophageal stricture, a classic feature of Barrett's esophagus.

Esophageal contour defects caused by Barrett's esophagus simulate normal variations in the caliber of the esophagus. Optimal distention of the esophageal lumen and varying obliquity may be necessary to confirm the presence of restricted distensibility and to identify fixed transverse folds. Subtle contour defects can be observed more readily on double-contrast images because fixation of the esophageal wall may be more conspicuous than on images obtained with a single-contrast technique.

Radiographic findings in short-segment Barrett's esophagus are less specific. In one study, 70% of patients with short-segment Barrett's esophagus had reflux esophagitis, peptic scarring or strictures, or both on double-contrast esophagograms, and 30% had only hiatal hernias or strictures as radiographic findings.

Degree of Confidence

Findings of Barrett's esophagus on a double-contrast esophagogram must be confirmed with esophagogastroduodenoscopy (EGD) and biopsy.

False Positives/Negatives

The fine reticular pattern inferior to the stricture in some patients with Barrett's esophagus also may be observed when the areae gastricae, which is the normal appearance of the gastric mucosa on a double-contrast image, is visualized within a small hiatal hernia.


CT SCAN

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Findings

CT scanning is not the modality of choice for the diagnosis of Barrett's esophagus. However, CT scans obtained for reasons other than the evaluation of Barrett's esophagus may incidentally reveal a deep Barrett ulcer in the mid-to-distal esophagus.6 In addition, in the event of transformation in an area of Barrett's metaplasia to esophageal adenocarcinoma, CT may reveal a focal esophageal soft-tissue mass.7 In patients with these findings, CT is useful in staging the cancer and in predicting its response to treatment.

Degree of Confidence

An esophageal ulcer or a mass lesion found incidentally on CT scans must be further evaluated with endoscopy and, probably, biopsy because these findings are nonspecific and may occur in other conditions.8 A deep ulcer is a nonspecific finding and may be present in other conditions such as esophagitis related to human immunodeficiency virus (HIV) or cytomegalovirus (CMV) infection. Unless contiguous involvement of surrounding tissues exists, distinguishing between a malignant neoplasm and a benign lesion, such as a leiomyoma, may be difficult.

False Positives/Negatives

Because CT has a poor yield in the detection of mucosal lesions, it is not the appropriate test, by itself, for the diagnosis of Barrett's esophagus.


MRI

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Findings

MRI, like CT, does not have a role in the diagnosis of Barrett's esophagus. MRI is an evolving modality, and imaging techniques may be refined in the future to permit detection of esophageal ulcers and mass lesions with certainty.


ULTRASOUND

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Findings

Ultrasound (US) also is not the modality of choice in the diagnosis of Barrett's esophagus. However, endoscopic US is used to evaluate early submucosal or mucosal cancer in the surveillance of patients with Barrett's esophagus.9, 10 Intraluminal US may reveal an esophageal neoplasm, which is depicted as a solid mass lesion that disrupts the normal layers of the esophagus. In addition, extension of the neoplasm beyond the confines of the esophageal wall also may be determined with US.

Degree of Confidence

Findings at intraluminal esophageal US performed for reasons other than the investigation of Barrett's esophagus warrant further evaluation with endoscopy and biopsy.


NUCLEAR MEDICINE

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Findings

Radionuclide examination with intravenously administered technetium-99m pertechnetate may show uptake by the gastric type of mucosa; this uptake may be observed in Barrett's metaplasia. However, because intestinal metaplasia of any length is the currently accepted modality for the diagnosis of Barrett's esophagus, the significance of a positive finding on a pertechnetate scan is uncertain.

In addition, nuclear scanning is not the investigation of choice in the diagnosis of Barrett's esophagus. Positive uptake in an area of Barrett's metaplasia may be incidentally observed on scans obtained for reasons other than the assessment of Barrett's esophagus.

Degree of Confidence

Positive pertechnetate uptake in the region of the esophagus suggests the presence of gastric mucosa. This finding should be evaluated further with endoscopy and, probably, biopsy.

False Positives/Negatives

Because intestinal metaplasia of any length is the currently accepted modality for the diagnosis of Barrett's esophagus, the significance of a positive finding on a pertechnetate scan is uncertain; it signifies ectopic gastric mucosa in the esophagus. In addition, uptake may be observed in remnants of the heterotopic gastric epithelium in the subcricoid area, termed inlet patch, which has no malignant potential.

Sufficient care must be taken to ensure that positive uptake does not represent the passage of swallowed saliva through the esophagus. This finding can be confirmed by asking the patient to drink a glass of water and then by imaging the lower chest again.

In addition, because Barrett's metaplasia may consist of only intestinal metaplasia without the presence of gastric mucosa, no uptake of technetium-99m pertechnetate may occur in the region of Barrett's esophagus.


ANGIOGRAPHY

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Findings

Angiography has no role in the diagnosis of Barrett's esophagus.


INTERVENTION

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Patients with gastroesophageal reflux (GER) symptoms for more than 5 years, particularly those aged 50 years or older, should undergo esophagogastroduodenoscopy (EGD) for the detection of Barrett's esophagus.11 When erosive esophagitis visually obscures the squamocolumnar junction, reevaluation after the esophagitis heals may be needed for clear recognition and accurate biopsy of Barrett's esophagus.

With the recognition of Barrett's esophagus as a premalignant lesion, the crucial issue is surveillance. The goal of surveillance is to detect dysplasia.12 Dysplasia occurs on the background of metaplasia, but it is not the ideal marker for selecting patients with a high risk for adenocarcinoma. Mutations in the p53 gene and DNA aneuploidy are among promising markers that may well precede the development of dysplasia. Approximately 40% of patients who have high-grade dysplasia without cancer, according to endoscopic biopsy findings, are found to have adenocarcinoma at esophagectomy. The technique of obtaining 4-quadrant biopsy samples in every 2-cm section of the Barrett's esophagus generally is accepted. Multiple biopsy samples from areas of normal-appearing Barrett's esophagus are necessary because of the multicentric nature of the dysplasia.

In patients with high-grade dysplasia, EGD surveillance is needed every 3 months. If an experienced pathologist confirms the presence of high-grade dysplasia during the second EGD, patients should undergo esophagectomy. In patients with low-grade dysplasia, surveillance is needed every 6-12 months. The surveillance interval should be lengthened to every 2-3 years when the results of 2 successive annual EGDs reveal nondysplastic epithelium.

Although dysplasia and cancer can develop in patients with short-segment Barrett's esophagus, the incidence of cancer in these patients is not known. Until the risk of cancer is specifically defined in these patients, endoscopic surveillance is not recommended in those with short-segment Barrett's esophagus. Radiologic intervention has no role in the management of BE. However, after esophagectomy, balloon dilatation may be performed with fluoroscopic guidance if a stricture develops at the anastomotic site.

Medical/Legal Pitfalls

  • The diagnosis and management of short-segment Barrett's esophagus is a definite problem. As Yamamoto et al13 observed, the radiographic findings in short-segment Barrett's esophagus vary from esophagitis and stricture to hiatal hernias or gastroesophageal reflux (GER). Hiatal hernias are commonly observed in the author's day-to-day practice with upper gastrointestinal and barium swallow studies. This observation leads to the question of whether all instances of hiatal hernia warrant endoscopic examination and potential biopsy, lest a short-segment Barrett's esophagus be missed.
  • Some of the radiographic findings of long-segment BE are specific enough to warrant endoscopic examination. The issue arises with smooth, bland strictures in the mid esophagus. Good history taking helps rule out some of the other causes of strictures.

See also the Medscape topic Medical Malpractice and Legal Issues.


FURTHER READING

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Esophagus, Carcinoma - Radiology

Gastroesophageal Reflux - Radiology


MULTIMEDIA

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Media file 1:  Spot radiograph from double-contrast esophagography shows a smooth stricture in the mid esophagus. Multiple ulcerations in the region of the stricture are seen. Note the reticular mucosal appearance extending down from the inferior aspect of the stricture.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 2:  Spot radiograph obtained during the same esophagographic examination as in Image 1 shows spontaneous severe gastroesophageal reflux extending upward beyond the Barrett stricture.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  Image


REFERENCES

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  1. Cameron AJ. The history of Barrett esophagus. Mayo Clin Proc. Jan 2001;76(1):94-6. [Medline].
  2. Moayyedi P, Burch N, Akhtar-Danesh N, Enaganti SK, Harrison R, Talley NJ. Mortality rates in patients with Barrett's oesophagus. Aliment Pharmacol Ther. Feb 15 2008;27(4):316-20. [Medline].
  3. Levine MS. Radiology of esophagitis: a pattern approach. Radiology. Apr 1991;179(1):1-7. [Medline].
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  5. Miehlke S, Morgner A, Aust D, Madisch A, Vieth M, Baretton G. Combined use of narrow-band imaging magnification endoscopy and miniprobe confocal laser microscopy in neoplastic Barrett's esophagus. Endoscopy. Feb 2007;39 Suppl 1:E316. [Medline].
  6. Noh HM, Fishman EK, Forastiere AA. CT of the esophagus: spectrum of disease with emphasis on esophageal carcinoma. Radiographics. Sep 1995;15(5):1113-34. [Medline].
  7. Li Y, Woodall C, Wo JM, Zheng H, Ng CK, Ray MB, et al. The use of dynamic positron emission tomography imaging for evaluating the carcinogenic progression of intestinal metaplasia to esophageal adenocarcinoma. Cancer Invest. Apr-May 2008;26(3):278-85. [Medline].
  8. Eisenberg RL. Esophageal ulceration. In: Gastrointestinal Radiology: A Pattern Approach. 1996: 45-69.
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  13. Yamamoto AJ, Levine MS, Katzka DA. Short-segment Barrett's esophagus: findings on double-contrast esophagography in 20 patients. AJR Am J Roentgenol. May 2001;176(5):1173-8. [Medline].
  14. Ertan A, Younes M. Barrett's esophagus. Dig Dis Sci. Aug 2000;45(8):1670-3. [Medline].
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  17. Ryan AM, Healy LA, Power DG, Byrne M, Murphy S, Byrne PJ, et al. Barrett esophagus: prevalence of central adiposity, metabolic syndrome, and a proinflammatory state. Ann Surg. Jun 2008;247(6):909-15. [Medline].
  18. Schuchert MJ, Luketich JD. Management of Barrett's esophagus. Oncology (Williston Park). Oct 2007;21(11):1382-9, 1392; discussion 1392, 1394, 1396. [Medline].
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Barrett's Esophagus excerpt

Article Last Updated: Jul 24, 2008