Andrea Winthrop and Jill Whitehouse
Congenital intestinal atresias, stenosis, and webs typically present early in neonatal life due to the associated obstructive symptoms. The reported incidence varies from 1 to 2 in 5000 births in the United States. These malformations can occur throughout the intestinal tract, but are most commonly found in the duodenum (50%) and the jejunum or ileum (35–40%). A colonic location is identified in 5% to 10% of atresias, and rarely, pyloric or gastric lesions are present (< 1%).1
PATHOPHYSIOLOGY AND GENETICS
The etiology most commonly accepted for jejunoileal and colonic atresias involves intrauterine mesenteric ischemia from a variety of vascular accidents, encompassing umbilical cord infarcts, volvulus, internal hernias, fascial defects, intussusception, and intestinal perforation. The affected segment is then reabsorbed. In contrast, duodenal atresia is attributed to a failure of the recanalization process. Genetic links and familial patterns of intestinal atresias (mostly autosomal recessive) are also well described, although the specific genes or mutations involved have yet to be identified. Duodenal atresia is associated with anomalies including trisomy 21, congenital heart disease, malrotation, esophageal atresia, imperforate anus, genitourinary disorders, and gallbladder agenesis. Recently, an autosomal recessive syndrome comprising neonatal diabetes mellitus, intestinal atresias, and gallbladder agenesis has been described.2 An autosomal recessive genetic disorder called Herlitz syndrome is linked to some cases of pyloric atresia. Patients with this syndrome suffer from epidermolysis bullosa lethalis, which results in severe vesiculobullous lesions after minimal skin friction.
CLINICAL FEATURES, DIAGNOSIS, AND TREATMENT
The majority of infants with intestinal atresia present as newborns with signs and symptoms of intestinal obstruction (see Chapter 389), including vomiting (which may be bilious), varying degrees of abdominal distension, and often failure to pass meconium. Antenatal diagnosis has been reported, facilitating prompt postnatal diagnosis and management but without proven impact on long-term outcome.3
Antral and Pyloric Atresia and Webs
Antral or pyloric atresias and webs are rare lesions that present typically with nonbilious emesis and failure to thrive.4 Unlike acquired hypertrophic pyloric stenosis, these neonates present with polyhydramnios in utero and an enlarged stomach at the time of birth. Partial antral and duodenal webs can also present with chronic vomiting, often commencing upon the advent of solid feedings, due to intermittent or partial obstruction.5 The most common abnormality is a pyloric web, which is a membrane that can become redundant over time and prolapse into the pyloric channel, creating a classic “wind-sock” finding. Diagnosis of pyloric atresia typically requires an upper GI contrast study and/or endoscopy. Following adequate fluid resuscitation and gastric decompression, treatment includes laparotomy followed by pyloroplasty, gastroduodenostomy, or primary anastomosis, depending on the type and severity of the lesion. Endoscopic laser treatment of an antral web has been reported.6
Duodenal Atresia and Webs
Duodenal atresia and webs account for half of all intestinal atresias. In contrast to jejunoileal atresias, duodenal lesions are more commonly associated with other anomalies, occurring in 50% to 80% of cases.1As described for pyloric lesions, there are 3 types of atresias in the duodenum, with equal distribution between the incidence of webs and atresias. The usually presentation is bilious vomiting in the newborn. Incomplete obstruction from a fenestrated web (with or without a windsock) or stenosis may have a delayed presentation. Prenatal imaging along with polyhydramnios may suggest the diagnosis, but it is confirmed with an X-ray at birth revealing the classic double-bubble sign (air in both duodenal bulb and stomach as shown in Fig. 399-1). With complete duodenal obstruction, no distal gas will be seen and no further imaging is warranted. If an incomplete obstruction is present, distal gas may confuse the diagnosis with malrotation, and thus an upper GI contrast study should be performed. If malrotation is ruled out, other associated anomalies can be evaluated before proceeding to the operating room. The vast majority of duodenal malformations occur distal to the ampulla of Vater, and hence, great care must be taken to avoid injury to the biliary system intraoperatively. The surgical procedure of choice is a Kimura diamond duodenoduodenostomy. Duodenal webs are managed with incision or partial excision through a duodenotomy. Postoperatively, naso-gastric decompression is sufficient while awaiting bowel function return and normal gastric emptying.
FIGURE 399-1. Double-bubble sign on plain radiography in patient with duodenal atresia.
Jejunoileal Atresia
Jejunoileal atresia occurs far more commonly than jejunoileal webs (90% vs 10%). In contrast to pyloric, duodenal, and colonic atresia, other anomalies are rarely associated with jejunoileal atresia. The classification system used for other intestinal atresias is expanded to include type 3a (eFig. 399.1 ), type 3b, and type 4 atresias, unique types seen in the small intestine as shown diagramatically in Figure 399-2.7,8 Infants present with bilious vomiting and abdominal distension. They may or may not pass some meconium. Plain films will demonstrate multiple dilated bowel loops. Contrast studies from above and below aid in diagnosis. The classic “microcolon” seen on contrast enema suggests a more proximal complete small intestinal obstruction (eFig. 399.2 ). Prompt resuscitation and operative intervention are necessary. The surgical repair chosen depends on the type of atresia present.9 Other atresias should be excluded intraoperatively, with irrigation of the proximal and distal bowel. The surgeon must evaluate the blood supply, bowel length present, and diameter of proximal and distal lumens to determine the most appropriate operation. Preservation of bowel length is the goal of reconstruction. Primary anastomosis is preferred, with or without a tapering enteroplasty.10 Patients with shortened bowel length may require support with parenteral nutrition. In some cases, stomas and bowel-lengthening procedures may be required.
FIGURE 399-2. Classification of intestinal atresias. Type I is a membrane or web, type II is an atretic segment with a solid cord between the two ends, and type III is atretic, with a gap between the stomach and duodenum. Type IIIA refers to the previously described wedge-shaped gap in the mesentery between 2 blind ends of small bowel. Type IIIB refers to the “Christmas tree” or “apple-peel” atresia with an abnormal mesenteric blood supply. This latter type often results in significant bowel loss as the distal end is corkscrewed around a marginal artery. Type IV of atresia encompasses the presence of multiple atresias, which can result in a “string of sausages” appearance.
Colonic Atresia
Colonic atresia is a rare cause of distal bowel obstruction and can have the same clinical presentation as a small bowel atresia.11 Bilious emesis, abdominal distention, failure to pass meconium, and absent distal gas on X-ray, combined with contrast enema findings consistent with incomplete colonic filling, confirm the diagnosis. Because colonic atresia can be associated with aganglionosis, a rectal biopsy should be performed as part of the evaluation. Colonic atresia may also be associated abdominal wall, skeletal, cardiac, or ophthalmologic defects. Intraoperatively, the entire intestinal tract must be evaluated for additional obstructing lesions, as colonic atresia can be associated with multiple small bowel atresias. Surgical repair is required, which can be accomplished with segmental resection and either primary anastomosis or diversion. Recent reports on management of colonic atresia demonstrate good outcomes of primary anastomosis repairs when the disparity in proximal and distal bowel diameters did not exceed a 3:1 ratio.
PROGNOSIS
The overall survival of infants with intestinal atresias, stenosis, and webs has risen dramatically over the past several decades, mainly due to advances in neonatal nutrition, anesthesia, and perioperative care. Before 1950, the mortality rate was greater than 90%, whereas currently, greater than 90% of infants with these anomalies survive. Infants with atresias or webs, and other congenital anomalies are at higher risk of mortality. Atresia location does not affect mortality, but children with multiple intestinal atresias are more likely to require prolonged nutritional support.12 Late complications that require repeat surgical interventions are somewhat more frequent in patients with duodenal atresia.13 Other complications include iron deficiency due to gastrointestinal bleeding14 and bacterial overgrowth, which has been described with persistence of dilated bowel in some patients who underwent side-to-side anastomosis.