Continually Updated Clinical Reference
 
 
  All Sources     eMedicine     Medscape     Drug Reference     MEDLINE
 
eMedicine - Duodenal Atresia : Article by

Quick Find
Authors & Editors
Introduction
Differentials
Radiograph
Ultrasound
Multimedia
References

Related Articles
Abdominal Aortic Aneurysm, Rupture

Midgut Volvulus




Patient Education
Click here for patient education.


AUTHOR AND EDITOR INFORMATION

Section 1 of 7 Click here to go to the next section in this topic  

Author: Gerald Mandell, MD, Consulting Staff, Department of Radiology, Phoenix Children's Hospital

Gerald Mandell is a member of the following medical societies: American Academy of Pediatrics, American College of Angiology, American College of Nuclear Medicine, American College of Nuclear Physicians, American College of Radiology, American Medical Association, Society for Pediatric Radiology, and Society of Nuclear Medicine

Editors: Lori Lee Barr, MD, Adjunct Associate Professor of Radiology, Department of Radiology, University of Texas Health Science Center San Antonio; Bernard D Coombs, MB, ChB, PhD, Consulting Staff, Department of Specialist Rehabilitation Services, Hutt Valley District Health Board, New Zealand; David A Stringer, MBBS, FRCR, Clinical Professor, National University of Singapore; Clinical Director, Diagnostic Imaging, National University Hospital; Head, Diagnostic Imaging, KK Women's and Children's Hospital, Singapore; Robert M Krasny, MD, Consulting Staff, Department of Radiology, The Angeles Clinic and Research Institute; John Karani, MBBS, FRCR, Consulting Staff, Department of Radiology, King's College Hospital, London

Author and Editor Disclosure

Synonyms and related keywords: duodenal stenosis, duodenal membrane, duodenal diaphragm, duodenal web

INTRODUCTION

Section 2 of 7 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic  

Background

Duodenal atresia represents complete obliteration of the duodenal lumen. A duodenal diaphragm (or duodenal web) is thought to represent a mild form of atresia. Duodenal stenosis (incomplete obstruction of the duodenal lumen) is discussed with duodenal atresia because the 2 disorders together represent a spectrum of similar intrauterine events.

Annular pancreas occurs when pancreatic tissue surrounds the second portion of the duodenum. If the encirclement is complete, it may be associated with complete or incomplete duodenal obstruction. Since duodenal atresia or duodenal stenosis occurs in all cases of annular pancreas, the anomalous pancreas should be considered a secondary change rather than a primary cause of duodenal obstruction.

Pathophysiology

The etiology of duodenal atresia and stenosis is unknown. Failure of recanalization of the duodenal lumen remains the favored theory, compared with intrauterine vascular ischemia.

During the third week of embryonic development, the second portion of the duodenum, at the junction of the foregut and midgut, forms biliary and pancreatic buds, which are derived from endoderm. During the next 4 weeks, these buds differentiate into the hepatobiliary system, with the development and subsequent fusion of the 2 pancreatic anlagen. Concurrently, the epithelium of the duodenum undergoes active proliferation, which, at times, completely obliterates the duodenal lumen. Vacuolization, followed by recanalization, reestablishes the hollow viscus.

The second part of the duodenum is the last to recanalize. The early forming biliary system consists of 2 channels arising from the embryonic duodenum. This structure creates a narrow segment of bowel, approximately 0.125 mm in length, that is interposed between the 2 biliary channels. This narrow region is the area most prone to problems, with recanalization and with atresia formation. The ampulla of Vater usually is immediately adjacent to or traverses the medial wall of the diaphragm. The presence of a bifid biliary system, or the insertion of 1 duct above the atresia and 1 duct below it, is rare, occurring when both biliary duct anlagen remain patent. The presence of bile above and below the atresia indicates a bifid biliary system.

Frequency

United States

The incidence of duodenal atresia is 1 per 6000 births. Intrinsic congenital duodenal obstruction constitutes two thirds of all congenital duodenal obstructions (duodenal atresia, 40-60%; duodenal web, 35-45%; annular pancreas, 10-30%; duodenal stenosis, 7-20%).

International

The incidence in Finland of congenital obstruction (intrinsic, extrinsic, combined) is 1 per 3400 live births.

Mortality/Morbidity

If duodenal atresia or significant duodenal stenosis is left untreated, the condition rapidly becomes fatal as a result of electrolyte loss and fluid imbalance.

  • One half of the neonates with duodenal atresia or stenosis are born prematurely.
  • Hydramnios occurs in approximately 40% of neonates with duodenal obstruction.
  • Duodenal atresia or duodenal stenosis is most commonly associated with trisomy 21. About 22-30% of patients with duodenal obstruction have trisomy 21. Other problems associated with trisomy 21 include cardiac defects (most commonly ventricular septal defects and endocardial defects), as well as Hirschsprung disease.

Race

No racial predilection exists.

Sex

The incidence of duodenal atresia and duodenal stenosis is approximately equal in males and females.

Age

Infants with duodenal atresia present with vomiting in their first few hours of life, but patients with duodenal stenosis present at various ages. The clinical findings depend on the degree of stenosis. Occasionally, with duodenal web or duodenal stenosis, presentation occurs in adulthood.

Anatomy

In most cases, duodenal atresia occurs below the ampulla of Vater. In a very few cases, the atresia occurs proximal to the ampulla.

Clinical Details

Bile-stained vomit in neonates aged 24 hours or younger is the typical presentation of atresia or severe stenosis. Minimal duodenal obstruction in mild stenosis or duodenal membrane may have few symptoms. In a few cases, the atresia is proximal to the ampulla of Vater and the vomit is free of bile.

Both duodenal anomalies can be associated with other GI and biliary tract abnormalities (malrotation, esophageal atresia, ectopic anus, annular pancreas, gallbladder or biliary atresia, vertebral anomalies). In addition, duodenal atresia can be associated with a duodenal diaphragm, as well as with congenital abnormalities in other systems. Examples include VATER (vertebral defects, anal atresia, tracheoesophageal fistula with esophageal atresia, radial and renal anomalies) association and VACTERL (vertebral, anal, cardiac, tracheal, esophageal, renal, limb) syndrome.

Anomalies of the kidneys can occur in VATER association; the most common of these renal abnormalities include aplasia, dysplasia, hydronephrosis, ectopia, persistent urachus, vesicoureteral reflux, and ureteropelvic obstruction.

A few familial cases have been reported.

Preferred Examination

Plain radiographs that demonstrate a double-bubble appearance with no distal gas are characteristic of duodenal atresia. Distal bowel gas indicates stenosis, incomplete membrane, or a hepatopancreatic ductal anomaly. Occasionally, a radiograph must be obtained with the patient in the erect or the decubitus position to delineate the duodenal component. If a combination of esophageal atresia and duodenal atresia is present, ultrasonography is preferred.

Limitations of Techniques

No oral contrast materials are necessary in the evaluation of complete duodenal obstruction. Occasionally, a small amount of positive contrast material can be instilled through a feeding tube into the distal stomach and duodenum to differentiate the diaphragm from a long stenosis.

Occasionally, barium enema examination is suggested as an adjunct study in the evaluation of duodenal atresia. Barium enema findings can demonstrate a malpositioned cecum, but this is not always diagnostic of malrotation and volvulus. In addition, if a microcolon is demonstrated, the presence of additional, more distal atresias can be suggested. Succus entericus may be prevented from reaching the colon because of the additional area of bowel obstruction. Multiple atresias are present in approximately 15% of patients. However, most surgeons can determine the presence of malrotation and additional atresias at the time of surgery.

To the author's knowledge, in only 1 instance was the addition of the barium enema examination beneficial to the preoperative examination of a patient with trisomy 21. This case involved the coexistence of Hirschsprung disease. (The presence of trisomy 21 makes the likelihood of Hirschsprung disease in a patient 15-fold greater.) If these conditions are known prior to surgery, the surgeon can create a temporizing colostomy at the time of duodenojejunostomy and spare the child from undergoing additional anesthesia.


DIFFERENTIALS

Section 3 of 7 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic  

Abdominal Aortic Aneurysm, Rupture
Midgut Volvulus

Other Problems to Be Considered

Annular pancreas
Duodenal diaphragm
Duodenal stenosis
Preduodenal portal vein
Ladd bands
Duplication of duodenum
Tumor of duodenum
Hematoma of duodenum
Retroperitoneal tumor


RADIOGRAPH

Section 4 of 7 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic  

Findings

The double-bubble sign represents dilatation of the stomach and duodenum. This configuration most commonly occurs with duodenal atresia and an annular pancreas. An annular pancreas is almost always associated with duodenal atresia.

In a few cases of duodenal atresia, air can be observed distal to the area of obstruction. The anomalous hepatopancreatic ducts permit movement of air through a Y-shaped ductal system, with 1 limb proximal to the obstruction and 1 limb distal to the atresia.

When duodenal atresia is combined with esophageal atresia, no air is observed in the stomach. Because the stomach is obstructed at both ends, the infant presents with a large, opaque upper midabdominal mass. If esophageal atresia exists along with a distal fistula, air is found in the stomach and duodenum.

Duodenal obstruction in the neonate may be partial or complete, and it may be secondary to intrinsic or extrinsic abnormalities. The duodenal bulb may be larger in duodenal atresia than in obstructions of the duodenum. Increased intramural pressure in duodenal obstruction can result in gastric pneumatosis.

Degree of Confidence

Once the radiographic finding of a double-bubble sign without distal gas is determined, the diagnosis of duodenal atresia is evident, and usually, no additional, contrast-enhanced studies are needed.

False Positives/Negatives

Duodenal atresia that is associated with a Y-shaped biliary duct connection can have air distal to the point of duodenal atresia. This finding may suggest stenosis rather than atresia.


ULTRASOUND

Section 5 of 7 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic  

Findings

A finding of 2 echo-free fluid collections in the upper abdomen suggests duodenal atresia in association with esophageal atresia. Esophageal atresia without a fistula does not permit air to reach the stomach and duodenum.

Degree of Confidence

These findings do not require confirmation with additional procedures.


MULTIMEDIA

Section 6 of 7 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic  

Media file 1:  Types of duodenal recanalization anomalies. A. Diaphragm, B. Solid cord and atresia, C. Segmental absence. Dilatation of the proximal normal segment is seen in each type.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  Image

Media file 2:  Anteroposterior radiograph of the abdomen depicts the double-bubble sign of duodenal atresia. Note the flattened acetabular angles and broadened ilia of trisomy 21.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 3:  Lateral radiograph demonstrates the double-bubble sign of duodenal atresia.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 4:  Anteroposterior projection of the chest and abdomen demonstrates the double-bubble sign of duodenal atresia in the abdomen, as well as a proximal dilated pouch (right arrow) resulting from esophageal atresia; this displaces the trachea (left arrow) toward the right side in the superior mediastinum. The presence of air in the stomach and duodenum is related to the existence of a distal fistula.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 5:  Barium air contrast–enhanced study of the duodenal membrane (arrows) in the lateral projection shows a small amount of barium exiting into the more distal bowel. Coincidentally, 2 coronal cleft vertebrae are noted.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 6:  Anteroposterior radiograph demonstrates an enlarged duodenum, representing duodenal stenosis. Air is observed distally.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 7:  Diagram of a hepatopancreatic ductal anomaly, which permits air to move distal to the obstruction in duodenal atresia.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  Image


REFERENCES

Section 7 of 7 Click here to go to the previous section in this topic Click here to go to the top of this page

  • Graber I, Dumas R, Filoche B, et al. The efficacy and safety of duodenal stenting: a prospective multicenter study. Endoscopy. Sep 2007;39(9):784-7. [Medline].
  • Hayden CK Jr, Schwartz MZ, Davis M, et al. Combined esophageal and duodenal atresia: sonographic findings. AJR Am J Roentgenol. Feb 1983;140(2):225-6. [Medline].
  • Kassner EG, Sutton AL, De Groot TJ. Bile duct anomalies associated with duodenal atresia; paradoxical presence of small bowel gas. Am J Roentgenol Radium Ther Nucl Med. Nov 1972;116(3):577-83. [Medline].
  • Kataria R, Bhatnagar V, Wadhwa S, et al. Gastric pneumatosis associated with preduodenal portal vein, duodenal atresia, and asplenia. Pediatr Surg Int. Nov 1998;14(1-2):100-1. [Medline].
  • Kirks DR, Baden M. Incompetence of the sphincter of Oddi associated with duodenal stenosis. J Pediatr. Nov 1973;83(5):838-40. [Medline].
  • Knechtle SJ, Filston HC. Anomalous biliary ducts associated with duodenal atresia. J Pediatr Surg. Dec 1990;25(12):1266-9. [Medline].
  • McCook TA, Felman AH. Esophageal atresia, duodenal atresia, and gastric distention: report of two cases. AJR Am J Roentgenol. Jul 1978;131(1):167-8. [Medline].
  • Robinson AE, Grossman H, Brumley GW. Pneumatosis intestinals in the neonate. Am J Roentgenol Radium Ther Nucl Med. Feb 1974;120(2):333-41. [Medline].
  • Spitz L, Ali M, Brereton RJ. Combined esophageal and duodenal atresia: experience of 18 patients. J Pediatr Surg. Feb 1981;16(1):4-7. [Medline].
  • Stark Z, Patel N, Clarnette T, et al. Triad of tracheoesophageal fistula-esophageal atresia, pulmonary hypoplasia, and duodenal atresia. J Pediatr Surg. Jun 2007;42(6):1146-8. [Medline].
  • Tashjian DB, Moriarty KP. Duodenal atresia with an anomalous common bile duct masquerading as a midgut volvulus. J Pediatr Surg. Jun 2001;36(6):956-7. [Medline].
  • Ueki T, Yao T, Beppu T, et al. Three-dimensional computed tomography pancreatography of an annular pancreas with special reference to embryogenesis. Pancreas. May 2006;32(4):426-9. [Medline].

Duodenal Atresia excerpt

Article Last Updated: Aug 28, 2007