Squamous Cell Cancer
Adenocarcinoma of the Esophagus
Evidence of Harm

Squamous Cell Cancer

Squamous cell carcinoma of the esophagus does not have a highly prevalent predisposing condition, although the incidence increases in persons who have had long-standing exposure to tobacco and alcohol,[1] achalasia,[2] head and neck squamous cell cancer attributable most likely to long-standing alcohol and/or tobacco exposure,[3] tylosis,[4,5] history of lye ingestion,[6] celiac sprue,[7] and, in South America and China, hot liquid ingestion.[8] The etiological role of human papillomavirus infection in squamous cell cancer is under study.[9,10]

Efforts at early detection of squamous cell cancer of the esophagus have concentrated on cytological or endoscopic screening of populations in countries where there is a high incidence. Although these programs have demonstrated that it is possible to detect squamous cell cancers in an early asymptomatic stage, no data on efficacy (e.g., mortality reduction) have been published. Esophageal cytological screening studies have been reported from China,[11,12] Iran,[13] South Africa,[14,15] Italy,[16] and Japan.[17] In the United States, such efforts have been focused on individuals perceived to be at higher risk.[18,19] Studies of primary endoscopic screening have been reported from France [20] and Japan.[21]

Comparisons of both Chinese and U.S. cytological diagnoses with concurrent histological findings showed low (14% to 36%) sensitivities for the cytological detection of biopsy-proven cancers. Specificity ranged from 90% to 99% with a positive predictive value of 23% to 94%.[22] The development of uniform and accurate cytological criteria will require formal cytological-histological correlation studies of esophageal lesions. Such studies should become more feasible with the increasing availability of endoscopy in high-risk populations.

The efficacy of surveillance cytology or endoscopy for high-risk patients with tylosis or long-standing achalasia is not known.

Considerable debate has ensued concerning the risk of cancer in patients with Barrett esophagus. Prospective studies have reported annual esophageal cancer incidence rates ranging from 0.2% to 1.9%.[23] Concern over publication bias has led some authors to suggest that the risk may be lower than the literature suggests.[24] A risk of 0.5% per year for development of adenocarcinoma is now thought to be a reasonable estimate for Barrett esophagus.[25]

Barrett esophagus is strongly associated with gastroesophageal reflux disease (GERD), and the changes of Barrett esophagus can be found in approximately 10% of patients who have GERD. However, GERD is very common; surveys have found that approximately 20% of adult Americans experience symptoms of GERD, such as heartburn, at least once each week.[26] The likelihood of finding Barrett esophagus on endoscopy is related to the duration of symptoms of gastroesophageal reflux. In a series of 701 individuals, 4% of those with symptoms for less than 1 year had Barrett esophagus on endoscopy, whereas Barrett esophagus was found in 21% of those with more than 10 years of symptoms of GERD. It has been estimated that physicians identify only approximately 5% of the population who have Barrett esophagus.[27] There is insufficient evidence that population screening for Barrett esophagus reduces cancer mortality.[28,29]

Surveillance of Barrett esophagus involves the use of tests to identify preneoplastic changes or curable neoplasms in patients who are known to have Barrett esophagus. Certain factors are essential in the implementation of an effective surveillance protocol, including low risk of the surveillance method, correct histological diagnosis of dysplasia, proof that surgical resection for high-grade dysplasia will decrease the risk of cancer, and successful resection of cancer. The interval between endoscopic evaluations is typically determined by histologic findings, in accordance with published guidelines by gastroenterological committees.[30] GERD should be treated prior to surveillance endoscopy to minimize confusion caused by inflammation in the interpretation of biopsy specimens. The technique of random, four-quadrant biopsies taken every 2 cm in the columnar-lined esophagus for standard histological evaluation has been recommended by some clinicians. For patients with no dysplasia, surveillance endoscopy at an interval of every 2 to 3 years has been recommended.[30] For patients with low-grade dysplasia, surveillance every 6 months for the first year has been recommended, followed by annual endoscopy if the dysplasia has not progressed in severity. For patients with high-grade dysplasia, two options have been recommended: surgical resection or repeated endoscopic evaluation until the diagnosis of intramucosal carcinoma is made. Although widely adopted in clinical practice, these practices are based on uncontrolled series and the opinion of expert gastrointestinal endoscopists and pathologists.

Other techniques to potentially identify dysplastic epithelium that could then be sampled extensively include chromoendoscopy [31] and laser-induced fluorescence spectroscopy.[29,32]

Screening for esophageal cancer by the use of blind nonendoscopically directed balloon cytological sampling for squamous cell carcinoma is minimally inconvenient and uncomfortable. Endoscopic screening for esophageal adenocarcinoma is expensive, inconvenient, and usually requires sedation.

Complications such as perforation and bleeding can occur. The incidence of complications including perforation, respiratory arrest, and myocardial infarction, has been estimated to be 0 to 13 per 10,000 procedures with an associated mortality of 0 to 0.8 per 10,000 procedures.[33,34]

Individuals who are informed they have Barrett esophagus may consider themselves to be ill even though their risk of developing cancer is very low.

References

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