Neonatal Intestinal Obstruction

NEONATAL INTESTINAL OBSTRUCTION

99% of healthy full-term infants pass their first stool or meconium within 24 hours of birth and all healthy term neonates should do so by 48 hours.

With preterm infants the length of time can extend up to 9 days.

Neonatal intestinal obstruction occurs in 1/1500 live births. Etiologies are from intrinsic developmental defects, abnormalities of peristalsis or abnormal intestinal contents, or from insults in utero after the formation of normal bowel. Failure to recognize neonatal bowel obstruction can result in aspiration of vomit, sepsis, mid-gut infarction or enterocolitis.

Differential Diagnosis for failure to pass meconium:

1. Disorders of the small intestine
1. Duodenal atresia
2. Jejunoileal atresia
3. Malrotation and volvulus
4. Meconium ileus
2. Disorders of the large intestine
1. Meconium plug syndrome
2. Anorectal malformation
3. Hirschsprung's disease
4. Small left colon syndrome
3. Other causes
1. Narcotics
2. Electrolyte abnormalities; hypermagnesemia, hypokalemia, hypercalcemia
3. Hypothyroidism
4. Sepsis
5. Congestive heart failure

Meconium plug syndrome: Meconium plug syndrome is the most common form of functional bowel obstruction in the newborn, with an incidence of 1/500.

It is a transient form of distal colon or rectal obstruction caused by inspissated and dehydrated meconium, the etiology for which is unknown.

Diagnosis is made through barium enema revealing the outline of meconium plug. Barium enema can also be therapeutic along with rectal stimulation in inducing passage of the meconium.

Generally, infants with meconium plug syndrome have normal bowel function after passing the meconium plug.

Anorectal malformation: The incidence of anorectal malformation is 1/4000 live births, including anal stenosis, imperforate anus, and fistula.

Malformations are caused by a defect in embryonal development where the urorectal septum, lateral mesoderm and ectodermal structures combine to form the normal rectum and lower urinary tract.

70% of infants with anorectal malformation have associated anomalies. The mnemonic VACTERL is used to describe the combination of vertebral defects, anal atresia, cardiac defects, tracheoesophageal fistula, renal defects and radial limb hypoplasia.

Anal stenosis accounts for 20% of anorectal anomalies and treatment is with dilatation.

The mortality rate for patients with anorectal malformation is directly related to associated anomalies.

Malrotation and volvulus: Malrotation of the midgut is caused by a failure of normal bowel rotation. The mid-gut does not complete its normal 290° counterclockwise rotation during embryologic development, resulting in abnormal placement and fixation of the small bowel. This can cause obstruction and sometimes infarction of the small and large bowel, known as volvulus. Volvulus usually occurs within the first week of life.

Upright abdominal films reveal the classic double bubble sign, showing air in the stomach and proximal duodenum.

Treatment is with the Ladd's procedure involving counterclockwise reduction of the volvulus, release of adhesive bands (Ladd's bands) to mobilize the duodenum, and appendectomy. Recurrence of mid-gut volvulus after the Ladd's procedure can occur in up to 10% of cases.

Meconium ileus: This disorder is differentiated from meconium plug syndrome by location of the stool. In meconium ileus, the thick, tenacious bowel is most commonly found in the ileum but occasionally occurs in the jejunum or proximal colon.

90%-95% of patients with meconium ileus have cystic fibrosis. But, only 15% of cystic fibrosis patients will have meconium ileus as neonates. Associated anomalies such as volvulus, jejunoileal atresia, or bowel perforation occur in over half of infants with meconium ileus.

Duodenal atresia: The etiology of duodenal atresia is from failure to recanalize the lumen after the solid phase of intestinal development. This occurs between the 4th and 5th week of gestation. 40% of the patients with duodenal atresia have Down Syndrome. Diagnosis can be made in utero if polyhydramnios is present. Plain films can reveal the double bubble sign and an upper GI series might be necessary to distinguish between malrotation and duodenal atresia. Treatment is with duodenoduodenostomy.

Hirchsprung's disease: Hirchsprung's disease, or congenital aganglionic megacolon, is a motor disorder of the colon that causes a functional intestinal obstruction. It occurs in 1/5000 infants with a male to female predominance of 4:1. The pathogenesis of the disease is failure of migration of the neural crest cells that form the colonic ganglion cells. Without parasympathetic innervation, the colon cannot relax or undergo peristalsis, resulting in a functional obstruction.

The aganglionic segment is limited to the rectosigmoid in the majority of patients. 10% have full colonic involvement and in 10% more, there is lack of ganglion cells into the small bowel.

Diagnosis of Hirchsprung's disease can be made with barium enema, revealing a transition zone between the constricted aganglionic segment and the proximal, normally dilated segment.

Confirmation of the diagnosis is made with rectal suction biopsy.

The treatment of Hirchsprung's disease is through surgical resection of the aganglionic bowel.

The major complications of the disease, even after surgical resection, are bowel obstruction and enterocolitis.

Full article found here.

INTESTINAL OBSTRUCTION

INTESTINAL OBSTRUCTION
A. Diagnosis and preoperative management:
•Intestinal obstruction should be suspected with maternal history of
polyhydramnios, large amount (>20 mL) of gastric fluid at birth, bilious or nonbilious
emesis, or progressive abdominal distension.
•Common causes include duodenal, jejunal, ileal, or colonic atresia, malrotation
with mid gut volvulus, meconium ileus with associated cystic fibrosis, meconium
plug, Hirschsprung’s disease, imperforate anus, and hypoplastic left colon.
•Infants with bowel atresia may pass meconium.
•The higher the obstruction, the more prominent is the vomiting. The lower the
obstruction, the more prominent is the distension.
•Make infant NPO, start IV, and monitor electrolytes, urine output and weight.
•Place Replogle tube to continuous suction and measure output.
•Obtain KUB looking for
-“double bubble” sign of duodenal atresia. If present, no further GI workup is
needed and patient should go to surgery when stable.
-multiple dilated loops of bowel indicating a more distal obstruction
-intraperitoneal calcifications suggestive of perforation with meconium ileus
-air throughout bowel to the rectum suspicious for Hirschsprung’s disease
-bubbly-appearing stool filling the bowel suggestive of meconium ileus and
cystic fibrosis
•Upper GI contrast study (with dilute Hypaque™or Gastrograffin™) may be
required to assess for malrotation and possible volvulus.
•Contrast enema using Gastrografin™ or dilute Hypaque™ may be done to identify
an area of obstruction or to relieve meconium plug or meconium ileus.
•Suspect acute volvulus secondary to malrotation if the baby has signs of shock,
metabolic acidosis or peritonitis. If there are signs suggesting volvulus,
emergency operation is indicated since gut viability may be threatened.
•Suspect Hirschsprung’s disease with repeated episodes of abdominal distension
or very delayed passage of meconium. Diagnosis can be made with suction rectal
biopsy. If no ganglion cells are seen, a surgical biopsy will confirm the diagnosis.
•Infants with Hirschsprung’s disease are at risk for development of fatal toxic
megacolon until the bowel has been decompressed by corrective surgery or
colostomy. Surgeons may choose to decompress initially with rectal irrigation.
This is different from simple enemas.
•Imperforate anus may be the sole abnormality or may be part of the VATER
association. Look carefully for evidence of recto-vaginal, recto-urethral or
perineal fistula. Ultrasound may help determine if the defect is low (and easily
repaired) or high (requiring colostomy drainage). These patients will need
eventual workup for tethered spinal cord and urinary tract anomalies.
B. Post operative management:
•IV fluid replacement at maintenance levels with parenteral nutrition (see P. 136)
starting within 2d of operation. Intermittent fluid boluses may be required in the
first 48h to maintain adequate urine output and to treat hypotension and
hypoperfusion. Consider early use of low-dose dopamine (3-5 mcg/kg/min).
•If there has been extensive bowel manipulation, the baby may require baseline
fluid administration 1.5 times normal (i.e., 150 mL/kg/d) because of capillary
leak. Use Lactated Ringer’s Solution with 5% or 10% dextrose for at least the
first 24h after operation.
•Maintain Replogle tube to continuous suction and measure output. If drainage is
more than 10 mL/kg per 12h shift, replace volume loss with an equal volume of
0.45% NaCl.
•Replogle tube may be removed when drainage is minimal and non-bilious.
•After the baby has passed stool, start feedings with small volumes and advance
slowly over the next 48h to ensure that baby is not developing abdominal
distension secondary to postoperative ileus or to stricture at the anastomotic site.