Esophagus Lecture Notes PDF

Summary

This document provides an overview of esophageal conditions, including congenital anomalies, causes of esophagitis, Barrett's esophagus, hiatus hernia, and neoplastic diseases.

Full Transcript

Objectives
Describe the congenital anomalies
of esophagus.
List the causes of esophagitis
Explain the Barret esophagitis
Explain the hiatus hernia.
Describe and explain the pathology of
neoplastic disease of the esophagus.
Congenital anomalies
Atresias :“a thin, noncanalized cord replaces a segment of
esophagus, causing a mechanical obstruction” with a
proximal blind pouch connected to the pharynx and a
lower pouch connected to the stomach.
Fistula:
Esophagus connects with the bronchus or trachea.
Fistulae can lead to aspiration, suffocation, pneumonia, and
severe fluid and electrolyte imbalances.
Stenosis, webs, rings:
Esophageal atresia and tracheoesophageal fistula.
A, Blind upper and lower esophageal segments. B, Fistula between blind upper
segment and trachea. C, Blind upper segment,fistula between blind lower segment and
trachea. D, Blind upper segment only. E, Fistula between patent esophagus and
trachea. Type C is the most common variety.
Diaphragmatic Hernia, Omphalocele,
and Gastroschisis
Diaphragmatic hernia occurs when incomplete
formation of the diaphragm allows the abdominal
viscera to herniate into the thoracic cavity.
When severe, the space-filling effect of the displaced
viscera can cause pulmonary hypoplasia that is
incompatible with life after birth.
Omphalocele occurs when closure of the
abdominal musculature is incomplete and the
abdominal viscera herniate into a ventral
membranous sac. This may be repaired surgically,
but as many as 40% of infants with an omphalocele
have other birth defects, including diaphragmatic
Ectopia

Ectopic tissues (developmental rests) are common in
the GI tract. The most frequent site of ectopic gastric
mucosa is the upper third of the esophagus, where it
is referred to as an inlet patch. While generally
asymptomatic, acid released by gastric mucosa
within the esophagus can result in dysphagia,
esophagitis, Barrett esophagus, or, rarely,
adenocarcinoma.
Ectopic pancreatic tissue occurs less frequently and
can be found in the esophagus or stomach. Like
inlet patches, these nodules are most often
asymptomatic but can produce damage and local
inflammation.
Achalasia:
1. dilatation of the esophagus above the LES.
2. wall may be of normal or increased thickness.
3. may be primary or secondary to diabetic
neuropathy, malignancy, Chagas disease or
amyloidosis
Major conditions associated with esophageal motor dysfunction
There are three major abnormalities:
 A peristalsis.
 Partial relaxation of LES with swallowing.
 Increased LES pressure.
Microscopically:
Myenteric ganglia are absent from the body of
esophagus.
Complications of achalasia include:

1. Severe dysphagia
2. Nocturnal regurgitation and aspiration.
3. 5% of patients it may be complicated by the
development of squamous cell carcinoma.
 Hiatal hernia

 acquired herniation of the stomach due to
widening of the space between the muscular crura
of the diaphragm and the esophageal wall.
 herniation may be axial (sliding) or non-axial
(paraesophageal).
 sliding hernia – herniation of the esophagogastric
junction through the hiatus into the thorax ; sliding
– most common (95%)
 paraesophageal through hiatus alongside
esophagus (esophagogastric junction remains in the
abdomen)
 Hernias may be found in up to 20% of adult
subjects
Infants and children may also have hiatal
hernias
complications :
1. Bleeding and perforation
2. Strangulation or obstruction may
complicate paraesophageal hernias
 Esophagitis
Reflux esophagitis is due to reflux of gastric contents.
Causes:
1. Associated with an altered LES tone ( CNS
depressants, hypothyroidism, pregnancy, alcohol
or tobacco exposure)
2. Hiatal hernia as well as delayed gastric emptying
may also play a role.
3. Inflammation is due to acid peptic action upon
the mucosa.
 Microscopic features include:

a) Inflammatory cells in the epithelial layer:
eosinophils, neutrophils, lymphocytes.
b) Basal zone hyperplasia (over 20% of
epithelial thickness)
c) Elongation of lamina propria papillae
with congestion, up to the upper third of
the epithelial layer.
Reflux esophagitis.
Low-power view of the superficial portion of the mucosa. Numerous
eosinophils within the squamous epithelium, elongation of the lamina propria
papillae, and basal zone hyperplasia are present.
As a complication of long-standing
gastroesophageal reflux.
Pathology:
The distal squamous mucosa is replaced by metaplastic
columnar epithelium.
Pathogenesis:
Inflammation and ulceration, followed by ingrowth of
metaplastic columnar epithelium, intestinal type.
Grossly or endoscopically:

1. Seen as red, velvety mucosa located between the
pale, white squamous mucosa.
2. It may be in small tongues or patches extending up
from the GE junction or displacing in a broad fashion
the squamo-columnar junction upwards.
3. The small tongue or patches are called short
segment Barrett mucosa.
Barrett esophagus. A, B, Gross view of distal esophagus (top) and proximal
stomach (bottom), showing A, the normal gastroesophageal junction (arrow) and
B, the granular zone of Barrett esophagus (arrow). C, Endoscopic view of Barrett
esophagus showing red velvety gastrointestinal mucosa extending from the
gastroesophageal orifice. Note the paler squamous esophageal mucosa.
Microscopy:
Dysplastic changes may occur during the course
of Barrett mucosa, consisting of enlarged,
crowded and stratified nuclei.
Two types of dysplasia are recognized:
1. Low grade, with basal orientation of nuclei.
2. High grade with nuclei reaching the apex of
the epithelial cells.
Adenocarcinoma may occur in both short and
long segment Barrett mucosa.
Barrett esophagus. Microscopic view showing squamous mucosa and
intestinal-type columnar epithelial cells (goblet cells) in a glandular
mucosa
Infectious and chemical esophagitis
The ingestion of mucosal irritants may cause
inflammation of the esophagus; e.g.
corrosive acids or alkali, hot fluids, alcohol,
heavy smoking.
Other causes of esophagitis include cytotoxic
anticancer therapy, infection after
bacteremia or viremia.
In immunosuppressed patients herpes
simplex and cytomegalovirus (CMV) are the
most common organisms; in debilitated
patients fungal infections e.g. candida, may
Esophageal varices:

Caused by portal hypertension, mainly due
to cirrhosis of the liver.
Collaterals develop in the lower esophagus,
eventually becoming tortuous, protruding
into the lumen mucosa may be inflamed
and eroded.
Varicosal dilatation may lead to rupture,
with massive hemorrhage as a severe
complication.
In patients with cirrhosis, ruptured varices
may lead to death in 40% of patients in
Benign tumors

The most common benign tumors are of smooth
muscle origin, called leiomyomas.
Other benign tumors include: fibromas, lipomas,
hemangiomas, squamous papillomas and
inflammatory polyps
Malignant tumors
Carcinoma of the esophagus represents 6% of G.I.
cancers. Two main types are recognized:
1. Occur in adults over the age of 50 years.

2. Male – female ratio from 2:1 to 20:1

3. Worldwide in distribution but the incidence
varies according to different regions.

4. High incidence areas include Central Asia,
Northern China, Puerto Rico and Eastern
Europe, where it may exceed 100 per 100,000.

5. Blacks are at higher risk than are whites.
1. Dietary and environmental factors are
described as major risk factors.
2. Genetic predisposition is thought to play a
minor role.
3. Alcohol and tobacco usage are main factors
in the US and Europe.
4. In other parts of the world, carcinogens
such as fungus contaminated and
nitrosamines in foodstuffs play a major role
in China and South Africa.
5. Human papilloma virus DNA is found in
tumors from high incidence regions.
 More than half of cancers have p53 mutations.
 Also p16 and allelic loss, indicating stepwise
accumulation of genetic alterations.
 There are, however, no K-ras or APC gene
mutations identified in squamous cell carcinomas
Morphology:
 20% of tumors are located in the upper third of the
esophagus, 50% in the middle third, 30% in the lower
third.
 Tumors appear as exophytic polypoid lesions in 60%
of cases; flat in 10% and excavated-necrotic
ulceration in 25% of cases
 May erode into the respiratory tree or aorta, invade
the mediastinum and pericardium.
 Rarely it is superficial, confined to the epithelial
layer or submucosa.
 Usually well differentiated.
-Tumors located in the upper third metastasize to
cervical lymph nodes
-The mid esophagus tumors metastasize to mediastinal
lymph nodes and the lower esophageal tumors to
gastric and celiac nodes
Clinically:
The tumors produce dysphagia and obstruction;
patients experience weight loss.
Hemorrhage and sepsis may result from tumor
ulceration.
Five year survival is 75% for superficial carcinoma, 25%
for patients undergoing curative surgery;
overall is 5% survival for esophageal carcinoma.
Adenocarcinoma
Up to half of all esophageal cancers are
adenocarcinomas, in association with Barrett
esophagus.
Alterations include overexpression of p53 and
allelic losses in 17p.
The tumors are usually in the distal esophagus,
may invade the cardia and grow to be large
nodular masses.
Microscopically
They are mucin producing, occasionally with
Signet ring types.

Clinically :
 Adenocarcinomas are more common in men than
women, more frequent in white than black
males.
 Symptoms are similar to those in squamous cell
carcinomas.
 Prognosis is poor, with 30% 5 year survival
 Cancers limited to mucosa and submucosa have
a 5-year survival of 80%