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In Reply: We thank Dr. Keller for his kind remarks and feedback. However, we do not necessarily agree that the case presented was a bad example of a patient to be evaluated with a barium study. While a significant distal mucosal ring was identified on the study as the cause of the patient’s symptoms, this was not known before the examination. This patient could easily have had a subtle peptic stricture as the cause of the dysphagia. It is well known that subtle strictures can be missed with endoscopy. Further, if we knew that the patient had a significant distal mucosal ring before any testing, one could argue that all that was necessary was a dilation. When one knows, after the fact, what the cause of a patient’s symptoms are, one can always retrospectively determine which tests were necessary and which tests were not.

In our experience, we find that a well-performed barium study can identify many abnormalities that further direct a patient’s care. This examination, when performed correctly, provides both functional and anatomic information about the esophagus. We believe that too many patients undergo unnecessary endoscopic procedures and that endoscopy is not necessarily the initial examination in patients with dysphagia. As a result, the barium examination of the esophagus is underused. Furthermore, we view the barium examination and endoscopy as complementary examinations. We realize this is in many respects a philosophy. But Dr. Keller is also expressing a philosophy when he states, “I believe that patients with dysphagia and GERD are best served by initial endoscopy.” We, including most of our gastroenterologists and esophageal surgeons, believe that the barium examination is an important and often the best initial examination in patients with dysphagia.

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In Reply: We thank Dr. Keller for his kind remarks and feedback. However, we do not necessarily agree that the case presented was a bad example of a patient to be evaluated with a barium study. While a significant distal mucosal ring was identified on the study as the cause of the patient’s symptoms, this was not known before the examination. This patient could easily have had a subtle peptic stricture as the cause of the dysphagia. It is well known that subtle strictures can be missed with endoscopy. Further, if we knew that the patient had a significant distal mucosal ring before any testing, one could argue that all that was necessary was a dilation. When one knows, after the fact, what the cause of a patient’s symptoms are, one can always retrospectively determine which tests were necessary and which tests were not.

In our experience, we find that a well-performed barium study can identify many abnormalities that further direct a patient’s care. This examination, when performed correctly, provides both functional and anatomic information about the esophagus. We believe that too many patients undergo unnecessary endoscopic procedures and that endoscopy is not necessarily the initial examination in patients with dysphagia. As a result, the barium examination of the esophagus is underused. Furthermore, we view the barium examination and endoscopy as complementary examinations. We realize this is in many respects a philosophy. But Dr. Keller is also expressing a philosophy when he states, “I believe that patients with dysphagia and GERD are best served by initial endoscopy.” We, including most of our gastroenterologists and esophageal surgeons, believe that the barium examination is an important and often the best initial examination in patients with dysphagia.

In Reply: We thank Dr. Keller for his kind remarks and feedback. However, we do not necessarily agree that the case presented was a bad example of a patient to be evaluated with a barium study. While a significant distal mucosal ring was identified on the study as the cause of the patient’s symptoms, this was not known before the examination. This patient could easily have had a subtle peptic stricture as the cause of the dysphagia. It is well known that subtle strictures can be missed with endoscopy. Further, if we knew that the patient had a significant distal mucosal ring before any testing, one could argue that all that was necessary was a dilation. When one knows, after the fact, what the cause of a patient’s symptoms are, one can always retrospectively determine which tests were necessary and which tests were not.

In our experience, we find that a well-performed barium study can identify many abnormalities that further direct a patient’s care. This examination, when performed correctly, provides both functional and anatomic information about the esophagus. We believe that too many patients undergo unnecessary endoscopic procedures and that endoscopy is not necessarily the initial examination in patients with dysphagia. As a result, the barium examination of the esophagus is underused. Furthermore, we view the barium examination and endoscopy as complementary examinations. We realize this is in many respects a philosophy. But Dr. Keller is also expressing a philosophy when he states, “I believe that patients with dysphagia and GERD are best served by initial endoscopy.” We, including most of our gastroenterologists and esophageal surgeons, believe that the barium examination is an important and often the best initial examination in patients with dysphagia.

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Role of barium esophagography in evaluating dysphagia

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A 55-year-old woman presents with an intermittent sensation of food getting stuck in her mid to lower chest. The symptoms have occurred several times per year over the last 2 or 3 years and appear to be slowly worsening. She says she has no trouble swallowing liquids. She has a history of gastroesophageal reflux disease, for which she takes a proton pump inhibitor once a day. She says she has had no odynophagia, cough, regurgitation, or weight loss.

How should her symptoms best be evaluated?

DYSPHAGIA CAN BE OROPHARYNGEAL OR ESOPHAGEAL

Dysphagia is the subjective sensation of difficulty swallowing solids, liquids, or both. Symptoms can range from the inability to initiate a swallow to the sensation of esophageal obstruction. Other symptoms of esophageal disease may also be present, such as chest pain, heartburn, and regurgitation. There may also be nonesophageal symptoms related to the disease process causing the dysphagia.

Dysphagia can be separated into oropharyngeal and esophageal types.

Oropharyngeal dysphagia arises from problems in the oropharynx and cervical esophagus and is commonly caused by neurologic disorders of the central or peripheral nervous system (eg, stroke, myasthenia gravis), inflammatory myopathy, or a structural abnormality of the oropharynx, hypopharynx, or cervical esophagus such as a cricopharyngeal bar or tumor (Table 1). Patients typically complain of not being able to initiate a swallow or of food getting stuck in the cervical region immediately upon swallowing, accompanied by nasal regurgitation.1

Interestingly, many patients with symptoms of oropharyngeal dysphagia in fact have referred symptoms from primary esophageal dysphagia2; many patients with a distal mucosal ring describe a sense of something sticking in the cervical esophagus.

Esophageal dysphagia arises in the mid to distal esophagus or gastric cardia, and as a result, the symptoms are typically retrosternal.1 It can be caused by structural problems such as strictures, rings, webs, extrinsic compression, or a primary esophageal or gastroesophageal neoplasm, or by a primary motility abnormality such as achalasia (Table 1). Eosinophilic esophagitis is now a frequent cause of esophageal dysphagia, especially in white men.3

ESOPHAGOGRAPHY VS ENDOSCOPY IN EVALUATING DYSPHAGIA

Many gastroenterologists recommend endoscopy rather than barium esophagography as the initial examination in patients with dysphagia.4–8 Each test has certain advantages.

Advantages of endoscopy. Endoscopy is superior to esophagography in detecting milder grades of esophagitis. Further, interventions can be performed endoscopically (eg, dilation, biopsy, attachment of a wireless pH testing probe) that cannot be done during a radiographic procedure, and endoscopy does not expose the patient to radiation.

Advantages of esophagography. Endoscopy cannot detect evidence of gastroesophageal reflux disease unless mucosal injury is present. In dysphagia, the radiologic findings correlate well with endoscopic findings, including the detection of esophageal malignancy and moderate to severe esophagitis. Further, motility disorders can be detected with barium esophagography but not with endoscopy.9,10

Subtle abnormalities, especially rings and strictures, may be missed by narrow-diameter (9.8–10 mm) modern upper-endoscopic equipment. Further, esophagography is noninvasive, costs less, and may be more convenient (it does not require sedation and a chaperone for the patient after sedation). This examination also provides dynamic evaluation of the complex process of swallowing. Causes of dysphagia external to the esophagus can also be determined.

In view of the respective advantages and disadvantages of the two methods, we believe that in most instances barium esophagography should be the initial examination,1,9,11–15 and at our institution most patients presenting with dysphagia undergo barium esophagography before they undergo other examinations.14

OBTAIN A HISTORY BEFORE ORDERING ESOPHAGOGRAPHY

Before a barium examination of the esophagus is done, a focused medical history should be obtained, as it can guide the further workup as well as the esophageal study itself.

An attempt should be made to determine whether the dysphagia is oropharyngeal or if it is esophageal, as the former is generally best initially evaluated by a speech and language pathologist. Generally, the physician who orders the test judges whether the patient has oropharyngeal or esophageal dysphagia. Often, both an oropharyngeal examination, performed by a speech and language pathologist, and an esophageal examination, performed by a radiologist, are ordered.

Rapidly progressive symptoms, especially if accompanied by weight loss, should make one suspect cancer. Chronic symptoms usually point to gastroesophageal reflux disease or a motility disorder such as achalasia. Liquid dysphagia almost always means the patient has a motility disorder such as achalasia.

In view of the possibility of eosinophilic esophagitis, one should ask about food or seasonal allergies, especially in young patients with intermittent difficulty swallowing solids.3

 

 

BARIUM ESOPHAGOGRAPHY HAS EIGHT SEPARATE PHASES

Barium esophagography is tailored to the patient with dysphagia on the basis of his or her history. The standard examination is divided into eight separate phases (see below).14 Each phase addresses a specific question or questions concerning the structure and function of the esophagus.

At our institution, the first phase of the examination is determined by the presenting symptoms. If the patient has liquid dysphagia, we start with a timed barium swallow to assess esophageal emptying. If the patient does not have liquid dysphagia, we start with an air-contrast mucosal examination.

The patient must be cooperative and mobile to complete all phases of the examination.

Timed barium swallow to measure esophageal emptying

The timed barium swallow is an objective measure of esophageal emptying.16–18 This technique is essential in the initial evaluation of a patient with liquid dysphagia, a symptom common in patients with severe dysmotility, usually achalasia.

Figure 1. Timed barium swallow in a patient with achalasia. The patient consumed 140 mL of low-density barium. There is no emptying of barium between the 1-minute and 5-minute films.
In the upright position, the patient is asked to ingest up to 250 mL of low-density barium, as tolerated. The height and width of the barium column at 1 minute and 5 minutes are measured and recorded (Figure 1).

We use this examination in our patients with suspected or confirmed achalasia and to follow up patients who have been treated with pneumatic dilatation, botulinum toxin injection, and Heller myotomy.17,18 In addition, this timed test is an objective measure of emptying in patients who have undergone intervention but whose symptoms have not subjectively improved, and can suggest that further intervention may be required.

Air-contrast or mucosal phase

Figure 2. Esophagographic phases in a patient with solid-food dysphagia and a significant distal mucosal ring. A. The upright, mucosal phase of the examination shows no abnormalities. B. The distended or full-column phase of the examination shows the distal mucosal ring (arrow) as a sharply defined, ridge-like filling defect in the barium column above a small, sliding-type hiatal hernia (HH) (brought out by the increased intra-abdominal pressure with the patient in the semiprone position). C. The mucosal relief phase again shows the circumferential nature of the distal ring (arrows), as well as the hiatal hernia. D. Spontaneous reflux of gastric barium (arrows) with the patient in the supine position. The barium refluxed to the level of the thoracic inlet. E. Obstruction of the ingested 13-mm tablet (T) at the level of the distal mucosal ring. Barium above the tablet was given to precisely identify the location of the obstruction.
The air-contrast phase of the examination is designed to evaluate the esophageal mucosa and to determine if there is a fixed (nonreducible) hernia. In the upright position, the patient ingests CO2 gas-producing crystals with a small amount of water and then ingests high-density barium in order to coat the mucosa. Spot films are taken of the gas-distended, barium-coated esophagus (Figure 2A).

Although this phase is not as sensitive as endoscopy, it can detect masses, mucosal erosions, ulcers, and—most importantly in our experience—fixed hernias. Patients with a fixed hernia have a foreshortened esophagus, which is important to know about before repairing the hernia. Many esophageal surgeons believe that a foreshortened esophagus precludes a standard Nissen fundoplication and necessitates an esophageal lengthening procedure (ie, Collis gastroplasty with a Nissen fundoplication).14

Motility phase

The third phase examines esophageal motility. With the patient in a semiprone position, low-density barium is given in single swallows, separated by 25 to 30 seconds. The images are recorded on digital media to allow one to review them frame by frame.

The findings on this phase correlate well with those of manometry.19 This portion of the examination also uses impedance monitoring to assess bolus transfer, an aspect not evaluated by manometry.20,21 Impedance monitoring detects changes in resistance to current flow and correlates well with esophagraphic findings regarding bolus transfer.

While many patients with dysphagia also undergo esophageal manometry, the findings from this phase of the esophagographic examination may be the first indication of an esophageal motility disorder. In fact, this portion of the examination shows the distinct advantage of esophagography over endoscopy as the initial test in patients with dysphagia, as endoscopy may not identify patients with achalasia, especially early on.4

Single-contrast (full-column) phase to detect strictures, rings

The fourth phase of the esophagographic evaluation is the distended, single-contrast examination (Figure 2B). This is performed in the semiprone position with the patient rapidly drinking thin barium. It is done to detect esophageal strictures, rings, and contour abnormalities caused by extrinsic processes. Subtle abnormalities shown by this technique, including benign strictures and rings, are often not visualized with endoscopy.

Mucosal relief phase

The fifth phase is performed with a collapsed esophagus immediately after the distended, single-contrast phase, where spot films are taken of the barium-coated, collapsed esophagus (Figure 2C). This phase is used to evaluate thickened mucosal folds, a common finding in moderate to severe reflux esophagitis.

Reflux evaluation

Provocative maneuvers are used in the sixth phase to elicit gastroesophageal reflux (Figure 2D). With the patient supine, he or she is asked to roll side to side, do a Valsalva maneuver, and do a straight-leg raise. The patient then sips water in the supine position to assess for reflux (the water siphon test). If reflux is seen, the cause, the height of the reflux, and the duration of reflux retention are recorded.

Solid-bolus phase to assess strictures

In the seventh phase, the patient swallows a 13-mm barium tablet (Figure 2E). This allows one to assess the significance of a ring or stricture and to assess if dysphagia symptoms recur as a result of tablet obstruction. Subtle strictures that were not detected during the prior phases can also be detected using a tablet. If obstruction or impaired passage occurs, the site of obstruction and the presence or absence of symptoms are recorded.

 

 

Modified esophagography to assess the oropharynx

The final or eighth phase of barium esophagography is called “modified barium esophagography” or the modified barium swallow. However, it may be the first phase of the examination performed or the only portion of the examination performed, or it may not be performed at all.

Modified barium esophagography is used to define the anatomy of the oropharynx and to assess its function in swallowing.12 It may also guide rehabilitation strategies aimed at eliminating a patient’s swallowing symptoms.

Most patients referred for this test have sustained damage to the central nervous system or structures of the oropharynx, such as stroke or radiation therapy for laryngeal cancer. Many have difficulty in starting to swallow, aspirate when they try to swallow, or both.

In this test, thin liquids are given to the patient in escalating amounts. The patient is then given thicker foods, including thick liquids, purees, and food requiring chewing. If the patient has difficulty swallowing, intervention and therapeutic strategies are initiated. If the test is done by itself and the speech pathologist cannot find a cause of the patient’s symptoms, then barium esophagography should be performed by a radiologist.

The final esophagographic report should document the findings of each phase of the examination (Table 2).

WHAT HAPPENED TO OUR PATIENT?

Our patient underwent barium esophagography (Figure 2). A distal mucosal ring that transiently obstructed a 13-mm tablet was found. The patient underwent endoscopy and the ring was dilated. No biopsies were necessary.

References
  1. Levine MS, Rubesin SE. Radiologic investigation of dysphagia. AJR Am J Roentgenol 1990; 154:11571163.
  2. Smith DF, Ott DJ, Gelfand DW, Chen MY. Lower esophageal mucosal ring: correlation of referred symptoms with radiographic findings using a marshmallow bolus. AJR Am J Roentgenol 1998; 171:13611365.
  3. Furuta GT, Liacouras CA, Collins MH, et al. Eosinophilic esophagitis in children and adults: a systematic review and consensus recommendations for diagnosis and treatment. Gastroenterology 2007; 133:13421363.
  4. Spechler SJ. American Gastroenterological Association medical position statement on treatment of patients with dysphagia caused by benign disorders of the distal esophagus. Gastroenterology 1999; 117:229233.
  5. American Society for Gastrointestinal Endoscopy. Appropriate use of gastrointestinal endoscopy. Gastrointest Endosc 2000; 52:831837.
  6. Esfandyari T, Potter JW, Vaezi MF. Dysphagia: a cost analysis of the diagnostic approach. Am J Gastroenterol 2002; 97:27332737.
  7. Varadarajulu S, Eloubeidi MA, Patel RS, et al. The yield and the predictors of esophageal pathology when upper endoscopy is used for the initial evaluation of dysphagia. Gastrointest Endosc 2005; 61:804808.
  8. Standards of Practice Committee. Role of endoscopy in the management of GERD. Gastrointest Endosc 2007; 66:219224.
  9. Halpert RD, Feczko PJ, Spickler EM, Ackerman LV. Radiological assessment of dysphagia with endoscopic correlation. Radiology 1985; 157:599602.
  10. Ott DJ. Gastroesophageal reflux disease. Radiol Clin North Am 1994; 32:11471166.
  11. Ekberg O, Pokieser P. Radiologic evaluation of the dysphagic patient. Eur Radiol 1997; 7:12851295.
  12. Logemann JA. Role of the modified barium swallow in management of patients with dysphagia. Otolaryngol Head Neck Surg 1997; 116:335338.
  13. Baker ME, Rice TW. Radiologic evaluation of the esophagus: methods and value in motility disorders and GERD. Semin Thorac Cardiovasc Surg 2001; 13:201225.
  14. Baker ME, Einstein DM, Herts BR, et al. Gastroesophageal reflux disease: integrating the barium esophagram before and after antire-flux surgery. Radiology 2007; 243:329339.
  15. Levine MS, Rubesin SE, Laufer I. Barium esophagography: a study for all seasons. Clin Gastroenterol Hepatol 2008; 6:1125.
  16. deOliveira JM, Birgisson S, Doinoff C, et al. Timed barium swallow: a simple technique for evaluating esophageal emptying in patients with achalasia. AJR Am J Roentgenol 1997; 169:473479.
  17. Kostic SV, Rice TW, Baker ME, et al. Time barium esophagram: a simple physiologic assessment for achalasia. J Thorac Cardiovasc Surg 2000; 120:935943.
  18. Vaezi MF, Baker ME, Achkar E, Richter JE. Timed barium oesophagram: better predictor of long term success after pneumatic dilation in achalasia than symptom assessment. Gut 2002; 50:765770.
  19. Hewson EG, Ott DJ, Dalton CB, Chen YM, Wu WC, Richter JE. Manometry and radiology. Complementary studies in the assessment of esophageal motility disorders. Gastroenterology 1990; 98:626632.
  20. Imam H, Shay S, Ali A, Baker M. Bolus transit patterns in healthy subjects: a study using simultaneous impedance monitoring, video-esophagram, and esophageal manometry. Am J Physiol Gastrointest Liver Physiol 2005;G1000G1006.
  21. Imam H, Baker M, Shay S. Simultaneous barium esophagram, impedance monitoring and manometry in patients with dysphagia due to a tight fundoplication [abstract]. Gastroenterology 2004; 126:A-639.
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Address: Brian C. Allen, MD, Imaging Institute, Hb6, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH; e-mail [email protected]

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Address: Brian C. Allen, MD, Imaging Institute, Hb6, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH; e-mail [email protected]

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Address: Brian C. Allen, MD, Imaging Institute, Hb6, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH; e-mail [email protected]

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A 55-year-old woman presents with an intermittent sensation of food getting stuck in her mid to lower chest. The symptoms have occurred several times per year over the last 2 or 3 years and appear to be slowly worsening. She says she has no trouble swallowing liquids. She has a history of gastroesophageal reflux disease, for which she takes a proton pump inhibitor once a day. She says she has had no odynophagia, cough, regurgitation, or weight loss.

How should her symptoms best be evaluated?

DYSPHAGIA CAN BE OROPHARYNGEAL OR ESOPHAGEAL

Dysphagia is the subjective sensation of difficulty swallowing solids, liquids, or both. Symptoms can range from the inability to initiate a swallow to the sensation of esophageal obstruction. Other symptoms of esophageal disease may also be present, such as chest pain, heartburn, and regurgitation. There may also be nonesophageal symptoms related to the disease process causing the dysphagia.

Dysphagia can be separated into oropharyngeal and esophageal types.

Oropharyngeal dysphagia arises from problems in the oropharynx and cervical esophagus and is commonly caused by neurologic disorders of the central or peripheral nervous system (eg, stroke, myasthenia gravis), inflammatory myopathy, or a structural abnormality of the oropharynx, hypopharynx, or cervical esophagus such as a cricopharyngeal bar or tumor (Table 1). Patients typically complain of not being able to initiate a swallow or of food getting stuck in the cervical region immediately upon swallowing, accompanied by nasal regurgitation.1

Interestingly, many patients with symptoms of oropharyngeal dysphagia in fact have referred symptoms from primary esophageal dysphagia2; many patients with a distal mucosal ring describe a sense of something sticking in the cervical esophagus.

Esophageal dysphagia arises in the mid to distal esophagus or gastric cardia, and as a result, the symptoms are typically retrosternal.1 It can be caused by structural problems such as strictures, rings, webs, extrinsic compression, or a primary esophageal or gastroesophageal neoplasm, or by a primary motility abnormality such as achalasia (Table 1). Eosinophilic esophagitis is now a frequent cause of esophageal dysphagia, especially in white men.3

ESOPHAGOGRAPHY VS ENDOSCOPY IN EVALUATING DYSPHAGIA

Many gastroenterologists recommend endoscopy rather than barium esophagography as the initial examination in patients with dysphagia.4–8 Each test has certain advantages.

Advantages of endoscopy. Endoscopy is superior to esophagography in detecting milder grades of esophagitis. Further, interventions can be performed endoscopically (eg, dilation, biopsy, attachment of a wireless pH testing probe) that cannot be done during a radiographic procedure, and endoscopy does not expose the patient to radiation.

Advantages of esophagography. Endoscopy cannot detect evidence of gastroesophageal reflux disease unless mucosal injury is present. In dysphagia, the radiologic findings correlate well with endoscopic findings, including the detection of esophageal malignancy and moderate to severe esophagitis. Further, motility disorders can be detected with barium esophagography but not with endoscopy.9,10

Subtle abnormalities, especially rings and strictures, may be missed by narrow-diameter (9.8–10 mm) modern upper-endoscopic equipment. Further, esophagography is noninvasive, costs less, and may be more convenient (it does not require sedation and a chaperone for the patient after sedation). This examination also provides dynamic evaluation of the complex process of swallowing. Causes of dysphagia external to the esophagus can also be determined.

In view of the respective advantages and disadvantages of the two methods, we believe that in most instances barium esophagography should be the initial examination,1,9,11–15 and at our institution most patients presenting with dysphagia undergo barium esophagography before they undergo other examinations.14

OBTAIN A HISTORY BEFORE ORDERING ESOPHAGOGRAPHY

Before a barium examination of the esophagus is done, a focused medical history should be obtained, as it can guide the further workup as well as the esophageal study itself.

An attempt should be made to determine whether the dysphagia is oropharyngeal or if it is esophageal, as the former is generally best initially evaluated by a speech and language pathologist. Generally, the physician who orders the test judges whether the patient has oropharyngeal or esophageal dysphagia. Often, both an oropharyngeal examination, performed by a speech and language pathologist, and an esophageal examination, performed by a radiologist, are ordered.

Rapidly progressive symptoms, especially if accompanied by weight loss, should make one suspect cancer. Chronic symptoms usually point to gastroesophageal reflux disease or a motility disorder such as achalasia. Liquid dysphagia almost always means the patient has a motility disorder such as achalasia.

In view of the possibility of eosinophilic esophagitis, one should ask about food or seasonal allergies, especially in young patients with intermittent difficulty swallowing solids.3

 

 

BARIUM ESOPHAGOGRAPHY HAS EIGHT SEPARATE PHASES

Barium esophagography is tailored to the patient with dysphagia on the basis of his or her history. The standard examination is divided into eight separate phases (see below).14 Each phase addresses a specific question or questions concerning the structure and function of the esophagus.

At our institution, the first phase of the examination is determined by the presenting symptoms. If the patient has liquid dysphagia, we start with a timed barium swallow to assess esophageal emptying. If the patient does not have liquid dysphagia, we start with an air-contrast mucosal examination.

The patient must be cooperative and mobile to complete all phases of the examination.

Timed barium swallow to measure esophageal emptying

The timed barium swallow is an objective measure of esophageal emptying.16–18 This technique is essential in the initial evaluation of a patient with liquid dysphagia, a symptom common in patients with severe dysmotility, usually achalasia.

Figure 1. Timed barium swallow in a patient with achalasia. The patient consumed 140 mL of low-density barium. There is no emptying of barium between the 1-minute and 5-minute films.
In the upright position, the patient is asked to ingest up to 250 mL of low-density barium, as tolerated. The height and width of the barium column at 1 minute and 5 minutes are measured and recorded (Figure 1).

We use this examination in our patients with suspected or confirmed achalasia and to follow up patients who have been treated with pneumatic dilatation, botulinum toxin injection, and Heller myotomy.17,18 In addition, this timed test is an objective measure of emptying in patients who have undergone intervention but whose symptoms have not subjectively improved, and can suggest that further intervention may be required.

Air-contrast or mucosal phase

Figure 2. Esophagographic phases in a patient with solid-food dysphagia and a significant distal mucosal ring. A. The upright, mucosal phase of the examination shows no abnormalities. B. The distended or full-column phase of the examination shows the distal mucosal ring (arrow) as a sharply defined, ridge-like filling defect in the barium column above a small, sliding-type hiatal hernia (HH) (brought out by the increased intra-abdominal pressure with the patient in the semiprone position). C. The mucosal relief phase again shows the circumferential nature of the distal ring (arrows), as well as the hiatal hernia. D. Spontaneous reflux of gastric barium (arrows) with the patient in the supine position. The barium refluxed to the level of the thoracic inlet. E. Obstruction of the ingested 13-mm tablet (T) at the level of the distal mucosal ring. Barium above the tablet was given to precisely identify the location of the obstruction.
The air-contrast phase of the examination is designed to evaluate the esophageal mucosa and to determine if there is a fixed (nonreducible) hernia. In the upright position, the patient ingests CO2 gas-producing crystals with a small amount of water and then ingests high-density barium in order to coat the mucosa. Spot films are taken of the gas-distended, barium-coated esophagus (Figure 2A).

Although this phase is not as sensitive as endoscopy, it can detect masses, mucosal erosions, ulcers, and—most importantly in our experience—fixed hernias. Patients with a fixed hernia have a foreshortened esophagus, which is important to know about before repairing the hernia. Many esophageal surgeons believe that a foreshortened esophagus precludes a standard Nissen fundoplication and necessitates an esophageal lengthening procedure (ie, Collis gastroplasty with a Nissen fundoplication).14

Motility phase

The third phase examines esophageal motility. With the patient in a semiprone position, low-density barium is given in single swallows, separated by 25 to 30 seconds. The images are recorded on digital media to allow one to review them frame by frame.

The findings on this phase correlate well with those of manometry.19 This portion of the examination also uses impedance monitoring to assess bolus transfer, an aspect not evaluated by manometry.20,21 Impedance monitoring detects changes in resistance to current flow and correlates well with esophagraphic findings regarding bolus transfer.

While many patients with dysphagia also undergo esophageal manometry, the findings from this phase of the esophagographic examination may be the first indication of an esophageal motility disorder. In fact, this portion of the examination shows the distinct advantage of esophagography over endoscopy as the initial test in patients with dysphagia, as endoscopy may not identify patients with achalasia, especially early on.4

Single-contrast (full-column) phase to detect strictures, rings

The fourth phase of the esophagographic evaluation is the distended, single-contrast examination (Figure 2B). This is performed in the semiprone position with the patient rapidly drinking thin barium. It is done to detect esophageal strictures, rings, and contour abnormalities caused by extrinsic processes. Subtle abnormalities shown by this technique, including benign strictures and rings, are often not visualized with endoscopy.

Mucosal relief phase

The fifth phase is performed with a collapsed esophagus immediately after the distended, single-contrast phase, where spot films are taken of the barium-coated, collapsed esophagus (Figure 2C). This phase is used to evaluate thickened mucosal folds, a common finding in moderate to severe reflux esophagitis.

Reflux evaluation

Provocative maneuvers are used in the sixth phase to elicit gastroesophageal reflux (Figure 2D). With the patient supine, he or she is asked to roll side to side, do a Valsalva maneuver, and do a straight-leg raise. The patient then sips water in the supine position to assess for reflux (the water siphon test). If reflux is seen, the cause, the height of the reflux, and the duration of reflux retention are recorded.

Solid-bolus phase to assess strictures

In the seventh phase, the patient swallows a 13-mm barium tablet (Figure 2E). This allows one to assess the significance of a ring or stricture and to assess if dysphagia symptoms recur as a result of tablet obstruction. Subtle strictures that were not detected during the prior phases can also be detected using a tablet. If obstruction or impaired passage occurs, the site of obstruction and the presence or absence of symptoms are recorded.

 

 

Modified esophagography to assess the oropharynx

The final or eighth phase of barium esophagography is called “modified barium esophagography” or the modified barium swallow. However, it may be the first phase of the examination performed or the only portion of the examination performed, or it may not be performed at all.

Modified barium esophagography is used to define the anatomy of the oropharynx and to assess its function in swallowing.12 It may also guide rehabilitation strategies aimed at eliminating a patient’s swallowing symptoms.

Most patients referred for this test have sustained damage to the central nervous system or structures of the oropharynx, such as stroke or radiation therapy for laryngeal cancer. Many have difficulty in starting to swallow, aspirate when they try to swallow, or both.

In this test, thin liquids are given to the patient in escalating amounts. The patient is then given thicker foods, including thick liquids, purees, and food requiring chewing. If the patient has difficulty swallowing, intervention and therapeutic strategies are initiated. If the test is done by itself and the speech pathologist cannot find a cause of the patient’s symptoms, then barium esophagography should be performed by a radiologist.

The final esophagographic report should document the findings of each phase of the examination (Table 2).

WHAT HAPPENED TO OUR PATIENT?

Our patient underwent barium esophagography (Figure 2). A distal mucosal ring that transiently obstructed a 13-mm tablet was found. The patient underwent endoscopy and the ring was dilated. No biopsies were necessary.

A 55-year-old woman presents with an intermittent sensation of food getting stuck in her mid to lower chest. The symptoms have occurred several times per year over the last 2 or 3 years and appear to be slowly worsening. She says she has no trouble swallowing liquids. She has a history of gastroesophageal reflux disease, for which she takes a proton pump inhibitor once a day. She says she has had no odynophagia, cough, regurgitation, or weight loss.

How should her symptoms best be evaluated?

DYSPHAGIA CAN BE OROPHARYNGEAL OR ESOPHAGEAL

Dysphagia is the subjective sensation of difficulty swallowing solids, liquids, or both. Symptoms can range from the inability to initiate a swallow to the sensation of esophageal obstruction. Other symptoms of esophageal disease may also be present, such as chest pain, heartburn, and regurgitation. There may also be nonesophageal symptoms related to the disease process causing the dysphagia.

Dysphagia can be separated into oropharyngeal and esophageal types.

Oropharyngeal dysphagia arises from problems in the oropharynx and cervical esophagus and is commonly caused by neurologic disorders of the central or peripheral nervous system (eg, stroke, myasthenia gravis), inflammatory myopathy, or a structural abnormality of the oropharynx, hypopharynx, or cervical esophagus such as a cricopharyngeal bar or tumor (Table 1). Patients typically complain of not being able to initiate a swallow or of food getting stuck in the cervical region immediately upon swallowing, accompanied by nasal regurgitation.1

Interestingly, many patients with symptoms of oropharyngeal dysphagia in fact have referred symptoms from primary esophageal dysphagia2; many patients with a distal mucosal ring describe a sense of something sticking in the cervical esophagus.

Esophageal dysphagia arises in the mid to distal esophagus or gastric cardia, and as a result, the symptoms are typically retrosternal.1 It can be caused by structural problems such as strictures, rings, webs, extrinsic compression, or a primary esophageal or gastroesophageal neoplasm, or by a primary motility abnormality such as achalasia (Table 1). Eosinophilic esophagitis is now a frequent cause of esophageal dysphagia, especially in white men.3

ESOPHAGOGRAPHY VS ENDOSCOPY IN EVALUATING DYSPHAGIA

Many gastroenterologists recommend endoscopy rather than barium esophagography as the initial examination in patients with dysphagia.4–8 Each test has certain advantages.

Advantages of endoscopy. Endoscopy is superior to esophagography in detecting milder grades of esophagitis. Further, interventions can be performed endoscopically (eg, dilation, biopsy, attachment of a wireless pH testing probe) that cannot be done during a radiographic procedure, and endoscopy does not expose the patient to radiation.

Advantages of esophagography. Endoscopy cannot detect evidence of gastroesophageal reflux disease unless mucosal injury is present. In dysphagia, the radiologic findings correlate well with endoscopic findings, including the detection of esophageal malignancy and moderate to severe esophagitis. Further, motility disorders can be detected with barium esophagography but not with endoscopy.9,10

Subtle abnormalities, especially rings and strictures, may be missed by narrow-diameter (9.8–10 mm) modern upper-endoscopic equipment. Further, esophagography is noninvasive, costs less, and may be more convenient (it does not require sedation and a chaperone for the patient after sedation). This examination also provides dynamic evaluation of the complex process of swallowing. Causes of dysphagia external to the esophagus can also be determined.

In view of the respective advantages and disadvantages of the two methods, we believe that in most instances barium esophagography should be the initial examination,1,9,11–15 and at our institution most patients presenting with dysphagia undergo barium esophagography before they undergo other examinations.14

OBTAIN A HISTORY BEFORE ORDERING ESOPHAGOGRAPHY

Before a barium examination of the esophagus is done, a focused medical history should be obtained, as it can guide the further workup as well as the esophageal study itself.

An attempt should be made to determine whether the dysphagia is oropharyngeal or if it is esophageal, as the former is generally best initially evaluated by a speech and language pathologist. Generally, the physician who orders the test judges whether the patient has oropharyngeal or esophageal dysphagia. Often, both an oropharyngeal examination, performed by a speech and language pathologist, and an esophageal examination, performed by a radiologist, are ordered.

Rapidly progressive symptoms, especially if accompanied by weight loss, should make one suspect cancer. Chronic symptoms usually point to gastroesophageal reflux disease or a motility disorder such as achalasia. Liquid dysphagia almost always means the patient has a motility disorder such as achalasia.

In view of the possibility of eosinophilic esophagitis, one should ask about food or seasonal allergies, especially in young patients with intermittent difficulty swallowing solids.3

 

 

BARIUM ESOPHAGOGRAPHY HAS EIGHT SEPARATE PHASES

Barium esophagography is tailored to the patient with dysphagia on the basis of his or her history. The standard examination is divided into eight separate phases (see below).14 Each phase addresses a specific question or questions concerning the structure and function of the esophagus.

At our institution, the first phase of the examination is determined by the presenting symptoms. If the patient has liquid dysphagia, we start with a timed barium swallow to assess esophageal emptying. If the patient does not have liquid dysphagia, we start with an air-contrast mucosal examination.

The patient must be cooperative and mobile to complete all phases of the examination.

Timed barium swallow to measure esophageal emptying

The timed barium swallow is an objective measure of esophageal emptying.16–18 This technique is essential in the initial evaluation of a patient with liquid dysphagia, a symptom common in patients with severe dysmotility, usually achalasia.

Figure 1. Timed barium swallow in a patient with achalasia. The patient consumed 140 mL of low-density barium. There is no emptying of barium between the 1-minute and 5-minute films.
In the upright position, the patient is asked to ingest up to 250 mL of low-density barium, as tolerated. The height and width of the barium column at 1 minute and 5 minutes are measured and recorded (Figure 1).

We use this examination in our patients with suspected or confirmed achalasia and to follow up patients who have been treated with pneumatic dilatation, botulinum toxin injection, and Heller myotomy.17,18 In addition, this timed test is an objective measure of emptying in patients who have undergone intervention but whose symptoms have not subjectively improved, and can suggest that further intervention may be required.

Air-contrast or mucosal phase

Figure 2. Esophagographic phases in a patient with solid-food dysphagia and a significant distal mucosal ring. A. The upright, mucosal phase of the examination shows no abnormalities. B. The distended or full-column phase of the examination shows the distal mucosal ring (arrow) as a sharply defined, ridge-like filling defect in the barium column above a small, sliding-type hiatal hernia (HH) (brought out by the increased intra-abdominal pressure with the patient in the semiprone position). C. The mucosal relief phase again shows the circumferential nature of the distal ring (arrows), as well as the hiatal hernia. D. Spontaneous reflux of gastric barium (arrows) with the patient in the supine position. The barium refluxed to the level of the thoracic inlet. E. Obstruction of the ingested 13-mm tablet (T) at the level of the distal mucosal ring. Barium above the tablet was given to precisely identify the location of the obstruction.
The air-contrast phase of the examination is designed to evaluate the esophageal mucosa and to determine if there is a fixed (nonreducible) hernia. In the upright position, the patient ingests CO2 gas-producing crystals with a small amount of water and then ingests high-density barium in order to coat the mucosa. Spot films are taken of the gas-distended, barium-coated esophagus (Figure 2A).

Although this phase is not as sensitive as endoscopy, it can detect masses, mucosal erosions, ulcers, and—most importantly in our experience—fixed hernias. Patients with a fixed hernia have a foreshortened esophagus, which is important to know about before repairing the hernia. Many esophageal surgeons believe that a foreshortened esophagus precludes a standard Nissen fundoplication and necessitates an esophageal lengthening procedure (ie, Collis gastroplasty with a Nissen fundoplication).14

Motility phase

The third phase examines esophageal motility. With the patient in a semiprone position, low-density barium is given in single swallows, separated by 25 to 30 seconds. The images are recorded on digital media to allow one to review them frame by frame.

The findings on this phase correlate well with those of manometry.19 This portion of the examination also uses impedance monitoring to assess bolus transfer, an aspect not evaluated by manometry.20,21 Impedance monitoring detects changes in resistance to current flow and correlates well with esophagraphic findings regarding bolus transfer.

While many patients with dysphagia also undergo esophageal manometry, the findings from this phase of the esophagographic examination may be the first indication of an esophageal motility disorder. In fact, this portion of the examination shows the distinct advantage of esophagography over endoscopy as the initial test in patients with dysphagia, as endoscopy may not identify patients with achalasia, especially early on.4

Single-contrast (full-column) phase to detect strictures, rings

The fourth phase of the esophagographic evaluation is the distended, single-contrast examination (Figure 2B). This is performed in the semiprone position with the patient rapidly drinking thin barium. It is done to detect esophageal strictures, rings, and contour abnormalities caused by extrinsic processes. Subtle abnormalities shown by this technique, including benign strictures and rings, are often not visualized with endoscopy.

Mucosal relief phase

The fifth phase is performed with a collapsed esophagus immediately after the distended, single-contrast phase, where spot films are taken of the barium-coated, collapsed esophagus (Figure 2C). This phase is used to evaluate thickened mucosal folds, a common finding in moderate to severe reflux esophagitis.

Reflux evaluation

Provocative maneuvers are used in the sixth phase to elicit gastroesophageal reflux (Figure 2D). With the patient supine, he or she is asked to roll side to side, do a Valsalva maneuver, and do a straight-leg raise. The patient then sips water in the supine position to assess for reflux (the water siphon test). If reflux is seen, the cause, the height of the reflux, and the duration of reflux retention are recorded.

Solid-bolus phase to assess strictures

In the seventh phase, the patient swallows a 13-mm barium tablet (Figure 2E). This allows one to assess the significance of a ring or stricture and to assess if dysphagia symptoms recur as a result of tablet obstruction. Subtle strictures that were not detected during the prior phases can also be detected using a tablet. If obstruction or impaired passage occurs, the site of obstruction and the presence or absence of symptoms are recorded.

 

 

Modified esophagography to assess the oropharynx

The final or eighth phase of barium esophagography is called “modified barium esophagography” or the modified barium swallow. However, it may be the first phase of the examination performed or the only portion of the examination performed, or it may not be performed at all.

Modified barium esophagography is used to define the anatomy of the oropharynx and to assess its function in swallowing.12 It may also guide rehabilitation strategies aimed at eliminating a patient’s swallowing symptoms.

Most patients referred for this test have sustained damage to the central nervous system or structures of the oropharynx, such as stroke or radiation therapy for laryngeal cancer. Many have difficulty in starting to swallow, aspirate when they try to swallow, or both.

In this test, thin liquids are given to the patient in escalating amounts. The patient is then given thicker foods, including thick liquids, purees, and food requiring chewing. If the patient has difficulty swallowing, intervention and therapeutic strategies are initiated. If the test is done by itself and the speech pathologist cannot find a cause of the patient’s symptoms, then barium esophagography should be performed by a radiologist.

The final esophagographic report should document the findings of each phase of the examination (Table 2).

WHAT HAPPENED TO OUR PATIENT?

Our patient underwent barium esophagography (Figure 2). A distal mucosal ring that transiently obstructed a 13-mm tablet was found. The patient underwent endoscopy and the ring was dilated. No biopsies were necessary.

References
  1. Levine MS, Rubesin SE. Radiologic investigation of dysphagia. AJR Am J Roentgenol 1990; 154:11571163.
  2. Smith DF, Ott DJ, Gelfand DW, Chen MY. Lower esophageal mucosal ring: correlation of referred symptoms with radiographic findings using a marshmallow bolus. AJR Am J Roentgenol 1998; 171:13611365.
  3. Furuta GT, Liacouras CA, Collins MH, et al. Eosinophilic esophagitis in children and adults: a systematic review and consensus recommendations for diagnosis and treatment. Gastroenterology 2007; 133:13421363.
  4. Spechler SJ. American Gastroenterological Association medical position statement on treatment of patients with dysphagia caused by benign disorders of the distal esophagus. Gastroenterology 1999; 117:229233.
  5. American Society for Gastrointestinal Endoscopy. Appropriate use of gastrointestinal endoscopy. Gastrointest Endosc 2000; 52:831837.
  6. Esfandyari T, Potter JW, Vaezi MF. Dysphagia: a cost analysis of the diagnostic approach. Am J Gastroenterol 2002; 97:27332737.
  7. Varadarajulu S, Eloubeidi MA, Patel RS, et al. The yield and the predictors of esophageal pathology when upper endoscopy is used for the initial evaluation of dysphagia. Gastrointest Endosc 2005; 61:804808.
  8. Standards of Practice Committee. Role of endoscopy in the management of GERD. Gastrointest Endosc 2007; 66:219224.
  9. Halpert RD, Feczko PJ, Spickler EM, Ackerman LV. Radiological assessment of dysphagia with endoscopic correlation. Radiology 1985; 157:599602.
  10. Ott DJ. Gastroesophageal reflux disease. Radiol Clin North Am 1994; 32:11471166.
  11. Ekberg O, Pokieser P. Radiologic evaluation of the dysphagic patient. Eur Radiol 1997; 7:12851295.
  12. Logemann JA. Role of the modified barium swallow in management of patients with dysphagia. Otolaryngol Head Neck Surg 1997; 116:335338.
  13. Baker ME, Rice TW. Radiologic evaluation of the esophagus: methods and value in motility disorders and GERD. Semin Thorac Cardiovasc Surg 2001; 13:201225.
  14. Baker ME, Einstein DM, Herts BR, et al. Gastroesophageal reflux disease: integrating the barium esophagram before and after antire-flux surgery. Radiology 2007; 243:329339.
  15. Levine MS, Rubesin SE, Laufer I. Barium esophagography: a study for all seasons. Clin Gastroenterol Hepatol 2008; 6:1125.
  16. deOliveira JM, Birgisson S, Doinoff C, et al. Timed barium swallow: a simple technique for evaluating esophageal emptying in patients with achalasia. AJR Am J Roentgenol 1997; 169:473479.
  17. Kostic SV, Rice TW, Baker ME, et al. Time barium esophagram: a simple physiologic assessment for achalasia. J Thorac Cardiovasc Surg 2000; 120:935943.
  18. Vaezi MF, Baker ME, Achkar E, Richter JE. Timed barium oesophagram: better predictor of long term success after pneumatic dilation in achalasia than symptom assessment. Gut 2002; 50:765770.
  19. Hewson EG, Ott DJ, Dalton CB, Chen YM, Wu WC, Richter JE. Manometry and radiology. Complementary studies in the assessment of esophageal motility disorders. Gastroenterology 1990; 98:626632.
  20. Imam H, Shay S, Ali A, Baker M. Bolus transit patterns in healthy subjects: a study using simultaneous impedance monitoring, video-esophagram, and esophageal manometry. Am J Physiol Gastrointest Liver Physiol 2005;G1000G1006.
  21. Imam H, Baker M, Shay S. Simultaneous barium esophagram, impedance monitoring and manometry in patients with dysphagia due to a tight fundoplication [abstract]. Gastroenterology 2004; 126:A-639.
References
  1. Levine MS, Rubesin SE. Radiologic investigation of dysphagia. AJR Am J Roentgenol 1990; 154:11571163.
  2. Smith DF, Ott DJ, Gelfand DW, Chen MY. Lower esophageal mucosal ring: correlation of referred symptoms with radiographic findings using a marshmallow bolus. AJR Am J Roentgenol 1998; 171:13611365.
  3. Furuta GT, Liacouras CA, Collins MH, et al. Eosinophilic esophagitis in children and adults: a systematic review and consensus recommendations for diagnosis and treatment. Gastroenterology 2007; 133:13421363.
  4. Spechler SJ. American Gastroenterological Association medical position statement on treatment of patients with dysphagia caused by benign disorders of the distal esophagus. Gastroenterology 1999; 117:229233.
  5. American Society for Gastrointestinal Endoscopy. Appropriate use of gastrointestinal endoscopy. Gastrointest Endosc 2000; 52:831837.
  6. Esfandyari T, Potter JW, Vaezi MF. Dysphagia: a cost analysis of the diagnostic approach. Am J Gastroenterol 2002; 97:27332737.
  7. Varadarajulu S, Eloubeidi MA, Patel RS, et al. The yield and the predictors of esophageal pathology when upper endoscopy is used for the initial evaluation of dysphagia. Gastrointest Endosc 2005; 61:804808.
  8. Standards of Practice Committee. Role of endoscopy in the management of GERD. Gastrointest Endosc 2007; 66:219224.
  9. Halpert RD, Feczko PJ, Spickler EM, Ackerman LV. Radiological assessment of dysphagia with endoscopic correlation. Radiology 1985; 157:599602.
  10. Ott DJ. Gastroesophageal reflux disease. Radiol Clin North Am 1994; 32:11471166.
  11. Ekberg O, Pokieser P. Radiologic evaluation of the dysphagic patient. Eur Radiol 1997; 7:12851295.
  12. Logemann JA. Role of the modified barium swallow in management of patients with dysphagia. Otolaryngol Head Neck Surg 1997; 116:335338.
  13. Baker ME, Rice TW. Radiologic evaluation of the esophagus: methods and value in motility disorders and GERD. Semin Thorac Cardiovasc Surg 2001; 13:201225.
  14. Baker ME, Einstein DM, Herts BR, et al. Gastroesophageal reflux disease: integrating the barium esophagram before and after antire-flux surgery. Radiology 2007; 243:329339.
  15. Levine MS, Rubesin SE, Laufer I. Barium esophagography: a study for all seasons. Clin Gastroenterol Hepatol 2008; 6:1125.
  16. deOliveira JM, Birgisson S, Doinoff C, et al. Timed barium swallow: a simple technique for evaluating esophageal emptying in patients with achalasia. AJR Am J Roentgenol 1997; 169:473479.
  17. Kostic SV, Rice TW, Baker ME, et al. Time barium esophagram: a simple physiologic assessment for achalasia. J Thorac Cardiovasc Surg 2000; 120:935943.
  18. Vaezi MF, Baker ME, Achkar E, Richter JE. Timed barium oesophagram: better predictor of long term success after pneumatic dilation in achalasia than symptom assessment. Gut 2002; 50:765770.
  19. Hewson EG, Ott DJ, Dalton CB, Chen YM, Wu WC, Richter JE. Manometry and radiology. Complementary studies in the assessment of esophageal motility disorders. Gastroenterology 1990; 98:626632.
  20. Imam H, Shay S, Ali A, Baker M. Bolus transit patterns in healthy subjects: a study using simultaneous impedance monitoring, video-esophagram, and esophageal manometry. Am J Physiol Gastrointest Liver Physiol 2005;G1000G1006.
  21. Imam H, Baker M, Shay S. Simultaneous barium esophagram, impedance monitoring and manometry in patients with dysphagia due to a tight fundoplication [abstract]. Gastroenterology 2004; 126:A-639.
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KEY POINTS

  • Dysphagia can be due to problems in the oropharynx and cervical esophagus or in the distal esophagus.
  • Radiologic evaluation of dysphagia has distinct advantages over endoscopy, including its ability to diagnose both structural changes and motility disorders.
  • A barium evaluation can include a modified barium-swallowing study to evaluate the oropharynx, barium esophagography to evaluate the esophagus, and a timed study to evaluate esophageal emptying.
  • Often, the true cause of dysphagia is best approached with a combination of radiographic and endoscopic studies.
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Eosinophilic esophagitis: An increasingly recognized cause of dysphagia, food impaction, and refractory heartburn

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Eosinophilic esophagitis: An increasingly recognized cause of dysphagia, food impaction, and refractory heartburn

Figure 1.
Until recently, the cause of intermittent or progressive difficulty swallowing solids was thought to be a mechanical problem such as a stricture, ring, or cancer, whereas motility disorders such as achalasia or diffuse esophageal spasm were implicated in difficulty swallowing both solids and liquids. But now we are becoming aware of a relatively new disease, eosinophilic esophagitis, as a cause of dysphagia in both adults and children (Figure 1).

Abundant eosinophils in the esophagus were first described in 1977 in a 51-year-old man with dysphagia, chest pain, and a personal history of severe asthma and marked peripheral eosinophilia.1 In 1983, a similar case was reported in an adolescent with dysphagia.2 In both patients, large numbers of eosinophils were also noted in the duodenum, suggesting that these findings were part of a systemic hypereosinophilic syndrome.

Increased numbers of eosinophils in the gastrointestinal tract have been described in a number of diseases, including Crohn disease, connective tissue disorders, malignancy, various infections, and drug hypersensitivity reactions. However, not until 1993 was eosinophilic esophagitis described as a distinct clinical entity, consisting of isolated esophageal eosinophilia (typically more than 15 eosinophils per high-power field) in patients with dysphagia.3

Now, epidemiologic studies suggest that eosinophilic esophagitis may be as common as inflammatory bowel disease. In a study of children in Cincinnati, OH,4 the incidence was estimated at 10 per 100,000 children per year and the prevalence was estimated at 43 per 100,000. Of interest, 97% of cases were diagnosed after the year 2000.

RISING INCIDENCE, OR INCREASED RECOGNITION?

Over the last several years, the number of reported cases has increased substantially as interest in this disease has grown. The increase has been attributed in part to heightened awareness of this condition among clinicians and, hence, more esophageal biopsies being performed. Similarly, pathologists may have previously attributed esophageal eosinophilia to gastroesophageal reflux disease (GERD). However, the prevalence of eosinophilic esophagitis increased 10-fold between 1989 and 2003 in a fixed and stable adult population in Olten, Switzerland, suggesting that more than just increased awareness is responsible for this dramatic rise.5

PATHOGENESIS: SIMILAR TO OTHER ALLERGIC DISEASES?

The growing incidence of eosinophilic esophagitis parallels that of asthma, eczema, allergic rhinitis, and other atopic diseases, raising the possibility that these disorders share common environmental exposures and similar inflammatory pathways.6 The pathologic mechanisms of eosinophilic esophagitis are unknown, but emerging evidence suggests that, like other allergic diseases, it is an immune response mediated by type 2 T helper cells.

Several animal studies support this hypothesis. Mice sensitized and then exposed to aeroallergens developed both allergic airway inflammation and eosinophilic esophagitis. Interleukin 5, a cytokine involved in asthma, also helps recruit eosinophils into the esophagus, as transgenic mice deficient in interleukin 5 do not develop esophageal eosinophilia upon allergen exposure.7

Recently, eotaxin-3, a potent attractant for eosinophils, was shown to be markedly overexpressed in children with eosinophilic esophagitis compared with controls.8

Acid reflux does not appear to be a causative factor in most patients. However, reflux may play a secondary role, as some patients have experienced symptomatic, endoscopic, and histologic resolution of eosinophilic esophagitis after treatment with a proton pump inhibitor.9

GERD AND EOSINOPHILIC ESOPHAGITIS: WHAT IS THE RELATIONSHIP?

Given the high prevalence of GERD in the general population, much time and effort have been spent on comparing eosinophilic esophagitis with GERD. In fact, some endoscopic features typically seen in eosinophilic esophagitis were previously attributed to acid reflux.10

Both diseases share varying degrees of esophageal eosinophilia, and some have speculated on the relationship of eosinophilic esophagitis and GERD. Spechler et al11 recently suggested that the mucosal injury caused by acid reflux may allow swallowed allergens to penetrate an esophageal layer that is otherwise impermeable to most proteins, thereby causing mild eosinophilia. Conversely, the intense degranulation of activated eosinophils seen in eosinophilic esophagitis can trigger changes in the lower esophageal sphincter that could predispose to acid reflux.

Although their clinical and pathologic features may overlap, GERD and eosinophilic esophagitis appear to have different genetic profiles. In a recent pediatric study, Blanchard et al8 found that genes up-regulated in eosinophilic esophagitis were markedly different than those in chronic esophagitis. This suggests that while the two diseases share a constellation of symptoms, they have a different pathogenesis. Nevertheless, because of this possible overlap, the diagnosis of eosinophilic esophagitis should be made after acid reflux has been either treated or excluded with pH testing (see below).

 

 

THE ROLE OF ENVIRONMENTAL ALLERGENS AND GENETICS

Studies in children suggest that food allergies are a major contributor to eosinophilic esophagitis. In children, a strict amino-acid elemental diet has led to complete resolution of symptoms and a marked decrease in esophageal eosinophils. However, symptoms tend to recur once patients resume a regular diet.12

It is unclear if dietary modification is effective in adults. In six adults with eosinophilic esophagitis and a history of wheat and rye allergies, symptoms did not improve when these foods were eliminated and did not worsen when they were reintroduced.13

Of interest, there may be a seasonal variation of eosinophilic esophagitis, as suggested by a case report of a 21-year-old woman who had eosinophilic esophagitis that worsened symptomatically and histologically during the pollen season but resolved during winter. This is another example of the role aeroallergens may play in this disease.14

Evidence of a genetic predisposition to this disease is also growing, with a number of case reports describing multiple affected family members spanning generations.15

NEW CONSENSUS ON DIAGNOSTIC CRITERIA

The diagnosis of eosinophilic esophagitis is made histologically, with “marked” eosinophilia on esophageal biopsies, ie, usually 15 or more eosinophils per high-power field. In contrast, a normal esophagus contains almost no eosinophils,16 and esophageal biopsies of patients with GERD usually have fewer than 10 eosinophils per high-power field, with eosinophils limited to the distal esophagus.17

However, a recent systematic review of the literature found 10 different histologic definitions of eosinophilic esophagitis, ranging from more than 5 to more than 30 eosinophils, and more than one-third of the articles included in the review did not contain any specific diagnostic criteria. Similarly, a lack of consensus on the size of a high-power field (ranging from 0.12 to 0.44 mm2) resulted in a 23-fold variability in the description of eosinophil density. Moreover, the biopsy protocols were reported in only 39% of the articles.18

In view of the growing interest in this disease, its increasing recognition, the diagnostic ambiguity described above, and concern about the role of acid reflux, consensus recommendations for its diagnosis and treatment in adults and children have recently been published.19 The current consensus definition for eosinophilic esophagitis is:

  • Clinical symptoms of esophageal dysfunction (eg, dysphagia, food impaction);
  • At least 15 eosinophils per high-power field; and
  • Either no response to a high-dose proton pump inhibitor or normal results on pH monitoring of the distal esophagus.

Figure 2. Top, esophageal biopsy with changes of gastroesophageal reflux disease. Characteristic findings include squamous hyperplasia wherein the basal cell layer accounts for greater than 15% of the mucosal thickness; the subepithelial papillae reach greater than two-thirds of the mucosal thickness; and a variety of inflammatory cells may be present including eosinophils, lymphocytes, and neutrophils. (Hematoxylin and eosin, × 100). Bottom, esophageal biopsy from a patient with eosinophilic esophagitis showing numerous intraepithelial eosinophils (> 15 per high-power field) and superficial eosinophilic microabscesses (arrows). Squamous hyperplasia is seen as well, withelongation of the subepithelial papillae and an expanded basal cell layer. (Hematoxylin and eosin, × 400).
Other features such as basal zone hyperplasia, edema, and papillary elongation are seen to a greater extent in patients with eosinophilic esophagitis than in patients with GERD (Figure 2).20

CLINICAL PRESENTATION

Eosinophilic esophagitis predominantly affects men between the ages of 20 and 40, but cases in women and in younger and older patients have also been reported. Recent systematic reviews found a male-to-female ratio of approximately 3:1.

More than 90% of adults with eosinophilic esophagitis present with intermittent difficulty swallowing solids, while food impaction occurs in more than 60%. Heartburn is the only manifestation in 24% of patients. Noncardiac chest pain, vomiting, and abdominal pain have also been seen, but less frequently.

Up to 80% of patients with eosinophilic esophagitis have a history of atopic disease such as asthma, allergic rhinitis, or allergies to food or medicine. One-third to one-half of patients have peripheral eosinophilia, and up to 55% have increased serum levels of immunoglobulin E (IgE).21

In children, presenting symptoms vary with age and include feeding disorders, vomiting, abdominal pain, and dysphagia. Moreover, children with eosinophilic esophagitis have a higher frequency of atopic symptoms and peripheral eosinophilia than do adults.5,22

Courtesy of Edgar Achkar, MD
Figure 3. Endoscopic appearance of the middle esophagus of a 36-year-old man with eosinophilic esophagitis. Note the multiple concentric rings resembling the trachea. Linear furrows (white arrows) are also a common finding. The small white papule (black arrows) proved on histologic study to be an eosinophilic microabscess.
Although no single endoscopic feature of eosinophilic esophagitis is pathognomonic, the esophagus shows mucosal fragility in 59% of cases, a corrugated or ringed appearance in 49%, strictures in 40%, whitish papules in 16%, and a narrow caliber in 5% (Figure 3).21 Many of these features, including longitudinal furrows, are subtle and can be missed. Between 9% and 32% of patients with symptoms suggesting eosinophilic esophagitis have normal endoscopic findings.

Although motor abnormalities are common in patients with eosinophilic esophagitis (up to 40% of patients have esophageal manometric abnormalities, including uncoordinated contractions and ineffective peristalsis),21 esophageal manometry is of limited diagnostic value and so is not recommended as a routine test.19

Courtesy of Edgar Achkar, MD
Figure 4. Barium esophagram of a 23-year-old man with eosinophilic esophagitis. The arrows in the middle esophagus show focal narrowing and subtle concentric rings, referred to as trachealization.
Radiographically, eosinophilic esophagitis can appear as a series of concentric rings on barium study—hence the term “ringed esophagus” (Figure 4). In a study of 14 patients with eosinophilic esophagitis, 10 (70%) had strictures of various length with rings within the strictures.23

These findings support the theory that inflammation can lead to submucosal fibrosis, remodeling, narrowing, and eventually symptoms. Furthermore, two recent studies found that children with eosinophilic esophagitis had increased subepithelial collagen deposition in their biopsy specimens,24 suggesting increased potential for fibrosis. Also increased are transforming growth factor beta (a profibrotic cytokine) and vascular cell adhesion molecule 1, which is implicated in angiogenesis.25

Although many patients with eosinophilic esophagitis have abnormal findings on barium radiography, the test is most useful before esophagogastroduodenoscopy to determine whether a stricture is present and potentially to guide endoscopic dilation.19

 

 

NATURAL HISTORY: CHRONIC, RELAPSING, AND MOST LIKELY BENIGN

Our understanding of the natural history of eosinophilic esophagitis is limited, but the available evidence suggests that its prognosis is favorable.

Thirty adults followed for up to 11.5 years remained in good health, maintained their weight, and had no evidence of nutritional deficiencies.26 However, all but 1 patient continued to have dysphagia, with the overall intensity of dysphagia increasing in 7 (23%), remaining stable and persistent in 11 (37%), and decreasing in the remainder. In over half of these patients, the disease impaired quality of life. The only treatment offered was endoscopic dilation, which 11 patients required. Patients with peripheral blood eosinophilia and those with more pronounced findings on endoscopy were more likely to have symptoms at follow-up.

Although dysphagia persisted, the number of eosinophils in esophageal biopsy specimens decreased significantly over time, suggesting that the intense eosinophilic infiltration seen earlier in the disease may evolve into fibrosis and remodeling, similar to that seen in asthma and other chronic atopic diseases. Unlike in Barrett esophagus, a premalignant complication of longstanding GERD, there appeared to be no increased risk of esophageal cancer in these patients with eosinophilic esophagitis during the follow-up period.26

TREATMENT

Dietary therapy

Strict elemental amino-acid diets have resulted in complete symptomatic and histologic resolution of eosinophilic esophagitis in children. However, these elemental diets often have to be given by nasogastric tube because they are unpalatable, and the disease tends to return once the diet is discontinued.27

Elimination diets, based either on avoiding the six foods most commonly associated with allergy (egg, wheat, soy, cow’s milk protein, seafood, peanuts) or on allergy testing such as skin prick testing or atopy patch testing, have shown promise in children.12,28 However, similar large-scale studies of elimination diets in adults have not been conducted.

Allergy evaluation

The recent consensus recommendations devoted considerable attention to the role of allergy evaluation.19 Between 50% and 80% of patients with eosinophilic esophagitis have a coexisting atopic disease such as atopic dermatitis, eczema, allergic rhinitis, or asthma, with a higher prevalence in children than in adults. In these patients, evidence suggests that allergy testing may predict response to therapy. Therefore, the current recommendation is for all patients with eosinophilic esophagitis to undergo a complete evaluation by an experienced allergist.

Checking the peripheral blood eosinophil count before and after treatment is reasonable, as many patients have elevated eosinophil counts that decrease after treatment.

Similarly, many patients with eosinophilic esophagitis have elevated serum total IgE levels, which suggests a concomitant atopic disease. Therefore, total IgE levels should also be checked before and after treatment. Checking for IgE against specific aeroallergens is recommended, but checking for IgE against specific food antigens has not proven beneficial at this time. Similarly, skin prick testing for aeroallergens may be useful, but not for food allergens.

Data on atopy patch testing in eosinophilic esophagitis are currently limited but promising.19

Medical therapy

Swallowed fluticasone (Flonase, using an inhaler) is the mainstay of therapy for both children and adults.

In one case series, 21 adult patients with eosinophilic esophagitis received a 6-week course of swallowed fluticasone 220 μg/puff, two to four puffs twice daily. Symptoms completely resolved in all patients for at least 4 months, and no patient needed endoscopic dilation.29

In another study, 19 patients treated with fluticasone for 4 weeks showed dramatic improvement both symptomatically and histologically. However, after 3 months, 14 (74%) of the 19 patients had a recurrence of symptoms, pointing to the chronic relapsing nature of this disease.30

The only randomized placebo-controlled trial of fluticasone to date has been in children. Konikoff et al31 found that a 3-month course of fluticasone induced remission, defined as less than one eosinophil per high-power field, in 50% of patients, compared with 9% in the placebo group.

Swallowed fluticasone is generally well tolerated, although cases of esophageal candidiasis have been reported.30

Acid suppression still has an unclear role in the treatment of eosinophilic esophagitis. As mentioned above, the disease is defined as the presence or persistence of esophageal eosinophilia after acid reflux has been maximally treated or ruled out. Most patients referred for further evaluation of eosinophilic esophagitis have tried twice-daily proton pump inhibitor therapy without success. The impact of concomitant therapy with a proton pump inhibitor has not yet been determined, but the recent guidelines suggest that these drugs are reasonable as co-therapy in patients who also have GERD symptoms.19

In patients whose symptoms do not improve with fluticasone, several other medications have been used:

Systemic corticosteroids have been used with success in both adults and children with hypereosinophilic syndromes, as well as in patients with refractory eosinophilic esophagitis, but adverse effects limit their routine and long-term use.

Cromolyn sodium (NasalCrom, Intal), a mast cell stabilizer, and montelukast (Singulair), a leukotriene inhibitor, have been used with limited success.32

Mepolizumab (Bosatria), a humanized monoclonal antibody to human interleukin 5, decreased the number of eosinophils in the esophagus and peripheral blood and improved clinical symptoms in patients with refractory eosinophilic esophagitis in a recent open-label trial.33 Further studies with mepolizumab and other biologic agents are expected.

Endoscopic dilation

Endoscopic dilation with either a guidewire or a balloon technique is often used to treat strictures and a diffusely narrowed esophagus in patients with eosinophilic esophagitis.

As mentioned above, a common endoscopic feature is mucosal fragility, which has been described as resembling crepe paper. Shearing and longitudinal splitting of this fragile mucosa may occur after dilation therapy.

Although esophageal dilation may be done safely in patients with eosinophilic esophagitis, the risk of perforation appears to be greater than in those with other indications for dilation.

Nevertheless, immediate symptomatic improvement has been reported in 83% of patients after dilation, with symptoms recurring in 20% within 3 to 8 months.34 Current recommendations suggest that dilation should be done cautiously in patients who have documented esophageal narrowing for which drug therapy has failed.

 

 

RECOMMENDED APPROACH

The approach to diagnosing and treating eosinophilic esophagitis begins with being aware of its prevalence. One should suspect it more in younger patients presenting with intermittent dysphagia, food impaction, or heartburn that does not respond to maximal doses of a proton pump inhibitor. Special attention should be paid to a personal or family history of allergic diseases or similar symptoms.

According to the consensus recommendations, barium esophagography is useful if the presentation suggests long-standing disease and associated esophageal stricture.

Upper endoscopy is performed, with biopsies obtained in the proximal, middle, and distal esophagus regardless of the appearance of the esophageal mucosa. Biopsies of the stomach and duodenum are also recommended to rule out eosinophilic gastroenteritis.19

After biopsy confirms the diagnosis, a trial of a proton pump inhibitor in maximum doses (usually twice daily) for 8 weeks is recommended if not already tried. If there is evidence of eosinophilic esophagitis on repeat endoscopy and biopsy studies after proton pump inhibitor therapy, the next step is swallowed fluticasone (220 μg, up to four puffs twice daily) for 6 to 8 weeks, with follow-up visits to confirm resolution of symptoms. Without a spacer, the fluticasone is swallowed after maximal expiration. Patients are instructed to avoid food and liquids for at least 30 minutes after use.

Optimal strategies for monitoring in adults have yet to be established, and following symptoms alone may or may not be sufficient.19 Our approach is to follow for symptomatic improvement after treatment is completed, and to consider repeat endoscopy with biopsy if the patient’s symptoms do not improve or if the patient has a recurrence after treatment.

In patients with evidence of long-standing esophageal narrowing or poor response to drug therapy, esophageal dilation can be performed after careful consideration.

Although data are limited as to the role of specific allergens in adult eosinophilic esophagitis, patients with eosinophilic esophagitis are referred to an allergist for allergy testing. Offending food or aeroallergens are removed for a period of time and patients are followed for changes in symptoms.

For patients who do not respond to swallowed fluticasone, proton pump inhibitors, or both, other medications such as systemic steroids, montelukast, or cromolyn can be considered. In the near future, anti-interleukin 5 therapy may be another option.

Patients are asked to return periodically for evaluation after treatment. Due to the chronic and relapsing nature of eosinophilic esophagitis, various therapies (especially fluticasone) are often restarted or continued because of symptom recurrence.

References
  1. Dobbins JW, Sheahan DG, Behar J. Eosinophilic gastroenteritis with esophageal involvement. Gastroenterology 1977; 72:13121316.
  2. Matzinger MA, Daneman A. Esophageal involvement in eosinophilic gastroenteritis. Pediatr Radiol 1983; 13:3538.
  3. Attwood SE, Smyrk TC, Demeester TR, Jones JB. Esophageal eosinophilia with dysphagia. Dig Dis Sci 1993; 38:109116.
  4. Noel RJ, Putnam PE, Rothenberg ME. Eosinophilic esophagitis. N Engl J Med 2004; 351:940941.
  5. Straumann A, Simon HU. Eosinophilic esophagitis: escalating epidemiology? J Allergy Clin Immunol 2005; 115:418419.
  6. Rothenberg ME. Eosinophilic gastrointestinal disorders (EGID). J Allergy Clin Immunol 2004; 113:1128.
  7. Mishra A, Rothenberg ME. Intratracheal IL-13 induces eosinophilic esophagitis by an IL-5, eotaxin-1, and STAT6-dependent mechanism. Gastroenterology 2003; 125:14191427.
  8. Blanchard C, Wang N, Stringer KF, et al. Eotaxin-3 and a uniquely conserved gene-expression profile in eosinophilic esophagitis. J Clin Invest 2006; 116:536547.
  9. Ngo P, Furuta G, Antonioli D, Fox V. Eosinophils in the esophagus—peptic or allergic eosinophilic esophagitis? Case series of three patients with esophageal eosinophilia. Am J Gastroenterol 2006; 101:16661670.
  10. Morrow JB, Vargo JJ, Goldblum JR, Richter JE. The ringed esophagus—histologic features of GERD. Am J Gastroenterol 2001; 96:984989.
  11. Spechler SJ, Genta RM, Souza RF. Thoughts on the complex relationship between gastroesophageal reflux disease and eosinophilic esophagitis. Am J Gastroenterol 2007; 102:13011306.
  12. Markowitz JE, Spergel JM, Ruchelli E, Liacouras CA. Elemental diet is an effective treatment for eosinophilic esophagitis in children and adolescents. Am J Gastroenterol 2003; 98:777782.
  13. Simon D, Straumann A, Wenk A, et al. Eosinophilic esophagitis in adults: no clinical relevance of wheat and rye sensitizations. Allergy 2006; 61:14801483.
  14. Fogg MI, Ruchelli E, Spergel JM. Pollen and eosinophilic esophagitis. J Allergy Clin Immunol 2003; 112:796797.
  15. Zink DA, Amin M, Gebara S, Desai TK. Familial dysphagia and eosinophilia. Gastrointest Endoscop 2007; 65:330334.
  16. Dellon ES, Aderoju A, Woosely JT, et al. Variability in diagnostic criteria for eosinophilic esophagitis: a systematic review. Am J Gastroenterol 2007; 102:23002313.
  17. Furuta GT, Liacouras CA, Collins MH, et al. Eosinophilic esophagitis in children and adults: a systematic review and consensus recommendations for diagnosis and treatment. Gastroenterology 2007; 133:13421363.
  18. Parfitt JR, Gregor JC, Suskin NG, Jawa HA. Eosinophilic esophagitis in adults: distinguishing features from gastroesophageal reflux disease: a study of 41 patients. Mod Pathol 2006; 19:9096.
  19. Kato M, Kephart GM, Talley NJ, et al. Eosinophil infiltration and degranulation in normal human tissue. Anat Rec 1998; 242:418425.
  20. Steiner SJ, Gupta SK, Croffie JM, Fitzgerald JF. Correlation between number of eosinophils and reflux index on same day esophageal biopsy and 24 hour esophageal pH monitoring. Am J Gastroenterol 2004; 99:801805.
  21. Sgouros SN, Bergele C, Mantides A. Eosinophilic esophagitis in adults: a systematic review. Eur J Gastroenterol Hepatol 2006; 18:211217.
  22. Liacouras CA, Spergel JM, Ruchelli E, Verma R. Eosinophilic esophagitis: a 10-year experience in 381 children. Clin Gastroenterol Hepatol 2005; 3:11981206.
  23. Zimmerman SL, Levine MS, Rubesin SE, et al. Idiopathic eosino-philic esophagitis in adults: the ringed esophagus. Radiology 2005; 236:159165.
  24. Chehade M, Sampson HA, Morotti RA, Magrid MS. Esophageal sub-epithelial fibrosis in children with eosinophilic esophagitis. J Pediatr Gastroenterol Nutr 2007; 45:319328.
  25. Aceves SS, Newbury RO, Dohil R, et al. Esophageal remodeling in pediatric eosinophilic esophagitis. J Allergy Clin Immunol 2007; 119:206212.
  26. Straumann A, Spichtin HP, Grize L, et al. Natural history of primary eosinophilic esophagitis: a follow-up of 30 adult patients for up to 11.5 years. Gastroenterology 2003; 125:16601669.
  27. Kelly KJ, Lazenby AJ, Rowe PC, et al. Eosinophilic esophagitis attributed to gastroesophageal reflux: improvement with an amino acid-based formula. Gastroenterology 1995; 109:15031512.
  28. Kagalwalla AF, Sentongo TA, Ritz S, et al. Effect of six-food elimination diet on clinical and histologic outcomes in eosinophilic esophagitis. Clin Gastroenterol Hepatol 2006; 4:10971102.
  29. Arora AS, Perrault J, Smyrk TC. Topical corticosteroid treatment of dysphagia due to eosinophilic esophagitis in adults. Mayo Clin Proc 2003; 78:830835.
  30. Remedios M, Campbell C, Jones DM, Kerlin P. Eosinophilic esophagitis in adults: clinical, endoscopic, histologic findings, and response to treatment with fluticasone propionate. Gastrointest Endoscop 2006; 63:312.
  31. Konikoff MR, Noel RJ, Blanchard C, et al. A randomized, double-blind, placebo-controlled trial of fluticasone propionate for pediatric eosinophilic esophagitis. Gastroenterology 2006; 131:13811391.
  32. Attwood SE, Lewis CJ, Bronder CS, et al. Eosinophilic oesophagitis: a novel treatment using montelukast. Gut 2003; 52:181185.
  33. Stein ML, Collins MH, Villanueva JM, et al. Anti-IL-5 (mepolizumab) therapy for eosinophilic esophagitis. J Allergy Clin Immunol 2006; 118:13121319.
  34. Sgouros SN, Bergele C, Mantides A. Eosinophilic esophagitis in adults: what is the clinical significance? Endoscopy 2006; 38:512520.
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Ilche T. Nonevski, MD, MBA
Department of Gastroenterology and Hepatology, Center for Swallowing and Esophageal Disorders, Cleveland Clinic

Erinn Downs-Kelly, DO
Department of Anatomic Pathology, Cleveland Clinic

Gary W. Falk, MD, MS
Department of Gastroenterology and Hepatology, Center for Swallowing and Esophageal Disorders, Cleveland Clinic; Professor of Medicine, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University

Address: Gary W. Falk, MD, MS, Department of Gastroenterology and Hepatology, A31, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH 44195; e-mail [email protected]

Dr. Falk has disclosed that he has received consulting fees from the AstraZeneca, Ception Therapeutics, Nycomed, and TAP corporations.

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Ilche T. Nonevski, MD, MBA
Department of Gastroenterology and Hepatology, Center for Swallowing and Esophageal Disorders, Cleveland Clinic

Erinn Downs-Kelly, DO
Department of Anatomic Pathology, Cleveland Clinic

Gary W. Falk, MD, MS
Department of Gastroenterology and Hepatology, Center for Swallowing and Esophageal Disorders, Cleveland Clinic; Professor of Medicine, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University

Address: Gary W. Falk, MD, MS, Department of Gastroenterology and Hepatology, A31, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH 44195; e-mail [email protected]

Dr. Falk has disclosed that he has received consulting fees from the AstraZeneca, Ception Therapeutics, Nycomed, and TAP corporations.

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Ilche T. Nonevski, MD, MBA
Department of Gastroenterology and Hepatology, Center for Swallowing and Esophageal Disorders, Cleveland Clinic

Erinn Downs-Kelly, DO
Department of Anatomic Pathology, Cleveland Clinic

Gary W. Falk, MD, MS
Department of Gastroenterology and Hepatology, Center for Swallowing and Esophageal Disorders, Cleveland Clinic; Professor of Medicine, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University

Address: Gary W. Falk, MD, MS, Department of Gastroenterology and Hepatology, A31, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH 44195; e-mail [email protected]

Dr. Falk has disclosed that he has received consulting fees from the AstraZeneca, Ception Therapeutics, Nycomed, and TAP corporations.

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Figure 1.
Until recently, the cause of intermittent or progressive difficulty swallowing solids was thought to be a mechanical problem such as a stricture, ring, or cancer, whereas motility disorders such as achalasia or diffuse esophageal spasm were implicated in difficulty swallowing both solids and liquids. But now we are becoming aware of a relatively new disease, eosinophilic esophagitis, as a cause of dysphagia in both adults and children (Figure 1).

Abundant eosinophils in the esophagus were first described in 1977 in a 51-year-old man with dysphagia, chest pain, and a personal history of severe asthma and marked peripheral eosinophilia.1 In 1983, a similar case was reported in an adolescent with dysphagia.2 In both patients, large numbers of eosinophils were also noted in the duodenum, suggesting that these findings were part of a systemic hypereosinophilic syndrome.

Increased numbers of eosinophils in the gastrointestinal tract have been described in a number of diseases, including Crohn disease, connective tissue disorders, malignancy, various infections, and drug hypersensitivity reactions. However, not until 1993 was eosinophilic esophagitis described as a distinct clinical entity, consisting of isolated esophageal eosinophilia (typically more than 15 eosinophils per high-power field) in patients with dysphagia.3

Now, epidemiologic studies suggest that eosinophilic esophagitis may be as common as inflammatory bowel disease. In a study of children in Cincinnati, OH,4 the incidence was estimated at 10 per 100,000 children per year and the prevalence was estimated at 43 per 100,000. Of interest, 97% of cases were diagnosed after the year 2000.

RISING INCIDENCE, OR INCREASED RECOGNITION?

Over the last several years, the number of reported cases has increased substantially as interest in this disease has grown. The increase has been attributed in part to heightened awareness of this condition among clinicians and, hence, more esophageal biopsies being performed. Similarly, pathologists may have previously attributed esophageal eosinophilia to gastroesophageal reflux disease (GERD). However, the prevalence of eosinophilic esophagitis increased 10-fold between 1989 and 2003 in a fixed and stable adult population in Olten, Switzerland, suggesting that more than just increased awareness is responsible for this dramatic rise.5

PATHOGENESIS: SIMILAR TO OTHER ALLERGIC DISEASES?

The growing incidence of eosinophilic esophagitis parallels that of asthma, eczema, allergic rhinitis, and other atopic diseases, raising the possibility that these disorders share common environmental exposures and similar inflammatory pathways.6 The pathologic mechanisms of eosinophilic esophagitis are unknown, but emerging evidence suggests that, like other allergic diseases, it is an immune response mediated by type 2 T helper cells.

Several animal studies support this hypothesis. Mice sensitized and then exposed to aeroallergens developed both allergic airway inflammation and eosinophilic esophagitis. Interleukin 5, a cytokine involved in asthma, also helps recruit eosinophils into the esophagus, as transgenic mice deficient in interleukin 5 do not develop esophageal eosinophilia upon allergen exposure.7

Recently, eotaxin-3, a potent attractant for eosinophils, was shown to be markedly overexpressed in children with eosinophilic esophagitis compared with controls.8

Acid reflux does not appear to be a causative factor in most patients. However, reflux may play a secondary role, as some patients have experienced symptomatic, endoscopic, and histologic resolution of eosinophilic esophagitis after treatment with a proton pump inhibitor.9

GERD AND EOSINOPHILIC ESOPHAGITIS: WHAT IS THE RELATIONSHIP?

Given the high prevalence of GERD in the general population, much time and effort have been spent on comparing eosinophilic esophagitis with GERD. In fact, some endoscopic features typically seen in eosinophilic esophagitis were previously attributed to acid reflux.10

Both diseases share varying degrees of esophageal eosinophilia, and some have speculated on the relationship of eosinophilic esophagitis and GERD. Spechler et al11 recently suggested that the mucosal injury caused by acid reflux may allow swallowed allergens to penetrate an esophageal layer that is otherwise impermeable to most proteins, thereby causing mild eosinophilia. Conversely, the intense degranulation of activated eosinophils seen in eosinophilic esophagitis can trigger changes in the lower esophageal sphincter that could predispose to acid reflux.

Although their clinical and pathologic features may overlap, GERD and eosinophilic esophagitis appear to have different genetic profiles. In a recent pediatric study, Blanchard et al8 found that genes up-regulated in eosinophilic esophagitis were markedly different than those in chronic esophagitis. This suggests that while the two diseases share a constellation of symptoms, they have a different pathogenesis. Nevertheless, because of this possible overlap, the diagnosis of eosinophilic esophagitis should be made after acid reflux has been either treated or excluded with pH testing (see below).

 

 

THE ROLE OF ENVIRONMENTAL ALLERGENS AND GENETICS

Studies in children suggest that food allergies are a major contributor to eosinophilic esophagitis. In children, a strict amino-acid elemental diet has led to complete resolution of symptoms and a marked decrease in esophageal eosinophils. However, symptoms tend to recur once patients resume a regular diet.12

It is unclear if dietary modification is effective in adults. In six adults with eosinophilic esophagitis and a history of wheat and rye allergies, symptoms did not improve when these foods were eliminated and did not worsen when they were reintroduced.13

Of interest, there may be a seasonal variation of eosinophilic esophagitis, as suggested by a case report of a 21-year-old woman who had eosinophilic esophagitis that worsened symptomatically and histologically during the pollen season but resolved during winter. This is another example of the role aeroallergens may play in this disease.14

Evidence of a genetic predisposition to this disease is also growing, with a number of case reports describing multiple affected family members spanning generations.15

NEW CONSENSUS ON DIAGNOSTIC CRITERIA

The diagnosis of eosinophilic esophagitis is made histologically, with “marked” eosinophilia on esophageal biopsies, ie, usually 15 or more eosinophils per high-power field. In contrast, a normal esophagus contains almost no eosinophils,16 and esophageal biopsies of patients with GERD usually have fewer than 10 eosinophils per high-power field, with eosinophils limited to the distal esophagus.17

However, a recent systematic review of the literature found 10 different histologic definitions of eosinophilic esophagitis, ranging from more than 5 to more than 30 eosinophils, and more than one-third of the articles included in the review did not contain any specific diagnostic criteria. Similarly, a lack of consensus on the size of a high-power field (ranging from 0.12 to 0.44 mm2) resulted in a 23-fold variability in the description of eosinophil density. Moreover, the biopsy protocols were reported in only 39% of the articles.18

In view of the growing interest in this disease, its increasing recognition, the diagnostic ambiguity described above, and concern about the role of acid reflux, consensus recommendations for its diagnosis and treatment in adults and children have recently been published.19 The current consensus definition for eosinophilic esophagitis is:

  • Clinical symptoms of esophageal dysfunction (eg, dysphagia, food impaction);
  • At least 15 eosinophils per high-power field; and
  • Either no response to a high-dose proton pump inhibitor or normal results on pH monitoring of the distal esophagus.

Figure 2. Top, esophageal biopsy with changes of gastroesophageal reflux disease. Characteristic findings include squamous hyperplasia wherein the basal cell layer accounts for greater than 15% of the mucosal thickness; the subepithelial papillae reach greater than two-thirds of the mucosal thickness; and a variety of inflammatory cells may be present including eosinophils, lymphocytes, and neutrophils. (Hematoxylin and eosin, × 100). Bottom, esophageal biopsy from a patient with eosinophilic esophagitis showing numerous intraepithelial eosinophils (> 15 per high-power field) and superficial eosinophilic microabscesses (arrows). Squamous hyperplasia is seen as well, withelongation of the subepithelial papillae and an expanded basal cell layer. (Hematoxylin and eosin, × 400).
Other features such as basal zone hyperplasia, edema, and papillary elongation are seen to a greater extent in patients with eosinophilic esophagitis than in patients with GERD (Figure 2).20

CLINICAL PRESENTATION

Eosinophilic esophagitis predominantly affects men between the ages of 20 and 40, but cases in women and in younger and older patients have also been reported. Recent systematic reviews found a male-to-female ratio of approximately 3:1.

More than 90% of adults with eosinophilic esophagitis present with intermittent difficulty swallowing solids, while food impaction occurs in more than 60%. Heartburn is the only manifestation in 24% of patients. Noncardiac chest pain, vomiting, and abdominal pain have also been seen, but less frequently.

Up to 80% of patients with eosinophilic esophagitis have a history of atopic disease such as asthma, allergic rhinitis, or allergies to food or medicine. One-third to one-half of patients have peripheral eosinophilia, and up to 55% have increased serum levels of immunoglobulin E (IgE).21

In children, presenting symptoms vary with age and include feeding disorders, vomiting, abdominal pain, and dysphagia. Moreover, children with eosinophilic esophagitis have a higher frequency of atopic symptoms and peripheral eosinophilia than do adults.5,22

Courtesy of Edgar Achkar, MD
Figure 3. Endoscopic appearance of the middle esophagus of a 36-year-old man with eosinophilic esophagitis. Note the multiple concentric rings resembling the trachea. Linear furrows (white arrows) are also a common finding. The small white papule (black arrows) proved on histologic study to be an eosinophilic microabscess.
Although no single endoscopic feature of eosinophilic esophagitis is pathognomonic, the esophagus shows mucosal fragility in 59% of cases, a corrugated or ringed appearance in 49%, strictures in 40%, whitish papules in 16%, and a narrow caliber in 5% (Figure 3).21 Many of these features, including longitudinal furrows, are subtle and can be missed. Between 9% and 32% of patients with symptoms suggesting eosinophilic esophagitis have normal endoscopic findings.

Although motor abnormalities are common in patients with eosinophilic esophagitis (up to 40% of patients have esophageal manometric abnormalities, including uncoordinated contractions and ineffective peristalsis),21 esophageal manometry is of limited diagnostic value and so is not recommended as a routine test.19

Courtesy of Edgar Achkar, MD
Figure 4. Barium esophagram of a 23-year-old man with eosinophilic esophagitis. The arrows in the middle esophagus show focal narrowing and subtle concentric rings, referred to as trachealization.
Radiographically, eosinophilic esophagitis can appear as a series of concentric rings on barium study—hence the term “ringed esophagus” (Figure 4). In a study of 14 patients with eosinophilic esophagitis, 10 (70%) had strictures of various length with rings within the strictures.23

These findings support the theory that inflammation can lead to submucosal fibrosis, remodeling, narrowing, and eventually symptoms. Furthermore, two recent studies found that children with eosinophilic esophagitis had increased subepithelial collagen deposition in their biopsy specimens,24 suggesting increased potential for fibrosis. Also increased are transforming growth factor beta (a profibrotic cytokine) and vascular cell adhesion molecule 1, which is implicated in angiogenesis.25

Although many patients with eosinophilic esophagitis have abnormal findings on barium radiography, the test is most useful before esophagogastroduodenoscopy to determine whether a stricture is present and potentially to guide endoscopic dilation.19

 

 

NATURAL HISTORY: CHRONIC, RELAPSING, AND MOST LIKELY BENIGN

Our understanding of the natural history of eosinophilic esophagitis is limited, but the available evidence suggests that its prognosis is favorable.

Thirty adults followed for up to 11.5 years remained in good health, maintained their weight, and had no evidence of nutritional deficiencies.26 However, all but 1 patient continued to have dysphagia, with the overall intensity of dysphagia increasing in 7 (23%), remaining stable and persistent in 11 (37%), and decreasing in the remainder. In over half of these patients, the disease impaired quality of life. The only treatment offered was endoscopic dilation, which 11 patients required. Patients with peripheral blood eosinophilia and those with more pronounced findings on endoscopy were more likely to have symptoms at follow-up.

Although dysphagia persisted, the number of eosinophils in esophageal biopsy specimens decreased significantly over time, suggesting that the intense eosinophilic infiltration seen earlier in the disease may evolve into fibrosis and remodeling, similar to that seen in asthma and other chronic atopic diseases. Unlike in Barrett esophagus, a premalignant complication of longstanding GERD, there appeared to be no increased risk of esophageal cancer in these patients with eosinophilic esophagitis during the follow-up period.26

TREATMENT

Dietary therapy

Strict elemental amino-acid diets have resulted in complete symptomatic and histologic resolution of eosinophilic esophagitis in children. However, these elemental diets often have to be given by nasogastric tube because they are unpalatable, and the disease tends to return once the diet is discontinued.27

Elimination diets, based either on avoiding the six foods most commonly associated with allergy (egg, wheat, soy, cow’s milk protein, seafood, peanuts) or on allergy testing such as skin prick testing or atopy patch testing, have shown promise in children.12,28 However, similar large-scale studies of elimination diets in adults have not been conducted.

Allergy evaluation

The recent consensus recommendations devoted considerable attention to the role of allergy evaluation.19 Between 50% and 80% of patients with eosinophilic esophagitis have a coexisting atopic disease such as atopic dermatitis, eczema, allergic rhinitis, or asthma, with a higher prevalence in children than in adults. In these patients, evidence suggests that allergy testing may predict response to therapy. Therefore, the current recommendation is for all patients with eosinophilic esophagitis to undergo a complete evaluation by an experienced allergist.

Checking the peripheral blood eosinophil count before and after treatment is reasonable, as many patients have elevated eosinophil counts that decrease after treatment.

Similarly, many patients with eosinophilic esophagitis have elevated serum total IgE levels, which suggests a concomitant atopic disease. Therefore, total IgE levels should also be checked before and after treatment. Checking for IgE against specific aeroallergens is recommended, but checking for IgE against specific food antigens has not proven beneficial at this time. Similarly, skin prick testing for aeroallergens may be useful, but not for food allergens.

Data on atopy patch testing in eosinophilic esophagitis are currently limited but promising.19

Medical therapy

Swallowed fluticasone (Flonase, using an inhaler) is the mainstay of therapy for both children and adults.

In one case series, 21 adult patients with eosinophilic esophagitis received a 6-week course of swallowed fluticasone 220 μg/puff, two to four puffs twice daily. Symptoms completely resolved in all patients for at least 4 months, and no patient needed endoscopic dilation.29

In another study, 19 patients treated with fluticasone for 4 weeks showed dramatic improvement both symptomatically and histologically. However, after 3 months, 14 (74%) of the 19 patients had a recurrence of symptoms, pointing to the chronic relapsing nature of this disease.30

The only randomized placebo-controlled trial of fluticasone to date has been in children. Konikoff et al31 found that a 3-month course of fluticasone induced remission, defined as less than one eosinophil per high-power field, in 50% of patients, compared with 9% in the placebo group.

Swallowed fluticasone is generally well tolerated, although cases of esophageal candidiasis have been reported.30

Acid suppression still has an unclear role in the treatment of eosinophilic esophagitis. As mentioned above, the disease is defined as the presence or persistence of esophageal eosinophilia after acid reflux has been maximally treated or ruled out. Most patients referred for further evaluation of eosinophilic esophagitis have tried twice-daily proton pump inhibitor therapy without success. The impact of concomitant therapy with a proton pump inhibitor has not yet been determined, but the recent guidelines suggest that these drugs are reasonable as co-therapy in patients who also have GERD symptoms.19

In patients whose symptoms do not improve with fluticasone, several other medications have been used:

Systemic corticosteroids have been used with success in both adults and children with hypereosinophilic syndromes, as well as in patients with refractory eosinophilic esophagitis, but adverse effects limit their routine and long-term use.

Cromolyn sodium (NasalCrom, Intal), a mast cell stabilizer, and montelukast (Singulair), a leukotriene inhibitor, have been used with limited success.32

Mepolizumab (Bosatria), a humanized monoclonal antibody to human interleukin 5, decreased the number of eosinophils in the esophagus and peripheral blood and improved clinical symptoms in patients with refractory eosinophilic esophagitis in a recent open-label trial.33 Further studies with mepolizumab and other biologic agents are expected.

Endoscopic dilation

Endoscopic dilation with either a guidewire or a balloon technique is often used to treat strictures and a diffusely narrowed esophagus in patients with eosinophilic esophagitis.

As mentioned above, a common endoscopic feature is mucosal fragility, which has been described as resembling crepe paper. Shearing and longitudinal splitting of this fragile mucosa may occur after dilation therapy.

Although esophageal dilation may be done safely in patients with eosinophilic esophagitis, the risk of perforation appears to be greater than in those with other indications for dilation.

Nevertheless, immediate symptomatic improvement has been reported in 83% of patients after dilation, with symptoms recurring in 20% within 3 to 8 months.34 Current recommendations suggest that dilation should be done cautiously in patients who have documented esophageal narrowing for which drug therapy has failed.

 

 

RECOMMENDED APPROACH

The approach to diagnosing and treating eosinophilic esophagitis begins with being aware of its prevalence. One should suspect it more in younger patients presenting with intermittent dysphagia, food impaction, or heartburn that does not respond to maximal doses of a proton pump inhibitor. Special attention should be paid to a personal or family history of allergic diseases or similar symptoms.

According to the consensus recommendations, barium esophagography is useful if the presentation suggests long-standing disease and associated esophageal stricture.

Upper endoscopy is performed, with biopsies obtained in the proximal, middle, and distal esophagus regardless of the appearance of the esophageal mucosa. Biopsies of the stomach and duodenum are also recommended to rule out eosinophilic gastroenteritis.19

After biopsy confirms the diagnosis, a trial of a proton pump inhibitor in maximum doses (usually twice daily) for 8 weeks is recommended if not already tried. If there is evidence of eosinophilic esophagitis on repeat endoscopy and biopsy studies after proton pump inhibitor therapy, the next step is swallowed fluticasone (220 μg, up to four puffs twice daily) for 6 to 8 weeks, with follow-up visits to confirm resolution of symptoms. Without a spacer, the fluticasone is swallowed after maximal expiration. Patients are instructed to avoid food and liquids for at least 30 minutes after use.

Optimal strategies for monitoring in adults have yet to be established, and following symptoms alone may or may not be sufficient.19 Our approach is to follow for symptomatic improvement after treatment is completed, and to consider repeat endoscopy with biopsy if the patient’s symptoms do not improve or if the patient has a recurrence after treatment.

In patients with evidence of long-standing esophageal narrowing or poor response to drug therapy, esophageal dilation can be performed after careful consideration.

Although data are limited as to the role of specific allergens in adult eosinophilic esophagitis, patients with eosinophilic esophagitis are referred to an allergist for allergy testing. Offending food or aeroallergens are removed for a period of time and patients are followed for changes in symptoms.

For patients who do not respond to swallowed fluticasone, proton pump inhibitors, or both, other medications such as systemic steroids, montelukast, or cromolyn can be considered. In the near future, anti-interleukin 5 therapy may be another option.

Patients are asked to return periodically for evaluation after treatment. Due to the chronic and relapsing nature of eosinophilic esophagitis, various therapies (especially fluticasone) are often restarted or continued because of symptom recurrence.

Figure 1.
Until recently, the cause of intermittent or progressive difficulty swallowing solids was thought to be a mechanical problem such as a stricture, ring, or cancer, whereas motility disorders such as achalasia or diffuse esophageal spasm were implicated in difficulty swallowing both solids and liquids. But now we are becoming aware of a relatively new disease, eosinophilic esophagitis, as a cause of dysphagia in both adults and children (Figure 1).

Abundant eosinophils in the esophagus were first described in 1977 in a 51-year-old man with dysphagia, chest pain, and a personal history of severe asthma and marked peripheral eosinophilia.1 In 1983, a similar case was reported in an adolescent with dysphagia.2 In both patients, large numbers of eosinophils were also noted in the duodenum, suggesting that these findings were part of a systemic hypereosinophilic syndrome.

Increased numbers of eosinophils in the gastrointestinal tract have been described in a number of diseases, including Crohn disease, connective tissue disorders, malignancy, various infections, and drug hypersensitivity reactions. However, not until 1993 was eosinophilic esophagitis described as a distinct clinical entity, consisting of isolated esophageal eosinophilia (typically more than 15 eosinophils per high-power field) in patients with dysphagia.3

Now, epidemiologic studies suggest that eosinophilic esophagitis may be as common as inflammatory bowel disease. In a study of children in Cincinnati, OH,4 the incidence was estimated at 10 per 100,000 children per year and the prevalence was estimated at 43 per 100,000. Of interest, 97% of cases were diagnosed after the year 2000.

RISING INCIDENCE, OR INCREASED RECOGNITION?

Over the last several years, the number of reported cases has increased substantially as interest in this disease has grown. The increase has been attributed in part to heightened awareness of this condition among clinicians and, hence, more esophageal biopsies being performed. Similarly, pathologists may have previously attributed esophageal eosinophilia to gastroesophageal reflux disease (GERD). However, the prevalence of eosinophilic esophagitis increased 10-fold between 1989 and 2003 in a fixed and stable adult population in Olten, Switzerland, suggesting that more than just increased awareness is responsible for this dramatic rise.5

PATHOGENESIS: SIMILAR TO OTHER ALLERGIC DISEASES?

The growing incidence of eosinophilic esophagitis parallels that of asthma, eczema, allergic rhinitis, and other atopic diseases, raising the possibility that these disorders share common environmental exposures and similar inflammatory pathways.6 The pathologic mechanisms of eosinophilic esophagitis are unknown, but emerging evidence suggests that, like other allergic diseases, it is an immune response mediated by type 2 T helper cells.

Several animal studies support this hypothesis. Mice sensitized and then exposed to aeroallergens developed both allergic airway inflammation and eosinophilic esophagitis. Interleukin 5, a cytokine involved in asthma, also helps recruit eosinophils into the esophagus, as transgenic mice deficient in interleukin 5 do not develop esophageal eosinophilia upon allergen exposure.7

Recently, eotaxin-3, a potent attractant for eosinophils, was shown to be markedly overexpressed in children with eosinophilic esophagitis compared with controls.8

Acid reflux does not appear to be a causative factor in most patients. However, reflux may play a secondary role, as some patients have experienced symptomatic, endoscopic, and histologic resolution of eosinophilic esophagitis after treatment with a proton pump inhibitor.9

GERD AND EOSINOPHILIC ESOPHAGITIS: WHAT IS THE RELATIONSHIP?

Given the high prevalence of GERD in the general population, much time and effort have been spent on comparing eosinophilic esophagitis with GERD. In fact, some endoscopic features typically seen in eosinophilic esophagitis were previously attributed to acid reflux.10

Both diseases share varying degrees of esophageal eosinophilia, and some have speculated on the relationship of eosinophilic esophagitis and GERD. Spechler et al11 recently suggested that the mucosal injury caused by acid reflux may allow swallowed allergens to penetrate an esophageal layer that is otherwise impermeable to most proteins, thereby causing mild eosinophilia. Conversely, the intense degranulation of activated eosinophils seen in eosinophilic esophagitis can trigger changes in the lower esophageal sphincter that could predispose to acid reflux.

Although their clinical and pathologic features may overlap, GERD and eosinophilic esophagitis appear to have different genetic profiles. In a recent pediatric study, Blanchard et al8 found that genes up-regulated in eosinophilic esophagitis were markedly different than those in chronic esophagitis. This suggests that while the two diseases share a constellation of symptoms, they have a different pathogenesis. Nevertheless, because of this possible overlap, the diagnosis of eosinophilic esophagitis should be made after acid reflux has been either treated or excluded with pH testing (see below).

 

 

THE ROLE OF ENVIRONMENTAL ALLERGENS AND GENETICS

Studies in children suggest that food allergies are a major contributor to eosinophilic esophagitis. In children, a strict amino-acid elemental diet has led to complete resolution of symptoms and a marked decrease in esophageal eosinophils. However, symptoms tend to recur once patients resume a regular diet.12

It is unclear if dietary modification is effective in adults. In six adults with eosinophilic esophagitis and a history of wheat and rye allergies, symptoms did not improve when these foods were eliminated and did not worsen when they were reintroduced.13

Of interest, there may be a seasonal variation of eosinophilic esophagitis, as suggested by a case report of a 21-year-old woman who had eosinophilic esophagitis that worsened symptomatically and histologically during the pollen season but resolved during winter. This is another example of the role aeroallergens may play in this disease.14

Evidence of a genetic predisposition to this disease is also growing, with a number of case reports describing multiple affected family members spanning generations.15

NEW CONSENSUS ON DIAGNOSTIC CRITERIA

The diagnosis of eosinophilic esophagitis is made histologically, with “marked” eosinophilia on esophageal biopsies, ie, usually 15 or more eosinophils per high-power field. In contrast, a normal esophagus contains almost no eosinophils,16 and esophageal biopsies of patients with GERD usually have fewer than 10 eosinophils per high-power field, with eosinophils limited to the distal esophagus.17

However, a recent systematic review of the literature found 10 different histologic definitions of eosinophilic esophagitis, ranging from more than 5 to more than 30 eosinophils, and more than one-third of the articles included in the review did not contain any specific diagnostic criteria. Similarly, a lack of consensus on the size of a high-power field (ranging from 0.12 to 0.44 mm2) resulted in a 23-fold variability in the description of eosinophil density. Moreover, the biopsy protocols were reported in only 39% of the articles.18

In view of the growing interest in this disease, its increasing recognition, the diagnostic ambiguity described above, and concern about the role of acid reflux, consensus recommendations for its diagnosis and treatment in adults and children have recently been published.19 The current consensus definition for eosinophilic esophagitis is:

  • Clinical symptoms of esophageal dysfunction (eg, dysphagia, food impaction);
  • At least 15 eosinophils per high-power field; and
  • Either no response to a high-dose proton pump inhibitor or normal results on pH monitoring of the distal esophagus.

Figure 2. Top, esophageal biopsy with changes of gastroesophageal reflux disease. Characteristic findings include squamous hyperplasia wherein the basal cell layer accounts for greater than 15% of the mucosal thickness; the subepithelial papillae reach greater than two-thirds of the mucosal thickness; and a variety of inflammatory cells may be present including eosinophils, lymphocytes, and neutrophils. (Hematoxylin and eosin, × 100). Bottom, esophageal biopsy from a patient with eosinophilic esophagitis showing numerous intraepithelial eosinophils (> 15 per high-power field) and superficial eosinophilic microabscesses (arrows). Squamous hyperplasia is seen as well, withelongation of the subepithelial papillae and an expanded basal cell layer. (Hematoxylin and eosin, × 400).
Other features such as basal zone hyperplasia, edema, and papillary elongation are seen to a greater extent in patients with eosinophilic esophagitis than in patients with GERD (Figure 2).20

CLINICAL PRESENTATION

Eosinophilic esophagitis predominantly affects men between the ages of 20 and 40, but cases in women and in younger and older patients have also been reported. Recent systematic reviews found a male-to-female ratio of approximately 3:1.

More than 90% of adults with eosinophilic esophagitis present with intermittent difficulty swallowing solids, while food impaction occurs in more than 60%. Heartburn is the only manifestation in 24% of patients. Noncardiac chest pain, vomiting, and abdominal pain have also been seen, but less frequently.

Up to 80% of patients with eosinophilic esophagitis have a history of atopic disease such as asthma, allergic rhinitis, or allergies to food or medicine. One-third to one-half of patients have peripheral eosinophilia, and up to 55% have increased serum levels of immunoglobulin E (IgE).21

In children, presenting symptoms vary with age and include feeding disorders, vomiting, abdominal pain, and dysphagia. Moreover, children with eosinophilic esophagitis have a higher frequency of atopic symptoms and peripheral eosinophilia than do adults.5,22

Courtesy of Edgar Achkar, MD
Figure 3. Endoscopic appearance of the middle esophagus of a 36-year-old man with eosinophilic esophagitis. Note the multiple concentric rings resembling the trachea. Linear furrows (white arrows) are also a common finding. The small white papule (black arrows) proved on histologic study to be an eosinophilic microabscess.
Although no single endoscopic feature of eosinophilic esophagitis is pathognomonic, the esophagus shows mucosal fragility in 59% of cases, a corrugated or ringed appearance in 49%, strictures in 40%, whitish papules in 16%, and a narrow caliber in 5% (Figure 3).21 Many of these features, including longitudinal furrows, are subtle and can be missed. Between 9% and 32% of patients with symptoms suggesting eosinophilic esophagitis have normal endoscopic findings.

Although motor abnormalities are common in patients with eosinophilic esophagitis (up to 40% of patients have esophageal manometric abnormalities, including uncoordinated contractions and ineffective peristalsis),21 esophageal manometry is of limited diagnostic value and so is not recommended as a routine test.19

Courtesy of Edgar Achkar, MD
Figure 4. Barium esophagram of a 23-year-old man with eosinophilic esophagitis. The arrows in the middle esophagus show focal narrowing and subtle concentric rings, referred to as trachealization.
Radiographically, eosinophilic esophagitis can appear as a series of concentric rings on barium study—hence the term “ringed esophagus” (Figure 4). In a study of 14 patients with eosinophilic esophagitis, 10 (70%) had strictures of various length with rings within the strictures.23

These findings support the theory that inflammation can lead to submucosal fibrosis, remodeling, narrowing, and eventually symptoms. Furthermore, two recent studies found that children with eosinophilic esophagitis had increased subepithelial collagen deposition in their biopsy specimens,24 suggesting increased potential for fibrosis. Also increased are transforming growth factor beta (a profibrotic cytokine) and vascular cell adhesion molecule 1, which is implicated in angiogenesis.25

Although many patients with eosinophilic esophagitis have abnormal findings on barium radiography, the test is most useful before esophagogastroduodenoscopy to determine whether a stricture is present and potentially to guide endoscopic dilation.19

 

 

NATURAL HISTORY: CHRONIC, RELAPSING, AND MOST LIKELY BENIGN

Our understanding of the natural history of eosinophilic esophagitis is limited, but the available evidence suggests that its prognosis is favorable.

Thirty adults followed for up to 11.5 years remained in good health, maintained their weight, and had no evidence of nutritional deficiencies.26 However, all but 1 patient continued to have dysphagia, with the overall intensity of dysphagia increasing in 7 (23%), remaining stable and persistent in 11 (37%), and decreasing in the remainder. In over half of these patients, the disease impaired quality of life. The only treatment offered was endoscopic dilation, which 11 patients required. Patients with peripheral blood eosinophilia and those with more pronounced findings on endoscopy were more likely to have symptoms at follow-up.

Although dysphagia persisted, the number of eosinophils in esophageal biopsy specimens decreased significantly over time, suggesting that the intense eosinophilic infiltration seen earlier in the disease may evolve into fibrosis and remodeling, similar to that seen in asthma and other chronic atopic diseases. Unlike in Barrett esophagus, a premalignant complication of longstanding GERD, there appeared to be no increased risk of esophageal cancer in these patients with eosinophilic esophagitis during the follow-up period.26

TREATMENT

Dietary therapy

Strict elemental amino-acid diets have resulted in complete symptomatic and histologic resolution of eosinophilic esophagitis in children. However, these elemental diets often have to be given by nasogastric tube because they are unpalatable, and the disease tends to return once the diet is discontinued.27

Elimination diets, based either on avoiding the six foods most commonly associated with allergy (egg, wheat, soy, cow’s milk protein, seafood, peanuts) or on allergy testing such as skin prick testing or atopy patch testing, have shown promise in children.12,28 However, similar large-scale studies of elimination diets in adults have not been conducted.

Allergy evaluation

The recent consensus recommendations devoted considerable attention to the role of allergy evaluation.19 Between 50% and 80% of patients with eosinophilic esophagitis have a coexisting atopic disease such as atopic dermatitis, eczema, allergic rhinitis, or asthma, with a higher prevalence in children than in adults. In these patients, evidence suggests that allergy testing may predict response to therapy. Therefore, the current recommendation is for all patients with eosinophilic esophagitis to undergo a complete evaluation by an experienced allergist.

Checking the peripheral blood eosinophil count before and after treatment is reasonable, as many patients have elevated eosinophil counts that decrease after treatment.

Similarly, many patients with eosinophilic esophagitis have elevated serum total IgE levels, which suggests a concomitant atopic disease. Therefore, total IgE levels should also be checked before and after treatment. Checking for IgE against specific aeroallergens is recommended, but checking for IgE against specific food antigens has not proven beneficial at this time. Similarly, skin prick testing for aeroallergens may be useful, but not for food allergens.

Data on atopy patch testing in eosinophilic esophagitis are currently limited but promising.19

Medical therapy

Swallowed fluticasone (Flonase, using an inhaler) is the mainstay of therapy for both children and adults.

In one case series, 21 adult patients with eosinophilic esophagitis received a 6-week course of swallowed fluticasone 220 μg/puff, two to four puffs twice daily. Symptoms completely resolved in all patients for at least 4 months, and no patient needed endoscopic dilation.29

In another study, 19 patients treated with fluticasone for 4 weeks showed dramatic improvement both symptomatically and histologically. However, after 3 months, 14 (74%) of the 19 patients had a recurrence of symptoms, pointing to the chronic relapsing nature of this disease.30

The only randomized placebo-controlled trial of fluticasone to date has been in children. Konikoff et al31 found that a 3-month course of fluticasone induced remission, defined as less than one eosinophil per high-power field, in 50% of patients, compared with 9% in the placebo group.

Swallowed fluticasone is generally well tolerated, although cases of esophageal candidiasis have been reported.30

Acid suppression still has an unclear role in the treatment of eosinophilic esophagitis. As mentioned above, the disease is defined as the presence or persistence of esophageal eosinophilia after acid reflux has been maximally treated or ruled out. Most patients referred for further evaluation of eosinophilic esophagitis have tried twice-daily proton pump inhibitor therapy without success. The impact of concomitant therapy with a proton pump inhibitor has not yet been determined, but the recent guidelines suggest that these drugs are reasonable as co-therapy in patients who also have GERD symptoms.19

In patients whose symptoms do not improve with fluticasone, several other medications have been used:

Systemic corticosteroids have been used with success in both adults and children with hypereosinophilic syndromes, as well as in patients with refractory eosinophilic esophagitis, but adverse effects limit their routine and long-term use.

Cromolyn sodium (NasalCrom, Intal), a mast cell stabilizer, and montelukast (Singulair), a leukotriene inhibitor, have been used with limited success.32

Mepolizumab (Bosatria), a humanized monoclonal antibody to human interleukin 5, decreased the number of eosinophils in the esophagus and peripheral blood and improved clinical symptoms in patients with refractory eosinophilic esophagitis in a recent open-label trial.33 Further studies with mepolizumab and other biologic agents are expected.

Endoscopic dilation

Endoscopic dilation with either a guidewire or a balloon technique is often used to treat strictures and a diffusely narrowed esophagus in patients with eosinophilic esophagitis.

As mentioned above, a common endoscopic feature is mucosal fragility, which has been described as resembling crepe paper. Shearing and longitudinal splitting of this fragile mucosa may occur after dilation therapy.

Although esophageal dilation may be done safely in patients with eosinophilic esophagitis, the risk of perforation appears to be greater than in those with other indications for dilation.

Nevertheless, immediate symptomatic improvement has been reported in 83% of patients after dilation, with symptoms recurring in 20% within 3 to 8 months.34 Current recommendations suggest that dilation should be done cautiously in patients who have documented esophageal narrowing for which drug therapy has failed.

 

 

RECOMMENDED APPROACH

The approach to diagnosing and treating eosinophilic esophagitis begins with being aware of its prevalence. One should suspect it more in younger patients presenting with intermittent dysphagia, food impaction, or heartburn that does not respond to maximal doses of a proton pump inhibitor. Special attention should be paid to a personal or family history of allergic diseases or similar symptoms.

According to the consensus recommendations, barium esophagography is useful if the presentation suggests long-standing disease and associated esophageal stricture.

Upper endoscopy is performed, with biopsies obtained in the proximal, middle, and distal esophagus regardless of the appearance of the esophageal mucosa. Biopsies of the stomach and duodenum are also recommended to rule out eosinophilic gastroenteritis.19

After biopsy confirms the diagnosis, a trial of a proton pump inhibitor in maximum doses (usually twice daily) for 8 weeks is recommended if not already tried. If there is evidence of eosinophilic esophagitis on repeat endoscopy and biopsy studies after proton pump inhibitor therapy, the next step is swallowed fluticasone (220 μg, up to four puffs twice daily) for 6 to 8 weeks, with follow-up visits to confirm resolution of symptoms. Without a spacer, the fluticasone is swallowed after maximal expiration. Patients are instructed to avoid food and liquids for at least 30 minutes after use.

Optimal strategies for monitoring in adults have yet to be established, and following symptoms alone may or may not be sufficient.19 Our approach is to follow for symptomatic improvement after treatment is completed, and to consider repeat endoscopy with biopsy if the patient’s symptoms do not improve or if the patient has a recurrence after treatment.

In patients with evidence of long-standing esophageal narrowing or poor response to drug therapy, esophageal dilation can be performed after careful consideration.

Although data are limited as to the role of specific allergens in adult eosinophilic esophagitis, patients with eosinophilic esophagitis are referred to an allergist for allergy testing. Offending food or aeroallergens are removed for a period of time and patients are followed for changes in symptoms.

For patients who do not respond to swallowed fluticasone, proton pump inhibitors, or both, other medications such as systemic steroids, montelukast, or cromolyn can be considered. In the near future, anti-interleukin 5 therapy may be another option.

Patients are asked to return periodically for evaluation after treatment. Due to the chronic and relapsing nature of eosinophilic esophagitis, various therapies (especially fluticasone) are often restarted or continued because of symptom recurrence.

References
  1. Dobbins JW, Sheahan DG, Behar J. Eosinophilic gastroenteritis with esophageal involvement. Gastroenterology 1977; 72:13121316.
  2. Matzinger MA, Daneman A. Esophageal involvement in eosinophilic gastroenteritis. Pediatr Radiol 1983; 13:3538.
  3. Attwood SE, Smyrk TC, Demeester TR, Jones JB. Esophageal eosinophilia with dysphagia. Dig Dis Sci 1993; 38:109116.
  4. Noel RJ, Putnam PE, Rothenberg ME. Eosinophilic esophagitis. N Engl J Med 2004; 351:940941.
  5. Straumann A, Simon HU. Eosinophilic esophagitis: escalating epidemiology? J Allergy Clin Immunol 2005; 115:418419.
  6. Rothenberg ME. Eosinophilic gastrointestinal disorders (EGID). J Allergy Clin Immunol 2004; 113:1128.
  7. Mishra A, Rothenberg ME. Intratracheal IL-13 induces eosinophilic esophagitis by an IL-5, eotaxin-1, and STAT6-dependent mechanism. Gastroenterology 2003; 125:14191427.
  8. Blanchard C, Wang N, Stringer KF, et al. Eotaxin-3 and a uniquely conserved gene-expression profile in eosinophilic esophagitis. J Clin Invest 2006; 116:536547.
  9. Ngo P, Furuta G, Antonioli D, Fox V. Eosinophils in the esophagus—peptic or allergic eosinophilic esophagitis? Case series of three patients with esophageal eosinophilia. Am J Gastroenterol 2006; 101:16661670.
  10. Morrow JB, Vargo JJ, Goldblum JR, Richter JE. The ringed esophagus—histologic features of GERD. Am J Gastroenterol 2001; 96:984989.
  11. Spechler SJ, Genta RM, Souza RF. Thoughts on the complex relationship between gastroesophageal reflux disease and eosinophilic esophagitis. Am J Gastroenterol 2007; 102:13011306.
  12. Markowitz JE, Spergel JM, Ruchelli E, Liacouras CA. Elemental diet is an effective treatment for eosinophilic esophagitis in children and adolescents. Am J Gastroenterol 2003; 98:777782.
  13. Simon D, Straumann A, Wenk A, et al. Eosinophilic esophagitis in adults: no clinical relevance of wheat and rye sensitizations. Allergy 2006; 61:14801483.
  14. Fogg MI, Ruchelli E, Spergel JM. Pollen and eosinophilic esophagitis. J Allergy Clin Immunol 2003; 112:796797.
  15. Zink DA, Amin M, Gebara S, Desai TK. Familial dysphagia and eosinophilia. Gastrointest Endoscop 2007; 65:330334.
  16. Dellon ES, Aderoju A, Woosely JT, et al. Variability in diagnostic criteria for eosinophilic esophagitis: a systematic review. Am J Gastroenterol 2007; 102:23002313.
  17. Furuta GT, Liacouras CA, Collins MH, et al. Eosinophilic esophagitis in children and adults: a systematic review and consensus recommendations for diagnosis and treatment. Gastroenterology 2007; 133:13421363.
  18. Parfitt JR, Gregor JC, Suskin NG, Jawa HA. Eosinophilic esophagitis in adults: distinguishing features from gastroesophageal reflux disease: a study of 41 patients. Mod Pathol 2006; 19:9096.
  19. Kato M, Kephart GM, Talley NJ, et al. Eosinophil infiltration and degranulation in normal human tissue. Anat Rec 1998; 242:418425.
  20. Steiner SJ, Gupta SK, Croffie JM, Fitzgerald JF. Correlation between number of eosinophils and reflux index on same day esophageal biopsy and 24 hour esophageal pH monitoring. Am J Gastroenterol 2004; 99:801805.
  21. Sgouros SN, Bergele C, Mantides A. Eosinophilic esophagitis in adults: a systematic review. Eur J Gastroenterol Hepatol 2006; 18:211217.
  22. Liacouras CA, Spergel JM, Ruchelli E, Verma R. Eosinophilic esophagitis: a 10-year experience in 381 children. Clin Gastroenterol Hepatol 2005; 3:11981206.
  23. Zimmerman SL, Levine MS, Rubesin SE, et al. Idiopathic eosino-philic esophagitis in adults: the ringed esophagus. Radiology 2005; 236:159165.
  24. Chehade M, Sampson HA, Morotti RA, Magrid MS. Esophageal sub-epithelial fibrosis in children with eosinophilic esophagitis. J Pediatr Gastroenterol Nutr 2007; 45:319328.
  25. Aceves SS, Newbury RO, Dohil R, et al. Esophageal remodeling in pediatric eosinophilic esophagitis. J Allergy Clin Immunol 2007; 119:206212.
  26. Straumann A, Spichtin HP, Grize L, et al. Natural history of primary eosinophilic esophagitis: a follow-up of 30 adult patients for up to 11.5 years. Gastroenterology 2003; 125:16601669.
  27. Kelly KJ, Lazenby AJ, Rowe PC, et al. Eosinophilic esophagitis attributed to gastroesophageal reflux: improvement with an amino acid-based formula. Gastroenterology 1995; 109:15031512.
  28. Kagalwalla AF, Sentongo TA, Ritz S, et al. Effect of six-food elimination diet on clinical and histologic outcomes in eosinophilic esophagitis. Clin Gastroenterol Hepatol 2006; 4:10971102.
  29. Arora AS, Perrault J, Smyrk TC. Topical corticosteroid treatment of dysphagia due to eosinophilic esophagitis in adults. Mayo Clin Proc 2003; 78:830835.
  30. Remedios M, Campbell C, Jones DM, Kerlin P. Eosinophilic esophagitis in adults: clinical, endoscopic, histologic findings, and response to treatment with fluticasone propionate. Gastrointest Endoscop 2006; 63:312.
  31. Konikoff MR, Noel RJ, Blanchard C, et al. A randomized, double-blind, placebo-controlled trial of fluticasone propionate for pediatric eosinophilic esophagitis. Gastroenterology 2006; 131:13811391.
  32. Attwood SE, Lewis CJ, Bronder CS, et al. Eosinophilic oesophagitis: a novel treatment using montelukast. Gut 2003; 52:181185.
  33. Stein ML, Collins MH, Villanueva JM, et al. Anti-IL-5 (mepolizumab) therapy for eosinophilic esophagitis. J Allergy Clin Immunol 2006; 118:13121319.
  34. Sgouros SN, Bergele C, Mantides A. Eosinophilic esophagitis in adults: what is the clinical significance? Endoscopy 2006; 38:512520.
References
  1. Dobbins JW, Sheahan DG, Behar J. Eosinophilic gastroenteritis with esophageal involvement. Gastroenterology 1977; 72:13121316.
  2. Matzinger MA, Daneman A. Esophageal involvement in eosinophilic gastroenteritis. Pediatr Radiol 1983; 13:3538.
  3. Attwood SE, Smyrk TC, Demeester TR, Jones JB. Esophageal eosinophilia with dysphagia. Dig Dis Sci 1993; 38:109116.
  4. Noel RJ, Putnam PE, Rothenberg ME. Eosinophilic esophagitis. N Engl J Med 2004; 351:940941.
  5. Straumann A, Simon HU. Eosinophilic esophagitis: escalating epidemiology? J Allergy Clin Immunol 2005; 115:418419.
  6. Rothenberg ME. Eosinophilic gastrointestinal disorders (EGID). J Allergy Clin Immunol 2004; 113:1128.
  7. Mishra A, Rothenberg ME. Intratracheal IL-13 induces eosinophilic esophagitis by an IL-5, eotaxin-1, and STAT6-dependent mechanism. Gastroenterology 2003; 125:14191427.
  8. Blanchard C, Wang N, Stringer KF, et al. Eotaxin-3 and a uniquely conserved gene-expression profile in eosinophilic esophagitis. J Clin Invest 2006; 116:536547.
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KEY POINTS

  • The diagnosis is made with upper endoscopy and esophageal biopsies that show diffuse infiltration of eosinophils.
  • Current treatment in adults is limited and consists of either swallowed fluticasone (Flonase) or a proton pump inhibitor.
  • Because many patients with eosinophilic esophagitis have atopic disease, a complete evaluation for dietary allergens and aeroallergens is recommended, as avoidance of these allergens may be helpful in some adults.
  • Cautious endoscopic dilation is a treatment option in patients with evidence of esophageal stenosis. Systemic corticosteroids and novel biologic therapy have been used in refractory cases.
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Treatment of Helicobacter pylori in nonulcer dyspepsia: Should we or shouldn’t we?

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