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Gastric bezoars

Gastric bezoars
Author:
Daniel Gelrud, MD
Section Editor:
Nicholas J Talley, MD, PhD
Deputy Editor:
Shilpa Grover, MD, MPH, AGAF
Literature review current through: Dec 2022. | This topic last updated: Feb 02, 2022.

INTRODUCTION — Gastric bezoars are rare, cause nonspecific symptoms, and are usually found incidentally in patients undergoing upper gastrointestinal endoscopy or imaging [1]. This topic will review the epidemiology, pathogenesis, clinical manifestations, diagnosis, and management of gastric bezoars.

DEFINITIONS — A gastric bezoar is defined as a foreign body resulting from accumulation of ingested material, most commonly found as a hard mass or concretion in the stomach.

Bezoars are classified according to their composition (table 1) [2-12].

Phytobezoars – Phytobezoars, composed of vegetable matter, are the most common type of bezoar. The diospyrobezoar, composed of persimmon fruit, accounts for the majority of cases.

Trichobezoars – Trichobezoars are composed of hair.

Pharmacobezoars – Pharmacobezoars are composed of ingested medications (eg, extended release nifedipine, theophylline, enteric-coated aspirin, sodium alginate, and sucralfate).

Other – Bezoars may be composed of a variety of other substances (eg, tissue paper, shellac, fungus, Styrofoam cups, cement, vinyl gloves, polyurethane, and rarely, milk curd).

PATHOGENESIS — Gastric bezoars usually result from ingestion of indigestible material in patients with impairment in the grinding mechanism of the stomach and the interdigestive migrating motor complex [13]. Although it was initially thought that delayed gastric emptying was the underlying cause of all bezoars, studies have found that many patients have normal or accelerated gastric emptying, suggesting that the composition of the ingested material plays an important role in the pathogenesis. As an example, patients with diospyrobezoar form bezoars without gastric dysfunction. The unripe persimmon fruit contains high concentrations of a soluble tannin called shibuol, which forms a coagulum when mixed with gastric acid [14]. It is also hypothesized that proline-rich proteins secreted from the parotid and submandibular glands have a high affinity for binding tannins and promote bezoar formation [15]. (See "Pathogenesis of delayed gastric emptying", section on 'Motor functions of the stomach regions'.)

Trichobezoars form in patients with trichotillomania and trichophagia. They begin as retained hairs between the gastric folds; the hair is then denatured by gastric acid, becomes black due to oxidation, and combines with food to form an enmeshed mass. Trichobezoars subsequently become colonized by bacteria resulting in halitosis.

Once formed, bezoars grow by the continuing ingestion of food rich in cellulose and other indigestible materials, matted together by protein, mucus, and pectin.

EPIDEMIOLOGY — Gastric bezoars are rare, with an estimated incidence of 0.3 percent on upper endoscopy [1].

Most adults with phytobezoars are men between the ages of 40 and 50 years, while trichobezoars are typically seen in women in their 20s and are often associated with psychiatric disorders [16]. In rare cases, a gastric trichobezoar has a long tail and extends throughout the small bowel to the cecum. This condition, known as the Rapunzel syndrome, occurs almost exclusively in young girls [17-20].

RISK FACTORS — Several risk factors have been identified in patients with gastric bezoars.

Gastric dysmotility — An underlying anatomic abnormality may predispose to the formation of gastric bezoars [16]. Among patients with gastric bezoars, 70 to 94 percent have had gastric surgery and 54 to 80 percent have undergone vagotomy and pyloroplasty (image 1) [14,21,22]. Patients with gastroparesis appear to be at increased risk of formation of gastric bezoars due to impairment in the grinding mechanism of the stomach and the interdigestive migrating motor complex [23,24]. (See 'Pathogenesis' above.)

Other — Other predisposing factors, especially in patients with pharmacobezoars, include [2,25]:

Gastric outlet obstruction

Dehydration

Use of anticholinergic agents and opiates

Use of medications with an insoluble carrying vehicle (eg, enteric-coated aspirin and nifedipine) or high hygroscopy, defined as the ability to attract and retain water (eg, psyllium and wheat dextrin)

CLINICAL MANIFESTATIONS

Clinical features — Affected patients remain asymptomatic for many years, and symptom onset is insidious. The most common symptoms include abdominal pain, nausea, vomiting, early satiety, anorexia, and weight loss [16].

Gastrointestinal bleeding due to concurrent gastric ulcers is a common presentation in patients who have previously undergone surgery [16]. The ulcers may be due to peptic ulcer disease or pressure necrosis. Although many bezoars become quite large, gastric outlet obstruction is an uncommon presentation [26]. Other rare complications include small bowel obstruction and acute pancreatitis [27,28]. (See "Gastric outlet obstruction in adults", section on 'Clinical manifestations'.)

Physical examination is unremarkable in most patients with a gastric bezoar except for an occasional abdominal mass or halitosis. Patients with trichobezoars may have patchy areas of alopecia. (See "Evaluation and diagnosis of hair loss", section on 'Nonscarring alopecia'.)

Imaging — Bezoars are usually an incidental finding on imaging in patients undergoing evaluation for nonspecific symptoms. Abdominal radiograph with (image 1) or without barium (image 2), abdominal ultrasound, or computed tomography scan may show the bezoar as mass or a filling defect [29,30]. While phytobezoars are generally impervious to barium, trichobezoars tend to absorb barium.

COMPLICATIONS — Bezoars have rarely been associated with several gastrointestinal complications. These include gastrointestinal perforation, peritonitis, protein-losing enteropathy, steatorrhea, pancreatitis, intussusception, obstructive jaundice, appendicitis, constipation, and pneumatosis intestinalis [31,32].

In rare cases, drug overdoses have been reported in patients with pharmacobezoars [3,4].

DIAGNOSIS — Upper gastrointestinal endoscopy is required to establish the diagnosis of a gastric bezoar and to obtain samples to determine its composition. Endoscopically, a gastric bezoar has the appearance of a dark brown, green, or black ball of amorphous material in the fundus or antrum of the stomach.

MANAGEMENT — Therapy for gastric bezoars should be tailored to the composition of the concretion and to the underlying pathophysiologic process. In patients with pharmacobezoars, the toxicity of the underlying ingested pharmaceutical agent must be considered as decontamination may be required. The management of pharmacobezoars is discussed in detail, separately. (See "Gastrointestinal decontamination of the poisoned patient".)

While the optimal strategy is controversial in the absence of studies comparing different modalities, for patients with mild symptoms due to bezoars, we initially attempt chemical dissolution. We use prokinetic metoclopramide as adjuvant therapy. For patients with bezoars that fail to dissolve or are resistant to chemical dissolution (trichobezoars), and patients with moderate to severe symptoms due to large bezoars, we suggest endoscopic therapy. We reserve surgery for selected patients with gastric bezoars if chemical dissolution and endoscopic fragmentation cannot be performed or fail and for patients with complications (eg, obstruction, significant bleeding).

Chemical dissolution — Chemical dissolution involves administration of an agent to degrade the gastric bezoar. As compared with endoscopic therapy or surgery, chemical dissolution has the advantage of being noninvasive and inexpensive. However, a potential complication of chemical dissolution therapy is that partially dissolved bezoars may cause small bowel obstruction up to six weeks later [33,34]. Several agents have been used for chemical dissolution. However, there are no randomized trials comparing these agents.

Coca-Cola – We administer Coca-Cola via gastric lavage (3000 mL over a 12-hour period) or advise oral consumption of the same amount in patients without nausea or vomiting. Successful treatment of bezoars using Coca-Cola administered via endoscopic injection has also been reported [35-39]. The mechanism of Coca-Cola's action may be related to its low pH, the mucolytic effect of its high sodium bicarbonate content, and the CO2 bubbles which enhance dissolution.

Coca-Cola has the advantage of being widely available, inexpensive, well tolerated, and easy to administer. However, additional endoscopic therapy may be needed in a significant proportion of patients. In a systematic review of 24 observational studies that included 46 patients, administration of Coca-Cola alone resulted in resolution of phytobezoars in 23 (50 percent) patients. Of the 23 patients with partial dissolution with Coca-Cola, concomitant endoscopic therapy resulted in dissolution in 19 patients and only 4 patients required surgery [40]. (See 'Endoscopic removal' below.)

Several other agents have been tried with success in small series, but their use is limited by their side effects and lack of availability. These include [41]:

Cellulase – Cellulase tablets or solutions have been used to degrade the cellulose and hemicellulose found in plant fiber and phytobezoars. Reported success rates range from 83 to 100 percent [41,42]. However, cellulase preparations are not readily available for use in many countries and are expensive.

Papain – Papain is given in the form of Adolph's Meat Tenderizer, 1 teaspoon in 120 mL of water before each meal or papase two (10,000 unit) tablets with each meal [43]. The use of papain is limited by side effects. In one series that included 36 patients with phytobezoars treated with papain and cellulase, papain was successful in treating 13 of 15 (87 percent) patients and cellulase was successful in 19 of 19 (100 percent) [42]. Adverse effects in the papain group included gastric ulcers and esophageal perforation, while no adverse effects were reported in the patients treated with cellulase.

Acetylcysteine – Acetylcysteine has been administered via nasogastric tube (15 mL of acetylcysteine in 50 mL of water, twice daily) and endoscopically (30 mL of acetylcysteine in 30 mL of saline solution) for chemical dissolution of gastric bezoars [44,45]. However, success rates are low (50 percent) [46,47].

Endoscopic removal — Endoscopic therapy involves fragmenting the bezoar with water jet, direct suction through a large channel (6 mm) endoscope, forceps, or snares. The fragments can then be cleared with the endoscope or by using a large bore nasogastric tube (eg, Ewald tube), or allowed to pass through the gastrointestinal tract [42].

A variety of other methods have been described in case reports when the above techniques have failed including use of the Nd:YAG laser, monopolar diathermy knife, and mechanical, electrohydraulic, extracorporeal lithotripsy, injection of enzyme solutions or Coca-Cola, and a combination of methods using double-channel endoscopes [37,48-56].

Adjuvant prokinetics — Metoclopramide (10 mg orally before meals and at bedtime) used in conjunction with endoscopic therapy and chemical dissolution may decrease the time to dissolution of a gastric bezoar. In one study, nine patients treated with adjunctive therapy required a mean of 1.2 courses of endoscopic therapy, while 15 patients treated with endoscopic therapy alone required 1.9 courses of treatment [57].

Surgery — Surgical removal should be reserved for patients who fail chemical dissolution and endoscopic therapy and for patients with complications including obstruction and significant bleeding. Surgery is also recommended as initial treatment for bezoars composed of vinyl gloves if the gloves have become hardened and matted [10,20,58]. Attempted endoscopic removal can cause perforation and bleeding and is not recommended unless the gloves are still soft and pliable. If a gastrotomy or enterotomy is performed to remove bezoars, the remainder of the small bowel and stomach should be examined to exclude other retained bezoars [59].

PREVENTION OF RECURRENCE — Up to 20 percent of patients have recurrent bezoars [21,42]. In order to prevent recurrence, patients should be encouraged to increase water intake, modify their diet (eg, avoid persimmons, stringy vegetables, and high-fiber foods), chew their food carefully, and to seek psychiatric evaluation if needed. Patients should also be evaluated for an underlying motility disorder. (See "Gastroparesis: Etiology, clinical manifestations, and diagnosis", section on 'Evaluation'.)

SUMMARY AND RECOMMENDATIONS

Gastric bezoars result from the accumulation of foreign ingested material in the form of masses or concretions. (See 'Definitions' above.)

Bezoars are classified according to their composition. The major types are phytobezoars, trichobezoars, and pharmacobezoars.

Phytobezoars, composed of vegetable matter, are the most common type of bezoar.

Trichobezoars are composed of hair.

Pharmacobezoars are composed of ingested medications.

Gastric bezoars usually result from ingestion of undigestible material in patients with impairment in the grinding mechanism and the interdigestive migrating motor complex. Bezoars grow by the continuing ingestion of food rich in cellulose and other indigestible materials matted together by protein, mucus, and pectin. (See 'Pathogenesis' above.)

Affected patients remain asymptomatic for many years, and develop symptoms insidiously. The most common complaints include abdominal pain, nausea, vomiting, early satiety, anorexia, and weight loss. Gastrointestinal bleeding due to concurrent gastric ulcers is a common presentation in patients who have previously undergone surgery. (See 'Clinical manifestations' above.)

Bezoars are usually discovered as an incidental finding on imaging performed for evaluation of nonspecific symptoms. Abdominal radiograph with or without barium, abdominal ultrasound, or computed tomography scan may show the bezoar as a mass or a filling defect. Upper gastrointestinal endoscopy is required to establish the diagnosis and to obtain samples to determine the composition of the bezoar. (See 'Diagnosis' above.)

Therapy for bezoars should be tailored to the composition of the concretion and to the underlying pathophysiologic process. In patients with pharmacobezoars, the toxicity of the underlying ingested pharmaceutical agent must be considered and decontamination may be required. The management of pharmacobezoars is discussed separately. (See "Gastrointestinal decontamination of the poisoned patient" and 'Management' above.)

For patients with mild symptoms due to gastric bezoars, we suggest initial treatment with chemical dissolution (Grade 2C). (See 'Chemical dissolution' above.)

For patients with bezoars that fail to dissolve after two attempts at chemical dissolution or are resistant to chemical dissolution (trichobezoars), or moderate to severe symptoms due to large bezoars, we suggest endoscopic therapy (Grade 2C). We use metoclopramide in conjunction with chemical dissolution and endoscopic therapy. (See 'Endoscopic removal' above and 'Adjuvant prokinetics' above.)

Surgery should be reserved for selected patients with gastric bezoars if chemical dissolution and endoscopic fragmentation cannot be performed or fail and for patients with complications such as obstruction and significant bleeding. (See 'Surgery' above.)

Up to 20 percent of patients have recurrent bezoars. In order to prevent recurrence, patients should be encouraged to increase water intake, modify their diet, chew their food carefully, and seek psychiatric evaluation if needed. Patients should also be evaluated for an underlying motility disorder. (See 'Prevention of recurrence' above and "Gastroparesis: Etiology, clinical manifestations, and diagnosis", section on 'Evaluation'.)

ACKNOWLEDGMENT — The UpToDate editorial staff acknowledges Moises Guelrud, MD, who contributed to an earlier version of this topic review.

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Topic 2535 Version 16.0

References

1 : Gastric bezoars--spontaneous resolution.

2 : Nifedipine GITS (gastrointestinal therapeutic system) bezoar.

3 : Failure of gastric emptying and charcoal administration in fatal sustained-release theophylline overdose: pharmacobezoar formation.

4 : Enteric-coated aspirin bezoar: elevation of serum salicylate level by barium study. Case report and review of medical management.

5 : Sucralfate gastric bezoar.

6 : Pharmacobezoar complicating treatment with sodium alginate.

7 : Tissue paper bezoar associated with percutaneously placed gastrostomy tube.

8 : Yeast bezoar formation following gastric surgery.

9 : Cement bezoars of the stomach.

10 : The hazards of vinyl glove ingestion in the mentally retarded patient with pica: new implications for surgical management.

11 : Gastric lactobezoar - a rare disorder?

12 : Esophagogastric polyurethane bezoar complicated by stomach wall microperforation and acute peritonitis: case report.

13 : Bezoars and foreign bodies of the stomach.

14 : Surgical aspects of gastrointestinal persimmon phytobezoar treatment.

15 : Bile acid-binding ability of kaki-tannin from young fruits of persimmon (Diospyros kaki) in vitro and in vivo.

16 : Bezoars and concretions

17 : The Rapunzel syndrome: a case report and review of the literature.

18 : The Rapunzel syndrome (trichobezoar) causing gastric perforation in a child: a case report.

19 : Rapunzel syndrome--a case report.

20 : The surgical management of Rapunzel syndrome: a case series and literature review.

21 : Gastrointestinal bezoars.

22 : Gastric bezoar complicating laparoscopic adjustable gastric banding, and review of literature.

23 : Gastric emptying and bezoars.

24 : Gastric bezoars: reassessment of clinical and radiographic findings in 19 patients.

25 : Pharmacobezoar: an evolving new entity.

26 : Pharmacobezoar-a rare case presented as gastric outlet obstruction.

27 : Small Bowel Obstruction Secondary to a Metamucil Bezoar: Case Report and Review of the Literature.

28 : Rare case of trichobezoar causing pancreatitis in a young woman.

29 : Gastric trichobezoar: sonographic findings.

30 : Gastric trichobezoars--sonographic and computed tomographic appearance.

31 : Gastric bezoar causing intramural pneumatosis.

32 : Bezoar: an unusual cause of protein-losing gastroenteropathy.

33 : Small-bowel obstruction during enzymatic treatment of gastric bezoar.

34 : Migration of gastric bezoars leading to secondary ileus.

35 : Gastric phytobezoars may be treated by nasogastric Coca-Cola lavage.

36 : The first report of successful nasogastric Coca-Cola lavage treatment for bitter persimmon phytobezoars in Japan.

37 : Huge gastric diospyrobezoars successfully treated by oral intake and endoscopic injection of Coca-Cola.

38 : How good is cola for dissolution of gastric phytobezoars?

39 : Dissolution of pharmacobezoar using carbonated beverage.

40 : Systematic review: Coca-Cola can effectively dissolve gastric phytobezoars as a first-line treatment.

41 : The composition and dissolution of phytobezoars.

42 : Nonpersimmon gastric phytobezoar. A benign recurrent condition.

43 : Update on the medicinal management of phytobezoars.

44 : Acetylcysteine in removal of bezoar.

45 : Endoscopic and enzymatic treatment of gastric bezoar with acetylcysteine.

46 : Gastric bezoars: treatment and prevention.

47 : Bezoar therapy. Complication using Adolph's Meat Tenderizer and alternatives from literature review.

48 : Gastric phytobezoar destruction by Nd:YAG laser therapy.

49 : Treatment of a gastric bezoar by extracorporeal shock wave lithotripsy.

50 : Endoscopic management of huge bezoars.

51 : A new endoscopic technique for the removal of gastric phytobezoars.

52 : Gastric bezoar treated endoscopically with a carbonated beverage: case report.

53 : Cellulase bezoar injection: a new endoscopic technique.

54 : Clinical outcomes associated with treatment modalities for gastrointestinal bezoars.

55 : A novel endoscopic treatment for giant gastric bezoars: guidewire-based seesaw-type fragmentation using a specific bezoaratom kit.

56 : Removal of a giant gastric bezoar with the grasp-and-smash technique through a double-channel endoscope.

57 : Metoclopramide in the treatment of gastric bezoars.

58 : Vinyl glove ingestion in children: a word of caution.

59 : Cotton Bezoar--a rare cause of intestinal obstruction: case report.