Sialorrhea has been described in association with megaesophagus in both patients with Chagas disease and those with idiopathic megaesophagus.36 Salivary gland hypertrophy and sialorrhea have been described not only in association with chagasic megaesophagus and idiopathic achalasia, but also in association with other eating disorders, including bulimia and anorexia nervosa.36–38 Both salivary gland hypertrophy and sialorrhea seem to be related to the symptoms of vomiting and regurgitation described in these eating disorders and idiopathic and chagasic achalasia.36–38

Chagasic achalasia and its consequence of chagasic megaesophagus are common findings in Chagas disease, and dysphagia may be the first symptom of digestive disturbances that may lead to malnutrition and severe weight loss.8,9,35,39,40

The nitric oxide (NO) donor drugs were used at the first half of the last century to increase emptying of the megaesophagus and to improve the symptoms of dysphagia in idiopathic achalasia.41–44 In chagasic achalasia, there are reports of the use of such drugs for the same purpose in the middle of the last century. However, the presentation of NO-donor drugs and their side effects has limited their use. Only later, with the presentation of such drugs in the form of tablets to be administered orally or sublingually, it was demonstrated that NO-donor drugs decrease lower esophageal sphincter pressure, improve the symptoms of dysphagia and increase megaesophagus clearance in both idiopathic achalasia and chagasic achalasia.45–53 Researchers finally demonstrated similarities between the inhibitory non-adrenergic non-cholinergic mediator and the substance released from NO-donor drugs in the late 1980s.54,55

Although chagasic achalasia presents with symptoms and radiological findings similar to those of idiopathic achalasia, some important differences are described.9, 56–58 It has been demonstrated that, in patients with Chagas disease, pressure in the lower esophageal sphincter is lower than in normal patients, whereas the pressure is higher in patients with idiopathic achalasia.7,40 Higher pressure in the lower esophageal sphincter in idiopathic achalasia relative to that in controls has also been demonstrated by others researchers.59,60 Reduced pressure in the lower esophageal sphincter in chagasic achalasia further demonstrates that both innervations, excitatory and inhibitory, are damaged in contrast to idiopathic achalasia, where the excitatory innervation is preserved, thereby causing the pressure to be higher than in the normal subjects.39,40,59–61 Similarities are also observed in the treatments, including pharmacological, endoscopic and surgical procedures.62,63 In both cases, treatment is palliative, with an objective of decreasing lower esophageal sphincter pressure, improving esophageal emptying and relief of the symptoms of dysphagia.62,63

The megastomach is neither a common nor an important finding of gastrointestinal manifestation in Chagas disease, although alterations in both motility and secretion have been described. Delayed gastric emptying of solid meals has been demonstrated. The explanation provided for this observation is that the excitatory motor enteric neurons are damaged in Chagas disease.13,64 Fast gastric emptying of liquid meals was also demonstrated, and the explanation was related not only to impairment of the excitatory enteric neurons, but also to impairment of inhibitory enteric neurons.12, 15

Given that inhibitory innervation is responsible for gastric accommodation after a meal, the stomach is not able to relax after a liquid meal once inhibitory enteric innervation is damaged, which results in rapid gastric emptying.12,15

Moreover, electrogastrography performed in patients with Chagas disease showed a higher incidence of gastric dysrhythmias in the chagasic patients than in the normal subjects.26 Another alteration demonstrated in patients with Chagas disease is that both basal and stimulated acid gastric secretion were lower than in normal subjects.65,66

Abnormalities of interdigestive motility of the small intestine in Chagas disease have been described.67 Manometric studies of gastrointestinal motility showed abnormally slow propagation of the interdigestive migrating motor complex, which was also excessively prolonged.66,67

Although not common, dilation of the small intestine, such as megaduodenum and megajejunum, has also been described.14,18 However, fast transit in the dilated small intestine in Chagas disease has been associated with bacteria overgrowth with chronic diarrhea, malabsorption, steatorrhea and hypocalcemia that improved with oral antibiotic therapy.14,18 Patients with Chagas disease have a combination of very fast gastric emptying and abnormally delayed transit of liquids through the more distal segments of the small bowel.15 Also, disorders of absorption in the small intestine were demonstrated in Chagas disease as an abnormal increase in the absorption of carbohydrates.2,10

Another common manifestation of Chagas disease in the gastrointestinal tract is chagasic megacolon. Chronic constipation is the main symptom related to megacolon.4,6,8,35 Although chagasic megacolon presents with symptoms and radiological findings similar to congenital megacolon, differences are also related to damage in both excitatory and inhibitory innervations.19,20,22,24,25 Manometric studies in chagasic patients have demonstrated the basal motility index and wave frequency of the sigmoid colon and rectum to be lower than in normal subjects. In addition, the studies show a lack of relaxation of the internal sphincter of the anus in the chagasic patients.6,11 Others have demonstrated an absence of the rectoanal inhibitory reflex in the chagasic megacolon, similar to that in Hirschsprung’s disease.68,69 Alteration of the rectoanal inhibitory reflex in most of the chagasic patients with megacolon was demonstrated by several researchers and can be justified by the destruction of enteric motor innervations.6,11,19,20,22,24,25,68,70 The choice of surgical treatment appears to have the same indication as a solution for constipation in both chagasic and idiopathic megacolon.71,72

The incidence of diverticula in the sigmoid colon of the non-chagasic group was higher than in both the chagasic group with and without megacolon.73 Among the patients with megacolon and diverticular disease, the diverticula were always located in the non-dilated portions of the large bowel, suggesting that unfavorable conditions for the genesis or maintenance of diverticula exist in the dilated colon of the chagasic patients.73

Gallbladder neuron counts in cholelithiasis in patients with Chagas disease have demonstrated a reduction in the number of neurons in the gallbladder wall.21 Given that the enteric excitatory motor neurons are damaged in Chagas disease, the prevalence of cholelithiasis, megagallbladder and megacholedochus is higher.74,75 Despite controversial results, a scintigraphic study of gallbladder emptying in Chagas disease showed that the gallbladder of the chagasic patients was much more sensitive to an exogenous cholecystokinetic agent and contracted in a more intense manner, with contraction starting earlier and lasting longer than among the controls, suggesting more severe impairment of the inhibitory enteric innervations.17

In addition to studies in developing countries, which have a higher incidence of infection by H. pylori, Chagas disease has a higher incidence of peptic changes and a high frequency of peptic disease associated with H. pylori infection.29,76 Another study showed that the prevalence of infection by H. pylori was higher in the chagasic patients than in non-chagasic subjects from both urban and rural areas.31 Furthermore, H. pylori was considered a possible factor related to the etiopathogenesis of chronic superficial and atrophic gastritis, since it was frequently observed in patients with the gastrointestinal manifestations of Chagas disease.34,77

Injury to the interstitial cells of Cajal as well as the enteric nervous system have been considered important in gastrointestinal motility control.78,79

Despite the controversy regarding the pathogenic role of defects in the interstitial cells of Cajal in idiopathic constipation and other gastrointestinal motor disorders, changes in the distribution of the interstitial cells of Cajal have been reported in various conditions, such as achalasia, chronic intestinal pseudo-obstruction, infantile hypertrophic pyloric stenosis, Hirschsprung’s disease, inflammatory bowel disease and slow transit constipation.77–87 In addition, altered distribution of the interstitial cells of Cajal has been demonstrated in chagasic megaesophagus and in chagasic megacolon.27,28,30

The association of cancer of the esophagus and megaesophagus has been demonstrated to be both higher and lower in chagasic patients than in normal subjects.33,88 Since a higher prevalence of gastric lesions and infection by H. pylori has been demonstrated, an increased incidence of cancer in the chagasic megaesophagus can be expected.34, 89–91

A review of 4,690 necropsies and 24,209 surgical specimens showed that the prevalence of malignant tumors of the large bowel was not higher in chagasic megacolon.32 Other authors also showed no association between chagasic megacolon and an increased incidence of cancer.33 Thus, Chagas disease affects several gastrointestinal regions, but there is no apparent relationship with the increased incidence of cancer and chagasic megacolon, and the main causes of death in elderly chagasic patients are commonly related instead to heart disease.32,33,92